The endocytic catalysts, Rab5a and Rab7, are tandem regulators of thyroid hormone production

Rab proteins are small GTPases that control distinct vesicular transport steps. Along the endocytic pathway, Rab5a is a rate-limiting catalyst of internalization, and Rab7 controls trafficking through late endosomes to lysosomes. The dependence of thyroid hormone production by thyrocytes on thyroglobulin endocytosis and intracellular processing in late endosomes/lysosomes suggests that its rate can be regulated by the expression or function of these endocytic catalysts. We compared the expression level and membrane recruitment of Rab5a and Rab7 in autonomous thyroid adenomas (where the cAMP cascade is constitutively activated) and surrounding quiescent tissues. The concentrations of Rab5a and Rab7, but not of Rab8, were coordinately increased up to 6-fold in adenomas, and correlated with a proportionate decrease in soluble thyroglobulin content (reflecting colloid depletion by accelerated endocytic uptake in hyperactive tissue). In adenomas, a higher proportion of Rab5a and Rab7 was membrane associated, and the equilibrium density of particulate Rab7 and iodine shifted toward lysosomal fractions, indicating that progression along the degradation pathway also was promoted. In cultures of polarized human thyrocytes from normal patients, thyroid-stimulating hormone or forskolin increased, to a similar extent, Rab5a and Rab7 but not Rab8 expression, apical endocytosis of thyroglobulin and lucifer yellow, and basolateral secretion of T(3) and T(4). Taken together, these in vivo and in vitro observations demonstrate that thyroid-stimulating hormone, via cAMP, coordinately enhances the expression of Rab5a and Rab7, which promote Tg endocytosis and transfer to lysosomes, respectively, resulting in accelerated thyroid hormone production.

Nitric oxide is involved in interleukin-1alpha-induced cytotoxicity in polarised human thyrocytes

Nitric oxide (NO) is a well-known mediator of autoimmune processes. In the thyroid gland, it is produced in response to interleukin 1 (IL-1) and may mediate cytokine action at an early stage of autoimmune thyroiditis. In this study, we have investigated whether NO is involved in cytokine-induced cytotoxic effects and epithelial barrier alterations in thyrocytes. Human thyroid epithelial cells were cultured as tight polarised monolayers on a permeable support and exposed or not to IL-1alpha (100 U/ml), alone or in combination with interferon-gamma (IFN-gamma; 100 U/ml) added to the basal compartment. NO production was not detected in control thyrocytes, but was significantly induced by the combination of IL-1alpha with IFN-gamma, in a time-dependent fashion. Similarly, expression of the inducible isoform of nitric oxide synthase (NOSII), determined by immunoblot and immunofluorescence confocal microscopy, was not detected in control cells, but was markedly induced after 48-h exposure to both cytokines. This treatment significantly increased the release of cytosolic lactate dehydrogenase (LDH) in the apical and basolateral media and decreased transepithelial electrical resistance. Although IFN-gamma was not sufficient to induce NO production, it could by itself decrease transepithelial resistance and synergised the IL-1alpha effect on LDH release. The NOS inhibitor, L-nitro-arginine-methyl ester, suppressed the cytokine-induced NO production and decreased the LDH release, but failed to prevent the loss of transepithelial resistance. These results indicated that human thyrocytes express NOSII and produce NO in response to IL-1alpha+IFN-gamma and suggest that NO acts as a mediator of cytokine-induced cytotoxicity in the thyroid gland and may promote the exposure of autoantigens to the immune system. In contrast, NO does not appear to mediate the cytokine-induced disruption of the thyroid epithelial barrier.

Receptor-mediated endocytosis of phosphodiester oligonucleotides in the HepG2 cell line: evidence for non-conventional intracellular trafficking

Having identified an oligonucleotide (ON) receptor in the HepG2 cell line, we have re-examined here the kinetics of ON uptake, subcellular distribution and intracellular localisation in these cells, at concentrations relevant for the study of a receptor-dependent process. Kinetic parameters of ON endocytosis were comparable with those of the receptor-mediated endocytosis tracer, transferrin (uptake equilibrium, saturation with concentration, specific competition and rapid efflux) and were clearly distinct from those of fluid-phase endocytosis. By analytical subcellular fractionation, particulate ON showed a bimodal distribution after 2 h of uptake, with a low-density peak superimposed on the distribution of endosomes, and a high-density peak overlapping lysosomes. After an overnight chase, only the high-density peak remained, but it could be dissociated from lysosomes, based on its refractoriness to displacement upon chloroquine-induced swelling. After 2 h of uptake at 300 nM ON-Alexa, a punctate pattern was resolved, by confocal microscopy, from those of transferrin, of a fluid-phase tracer, and of vital staining of lysosomes by LysoTracker. At 3 microM ON-Alexa, its pattern largely overlapped with the fluid-phase tracer and LysoTracker. Taken together, these data suggest that ON may be internalised at low concentrations by receptor-mediated endocytosis into unique endosomes, then to dense structures that are distinct from lysosomes. The nature of these two compartments and their significance for ON effect deserve further investigation.

Circulating ovarian steroids and endometrial matrix metalloproteinases (MMPs)

Recent studies strongly suggest that matrix metalloproteinases (MMPs) play a key role in the initiation of menstrual bleeding in the human endometrium upon the fall of ovarian steroid serum concentrations by inducing the degradation of the extracellular matrix of this mucosa. MMPs are also involved in abnormal endometrial bleeding and have been identified in endometriotic foci. In all cases, they are associated with areas of extracellular matrix breakdown. This paper reviews the literature on the regulation by estradiol and progesterone of the expression and activation of MMPs, and of the expression of their tissue inhibitors (TIMPs), (i) in the endometrium in situ during normal cycle, (ii) during artificial cycles in spayed monkeys, and (iii) in cultures of endometrial explants or purified cells. Whereas progesterone consistently decreases the activity of endometrial MMPs, its effects vary in intensity, duration, and pattern between MMPs as well as among experimental systems. The contribution and limitations of the various investigations are therefore discussed. The focal heterogeneity points to additional local controls of the expression and activation of MMPs in human endometrium, acting beyond the general inhibitory role of progesterone, for example, by cytokines. Focal changes in type or abundance of sex steroid receptors also could be responsible for spatial variation in the expression of MMPs in the endometrium and endometriotic lesions.

Origin, originality, functions, subversions and molecular signalling of macropinocytosis

Macropinocytosis refers to the formation of primary large endocytic vesicles of irregular size and shape, generated by actin-driven evaginations of the plasma membrane, whereby cells avidly incorporate extracellular fluid. Macropinosomes resemble "empty" phagosomes and show no difference with the "spacious phagosomes" triggered by the enteropathogenic bacteria Salmonella and Shigella. Macropinosomes may fuse with lysosomes or regurgitate their content back to the extracellular space. In multiple cell types, macropinocytosis is a transient response to growth factors. When amoebas are cultured under axenic conditions, macropinocytosis is induced so as to fulfil nutritional requirements. In immature dendritic cells, macropinocytosis allows for extensive sampling of soluble antigens; after a few days of maturation, this activity vanishes as processed peptides are being presented. Macropinosomes are also formed at the leading edge of motile leukocytes or neurons. In all these examples, macropinocytosis appears tightly regulated. Transformation of fibroblasts by Src or Ras also results in constitutive formation of macropinosomes at "ruffling" zones, that could be related to accelerated cell motility. Like phagocytosis, macropinocytosis depends on signalling to the actin cytoskeleton. We have explored this signalling in transformed cells. v-Src and K-Ras activate PI3K and PLC, as demonstrated by in situ production of the corresponding lipid products. Pharmacological inhibitors of PI3K and PLC and stable transfection leading to a dominant-negative PI3-kinase construct in transformed fibroblasts abolish macropinocytosis, demonstrating that both enzyme activities are essential. Conversely, stable transfection leading to a dominant-positive P13K in non-transformed fibroblasts is sufficient to induce macropinocytosis. Combination of experiments allows to conclude that P13K and PLC act in sequential order. In non-polarized cells expressing a thermosensitive v-Src mutant, v-Src kinase activation accelerates fluid-phase endocytosis. In polarized MDCK cells, this stimulation occurs selectively at the apical domain and the response is selectively abrogated by pharmacological inhibitors of P13K and PLC. Thus, two paradigmatic oncogenes cause constitutive macropinocytosis. For v-Src, this response is polarized at the apical membrane. It is suggested that, in enterocytes that do not normally phagocytose, the P13K-PLC signalling pathway leading to selective induction of macropinocytosis at the luminal surface has been subverted by enteropathogenic bacteria to penetrate via "spacious phagosomes".

The calcium-binding protein p54/NEFA is a novel luminal resident of medial Golgi cisternae that traffics independently of mannosidase II

A new Golgi resident, p54, has been demonstrated in several eukaryotic species and in multiple organs. Based on Triton X-114 partition, carbonate extraction and trypsin protection assays, p54 behaved as an extrinsic membrane protein, facing the luminal compartment. p54 was purified by two-dimensional electrophoresis and identified by matrix-assisted laser desorption ionization/time-of-flight (MALDI-TOF) mass spectrometry as NEFA, a calcium-binding protein (Barnikol-Watanabe et al., 1994, Biol. Chem. Hoppe Seyler, 375, 497-512). By immunofluorescence, p54/NEFA essentially colocalized with the medial Golgi marker mannosidase II, and did not overlap with the cis-Golgi marker p58, nor with the trans-Golgi network (TGN) marker TGN38. By immuno-electron microscopy, p54/NEFA localized in the medial cisternae and in Golgi-associated vesicles. p54/NEFA remained associated with mannosidase II despite Golgi disruption by nocodazole, caffeine, or, to some extent, potassium depletion (a new procedure to induce Golgi disassembly), but the two markers rapidly dissociated upon brefeldin A treatment and at metaphase, and reassociated upon drug removal and at the end of anaphase. Since p54/NEFA is a peripheral luminal membrane constituent, its distinct trafficking from the transmembrane marker mannosidase II suggests a novel Golgi retention mechanism, by strong association of this soluble protein with another integral transmembrane resident.

Biochemical characterization of bona fide polycystin-1 in vitro and in vivo

The most common form of autosomal dominant polycystic kidney disease (PKD) results from mutation of the PKD1 gene on chromosome 16p13.3. The gene encodes a 14-kb messenger RNA that is predicted to express a 462-kd membrane protein. The gene product, polycystin-1, has a large extracellular portion composed of a novel combination of protein-protein interacting domains and is postulated to be a plasma membrane receptor involved in cell-cell/matrix interactions. However, slow progress has been made in the characterization of polycystin-1 or the determination of its function. In fact, the protein is expressed at very low levels in tissues and cell lines and previous efforts directed at expression of recombinant protein had been largely unsuccessful. We have recently developed constructs of full-length human PKD1 complementary (cDNA) that can be expressed in both a stable and transient fashion in mammalian cells. We used these systems to characterize our antibodies and to track the protein in vivo. We report here the first biochemical characterization of recombinant polycystin-1 and show that the protein is a 520-kd glycosylated polypeptide with an unglycosylated core of 460 kd. Subcellular fractionation as well as biotinylation studies confirmed that the protein is plasma-membrane associated. Furthermore, we show that the recombinant protein localizes to cell-cell junctions in polarized madin darby canine kidney cells as revealed by indirect immunofluorescence. Our data represent the first characterization of polycystin-1 performed under highly controlled conditions.

In vivo perimenstrual activation of progelatinase B (proMMP-9) in the human endometrium and its dependence on stromelysin 1 (MMP-3) ex vivo

Most matrix metalloproteinases (MMPs) are secreted as inactive proenzymes. Their expression is well documented in several human tissues, but their activators in vivo are still unknown. To address this question, the activation of progelatinase B (proMMP-9) in the human endometrium was selected as a model system. ProMMP-9 was detected by gelatin zymography in homogenates of fresh endometrial tissue sampled during all phases of the menstrual cycle, whereas its active form was observed only during the late secretory and menstrual phases. Furthermore, proMMP-9 was expressed and activated in endometrial explants sampled outside the perimenstrual phase and cultured in the absence of both progesterone and oestradiol, mimicking the menstrual condition in vivo. Analysis of such tissue cultures by gelatin zymography and Western blotting showed that activation of proMMP-9 depended on a secreted factor and was selectively inhibited by either a synthetic inhibitor of stromelysin 1 (MMP-3) or a monoclonal antibody that specifically blocks MMP-3, thus providing strong evidence for the activation of proMMP-9 in vivo by MMP-3. The activation of proMMP-3 was itself inhibited by a broad-range MMP inhibitor in most cultures, but seemed to involve multiple pathways, implying both serine proteinases and metalloproteinases, which could operate in parallel or sequentially.

Azithromycin, a lysosomotropic antibiotic, impairs fluid-phase pinocytosis in cultured fibroblasts

The dicationic macrolide antibiotic azithromycin inhibits the uptake of horseradish peroxidase (HRP) by fluid-phase pinocytosis in fibroblasts in a time- and concentration-dependent fashion without affecting its decay (regurgitation and/or degradation). The azithromycin effect is additive to that of nocodazole, known to impair endocytic uptake and transport of solutes along the endocytic pathway. Cytochemistry (light and electron microscopy) shows a major reduction by azithromycin in the number of HRP-labeled endocytic vesicles at 5 min (endosomes) and 2 h (lysosomes). Within 3 h of exposure, azithromycin also causes the appearance of large and light-lucentlelectron-lucent vacuoles, most of which can be labeled by lucifer yellow when this tracer is added to culture prior to azithromycin exposure. Three days of treatment with azithromycin result in the accumulation of very large vesicles filled with pleiomorphic content, consistent with phospholipidosis. These vesicles are accessible to fluorescein-labeled bovine serum albumin (FITC-BSA) and intensively stained with filipin, indicating a mixed storage with cholesterol. The impairment of HRP pinocytosis directly correlates with the amount of azithromycin accumulated by the cells, but not with the phospholipidosis induced by the drug. The proton ionophore monensin, which completely suppresses azithromycin accumulation, also prevents inhibition of HRP uptake. Erythromycylamine, another dicationic macrolide, also inhibits HRP pinocytosis in direct correlation with its cellular accumulation and is as potent as azithromycin at equimolar cellular concentrations. We suggest that dicationic macrolides inhibit fluid-phase pinocytosis by impairing the formation of pinocytic vacuoles and endosomes.

The adaptative mechanisms of Trypanosoma brucei for sterol homeostasis in its different life-cycle environments

Bloodstream forms of Trypanosoma brucei do not synthesize sterols de novo and therefore cannot survive in medium devoid of lipoproteins. Growth of parasites is essentially supported by receptor-mediated endocytosis of low-density lipoproteins (LDLs), which carry phospholipids and cholesteryl esters. These lipids are released from internalized LDL after apoprotein B-100 is degraded by acidic thiol-proteases in the endolysosomal apparatus and then metabolized, as in mammalian cells. The LDL receptor is recycled and its expression is regulated by the sterol stores. Documented pharmacological and immunological interferences with LDL receptor-mediated lipid supply to the bloodstream forms are summarized, and the potential for new approaches to fight against these parasites is evaluated. In contrast to bloodstream forms, cultured procyclic forms can acquire sterols from both exogenous (lipoprotein endocytosis) and endogenous (biosynthesis of ergosterol) sources. The rate-limiting steps of both endocytosis (surface LDL receptor expression) and biosynthesis (3-hydroxy-3-methylglutaryl coenzyme A reductase activity) are regulated by the cellular content of sterol. These two pathways thus complement each other to yield a balanced sterol supply, which demonstrates adaptative capacities to survive in totally different environments and fine regulatory mechanisms of sterol homeostasis.

Expression and role of Bcl-2 in rat blastocysts exposed to high D-glucose

Bcl-2 mRNA expression was detected in rat blastocysts by in situ hybridization. The distribution of mRNA expression was rather heterogenous, with approximately 2% of high-expressing cells. In vitro exposure to 28 mmol/l D-glucose for 24 h resulted in a significant increase in the proportion of these cells compared with control embryos in either 6 mmol/l D-glucose or 28 mmol/l D+L-glucose. Heterogeneity in the expression of Bcl-2 was also observed at the protein level by immunocytochemistry. Exposure to 28 mmol/l D-glucose significantly increased the incidence of chromatin degradation (karyolysis) and nuclear fragmentation (karyorhexis), two nuclear markers of apoptosis in rat blastocysts. When two different antisense oligodeoxynucleotides designed to block Bcl-2 expression were added to 28 mmol/1 D-glucose, the incidence of karyolysis (but not karyorhexis) was increased compared with embryos in 28 mmol/l D-glucose alone. These data suggest that Bcl-2 is involved in the protective response against the induction of karyolysis in blastocysts on their exposure to high concentrations of D-glucose in vitro, whereas karyorhexis appears to result from the activation of an intracellular pathway that is independent of Bcl-2.

Polymeric IgA binding to the human pIgR elicits intracellular signalling, but fails to stimulate pIgR-transcytosis

The intracellular pathway of polymeric immunoglobulin receptor (pIgR) is governed by multiple signals that lead to constitutive transcytosis. In addition, in transfected polarized MDCK cells, polymeric immunoglobulin A (pIgA) binding stimulates rabbit pIgR-transcytosis, owing to phospholipase-C gamma 1 activation and increase of intracellular calcium. Transcytosis of rat pIgR across hepatocytes is similarly accelerated by pIgA injection. In contrast we show here that human Madrin-Darby Canine Kidney (pIgR)-transcytosis, in human Calu-3 and human pIgR-transfected MDCK cells, is not promoted by pIgA, as monitored by a continuous apical release of its secreted ectodomain. However, the incubation of cells expressing human or rabbit pIgR with pIgA induces a comparable IP3 production, and pIgR-transcytosis of either species is accelerated by the protein kinase C (PKC)-activator phorbol myristate acetate. Without pIgA, mimicking phospholipase-C activation by combining low concentrations of phorbol myristate acetate with ionomycin, or high concentrations of ionomycin alone, stimulates the rabbit, but not the human, pIgR transcytosis. These data suggest that the species difference in pIgA-induced pIgR-transcytosis does not stem from the defective production of second messengers, but from a different sensitivity of pIgR to intracellular calcium. Our results outline the danger of extrapolating to humans the abundant data obtained from mucosal vaccination of laboratory animals.

Mice lacking renal chloride channel, CLC-5, are a model for Dent's disease, a nephrolithiasis disorder associated with defective receptor-mediated endocytosis

Nephrolithiasis (kidney stones) affects 5-10% of adults and is most commonly associated with hypercalciuria, which may be due to monogenic renal tubular disorders. One such hypercalciuric disorder is Dent's disease, which is characterized by renal proximal tubular defects that include low molecular weight proteinuria, aminoaciduria and glycosuria, together with rickets in some patients. Dent's disease is due to inactivating mutations of the renal-specific voltage-gated chloride channel, CLC-5, which is expressed in the proximal tubule, thick ascending limb and collecting duct. The subcellular localization of CLC-5 to the proximal tubular endosomes has suggested a role in endocytosis, and to facilitate in vivo investigations of CLC-5 in Dent's disease we generated mice lacking CLC-5 by targeted gene disruption. CLC-5-deficient mice developed renal tubular defects which included low molecular weight (<70 kDa) proteinuria, generalized aminoaciduria that was more pronounced for neutral and polar amino acids, and glycosuria. They also developed hypercalciuria and renal calcium deposits and some had deformities of the spine. Furthermore, endocytosis as assessed by horseradish peroxidase uptake in the proximal tubule was severely impaired in CLC-5-deficient mice, thereby demonstrating a role for CLC-5 in endosomal uptake of low molecular weight proteins. Thus, CLC-5-deficient mice provide a model for Dent's disease and this will help in elucidating the function of this chloride channel in endocytosis and renal calcium homeostasis.

Temporal and spatial association of matrix metalloproteinases with focal endometrial breakdown and bleeding upon progestin-only contraception

The pathogenesis of irregular endometrial bleeding, the main reason for stopping contraception with progestins only, is unknown. Based on the recent reappraisal of the mechanisms of menstrual bleeding, we hypothesized that matrix metalloproteinases initiate this disorder. Volunteers upon Norplant treatment provided endometrial biopsies at the start of a bleeding episode and during nonbleeding intervals. Focal stromal breakdown, collagen fiber lysis, and collagenase-1 messenger ribonucleic acid were evidenced in most bleeding endometria, but never in the nonbleeding ones. In the breaking down areas, immunolabeling for gelatinase A was strongly increased, and that of progesterone and estrogen receptors was decreased. Explants from bleeding endometria produced high collagenase and gelatinase activities, whereas release from nonbleeding endometria was negligible. Bleeding endometria released more latent and active forms of collagenase-1 and active gelatinases A and B, but less tissue inhibitor of metalloproteinases-1, than nonbleeding endometria. Collagenase-1 release closely correlated with that of interleukin-1alpha. In contrast, N:-acetyl-beta-hexosaminidase and tissue inhibitor of metalloproteinases-2 were similarly released in both groups. Thus, endometrial bleeding occurs together with focal stromal breakdown, collagen lysis, expression and activation of several matrix metalloproteinases, and decreased production of tissue inhibitor of metalloproteinases-1. These results may lead to new pharmacological treatment of this common medical problem.

Constitutive macropinocytosis in oncogene-transformed fibroblasts depends on sequential permanent activation of phosphoinositide 3-kinase and phospholipase C

Macropinocytosis results from the closure of lamellipodia generated by membrane ruffling, thereby reflecting cortical actin dynamics. Both transformation of Rat-1 fibroblasts by v-Src or K-Ras and stable transfection for expression of dominant-positive, wild-type phosphoinositide 3-kinase (PI3K) regulatory subunit p85 alpha constitutively led to stress fiber disruption, cortical actin recruitment, extensive ruffling, and macropinosome formation, as measured by a selective acceleration of fluid-phase endocytosis. These alterations closely correlated with activation of PI3K and phosphatidylinositol-specific phospholipase C (PI-PLC), as assayed by 3-phosphoinositide synthesis in situ and in vitro and inositol 1, 4,5 trisphosphate steady-state levels, respectively; they were abolished by stable transfection of v-Src-transformed cells for dominant-negative truncated p85 alpha expression and by pharmacological inhibitors of PI3K and PI-PLC, indicating a requirement for both enzymes. Whereas PI3K activation resisted PI-PLC inhibition, PI-PLC activation was abolished by a PI3K inhibitor and dominant-negative transfection, thus placing PI-PLC downstream of PI3K. Together, these data suggest that permanent sequential activation of both PI3K and PI-PLC is necessary for the dramatic reorganization of the actin cytoskeleton in oncogene-transformed fibroblasts, resulting in constitutive ruffling and macropinocytosis.

Circulating sex hormones and endometrial stromelysin-1 (matrix metalloproteinase-3) at the start of bleeding episodes in levonorgestrel-implant users

Unpredictable endometrial bleeding is the major side-effect of levonorgestrel-releasing s.c. implants (Norplant), otherwise a method of choice for long-term contraception. The mechanisms responsible for bleeding are still unknown and no reliable treatment is available. Several matrix metalloproteinases (MMP) are expressed and activated in human endometrium only at menstruation and specific synthetic inhibitors of MMP fully prevent the tissue breakdown that occurs in menstrual-like endometrial explants. To investigate whether MMP are inappropriately expressed and activated in Norplant-treated endometria during bleeding episodes, volunteers were recruited to provide blood and endometrial biopsies at the start of bleeding episodes and during non-bleeding intervals. Whereas serum concentrations of levonorgestrel and sex hormones showed no change at bleeding, except for a slight decrease of oestradiol concentration, the expression and activation of stromelysin-1 released by explants cultured for 1 day were consistently increased at the start of bleeding episodes. Furthermore, stromelysin-1 was immunolocalized in stromal cells within breakdown areas of several bleeding endometria, but not in non-bleeding endometria. These observations suggest that the expression and activation of stromelysin-1 participate in the initiation of bleeding episodes upon Norplant contraception. New strategies in the prevention and treatment of abnormal bleeding based on MMP control should be envisaged.

The matrix metalloproteinase-1 (MMP-1) expression in the human endometrium is inversely regulated by interleukin-1 alpha and sex steroids

OBJECTIVE

To investigate the regulation of perimenstrual MMP-1 expression in human endometrium.

DESIGN

In vitro study utilizing epithelial-stromal co-cultures.

SETTING

Cell Biology Unit, International Institute of Cellular and Molecular Pathology, and Departments of Pathology and Gynecology, Saint-Luc University Clinics, Louvain University Medical School, Brussels, Belgium.

METHODS

Contact-dependent and contact-independent co-cultures were established and resulting MMP-1 gene and protein expression was analyzed by RNase protection assays and soluble-collagen assays.

RESULTS

MMP-1 expression in endometrial fibroblasts is markedly stimulated by epithelial cell-conditioned medium. This stimulation can be prevented by antibodies directed against interleukin 1 alpha (IL-1 alpha). Ovarian steroids inhibit MMP-1 production by IL-1 alpha-stimulated fibroblasts in vitro.

CONCLUSION

Taken together, our results suggest that epithelium-derived IL-1 alpha is the most important paracrine induced of MMP-1 in endometrial fibroblasts. However, IL-1 alpha-stimulated MMP-1 production in the human endometrium is effectively blocked by ovarian steroids. We believe that this mechanism responsible for the MMP-1 repression that occurs when systemic sex steroid concentrations are high and the MMP-1 production and activity during the perimenstrual phase when estrogen and progesterone concentrations are low.

Identification, purification and partial characterisation of an oligonucleotide receptor in membranes of HepG2 cells

The low and unpredictable uptake and cytosolic transfer of oligonucleotides (ODN) is a major reason for their limited benefit. Improving the ODN potential for therapy and research requires a better understanding of their receptor-mediated endocytosis. We have undertaken to identify a membrane ODN receptor on HepG2 cells by ligand blotting of cell extracts with [(125)I]ODN and by photolabelling of living cells with a [(125)I]ODN-benzophenone conjugate. A major band at 66 kDa was identified by the two methods. Its labelling was saturable and competed for by unlabelled ODN of various sequences and irrespective of the presence of a phosphodiester or phosphoro-thioate backbone. This protein remained sedimentable after carbonate extraction, indicating strong membrane association. About half of the total cell amount resisted extensive surface proteolysis, suggesting a dual localisation at the plasma membrane and cytoplasmic vesicles. The protein was purified using a biotinylated ODN-benzophenone conjugate by photocrosslinking followed by streptavidin affinity purification. A sequence obtained by Edman degradation showed no homology with known proteins. Using anti-peptide antisera, labelling by western blotting revealed at 66 kDa a band with comparable properties as found by ligand blotting. Thus, a new membrane protein acting as an ODN receptor has been demonstrated.

Role for dynamin in late endosome dynamics and trafficking of the cation-independent mannose 6-phosphate receptor

It is well established that dynamin is involved in clathrin-dependent endocytosis, but relatively little is known about possible intracellular functions of this GTPase. Using confocal imaging, we found that endogenous dynamin was associated with the plasma membrane, the trans-Golgi network, and a perinuclear cluster of cation-independent mannose 6-phosphate receptor (CI-MPR)-containing structures. By electron microscopy (EM), it was shown that these structures were late endosomes and that the endogenous dynamin was preferentially localized to tubulo-vesicular appendices on these late endosomes. Upon induction of the dominant-negative dynK44A mutant, confocal microscopy demonstrated a redistribution of the CI-MPR in mutant-expressing cells. Quantitative EM analysis of the ratio of CI-MPR to lysosome-associated membrane protein-1 in endosome profiles revealed a higher colocalization of the two markers in dynK44A-expressing cells than in control cells. Western blot analysis showed that dynK44A-expressing cells had an increased cellular procathepsin D content. Finally, EM revealed that in dynK44A-expressing cells, endosomal tubules containing CI-MPR were formed. These results are in contrast to recent reports that dynamin-2 is exclusively associated with endocytic structures at the plasma membrane. They suggest instead that endogenous dynamin also plays an important role in the molecular machinery behind the recycling of the CI-MPR from endosomes to the trans-Golgi network, and we propose that dynamin is required for the final scission of vesicles budding from endosome tubules.

Comparison of antigen contents in co-cultures by an in situ immunoradiometric assay

A fast, sensitive and reproducible in situ immunoradiometric assay has been developed to compare relative contents of cellular markers in cultures. This assay is performed directly in the multi-well plate. After methanol fixation, antigens are identified by specific primary antibodies, followed by 125I-protein A. Cell-associated radioactivity is then measured in lysates using a gamma radiation counter and expressed with respect to protein content. By this method, differences in the level of any antigen retained by fixation can be easily quantified. The convenience, dynamic range of linearity and reproducibility of this technique compare favorably with Western blotting. Originally, the assay was designed to monitor the relative abundance of glial or neuronal cells in embryonic cerebral co-cultures upon various experimental conditions, by measuring related changes in glial fibrillary acidic protein (GFAP) or microtubule-associated protein 2 (MAP-2) content. It is proposed as a method of choice to quantify the effects of culture conditions or toxic agents on a specific cell type in mixed populations.

Occurrence of an HIV-1 gp160 endoproteolytic activity in low-density vesicles and evidence for a distinct density distribution from endogenously expressed furin and PC7/LPC convertases

Human immunodeficiency virus (HIV) glycoprotein (gp) 160 processing by host cell proteinases is an essential step for viral fusion and infectivity. We have identified a rat liver subcellular fraction which specifically processes gp160 into gp120 and gp41. Using equilibration of microsomes in sucrose gradients, the gp160 cleavage activity was associated with particles equilibrating at low densities, well-separated from the endoplasmic reticulum, cis-Golgi network, Golgi stacks, lysosomes and plasma membrane. Its density distribution was compatible with light secretory vesicles derived from the trans-Golgi network (TGN) or to endosomes, but association with endosomes was not supported by free flow electrophoresis. Although furin and pro-protein convertase (PC) 7/LPC have been proposed as the major gp160 processing convertases, the rat liver microsomal gp160 processing activity was essentially resolved from furin and only partially overlapped PC7/LPC. These data suggest that proteinase(s) other than furin and PC7/LPC, presumably located in TGN-derived vesicles, may participate in the gp160 processing into gp120 and gp41.

Interleukin-1 receptor-ligand interactions modulate interstitial collagenase-1 production by human endometrial fibroblasts

The expression of interstitial collagenase-1 in the cycling human endometrium is restricted to the perimenstrual phase and is a key event for matrix degradation that initiates menstruation. In the absence of ovarian steroids, collagenase production by endometrial fibroblasts is induced by epithelial cell-derived interleukin-1alpha. Media conditioned by endometrial epithelial cells were found to contain interleukin-1alpha but not interleukin-1beta, and their capacity to induce collagenase production by endometrial fibroblasts correlated with interleukin-1alpha concentration in a saturable manner. Collagenase induction by recombinant interleukin-1alpha was severely inhibited by interleukin-1 receptor antagonist alone and abolished by its combination with soluble interleukin-1 type-II receptor. By contrast, the association of the receptor antagonist with soluble type-I receptor was less effective than each factor alone. Induction of collagenase by epithelial cell-conditioned media was severely inhibited by neutralizing interleukin-1alpha antibodies, whereas the combination of receptor antagonist with soluble type-II receptor proved less effective. We conclude that the collagenase response of endometrial fibroblasts to epithelial cell-derived interleukin-1alpha is effectively blocked in vitro by soluble members of the interleukin-1 family and can thus be modulated in vivo by these or other local factors.

Intra-renal and subcellular distribution of the human chloride channel, CLC-5, reveals a pathophysiological basis for Dent's disease

Dent's disease, which is a renal tubular disorder characterized by low molecular weight proteinuria, hypercalciuria and nephrolithiasis, is associated with inactivating mutations of the X-linked chloride channel, CLC-5. However, the manner in which a functional loss of CLC-5 leads to such diverse renal abnormalities remains to be defined. In order to elucidate this, we performed studies to determine the segmental expression of CLC-5 in the human kidney and to define its intracellular distribution. We raised and characterized antisera against human CLC-5, and identified by immunoblotting an 83 kDa band corresponding to CLC-5 in human kidney cortex and medulla. Immunohistochemistry revealed CLC-5 expression in the epithelial cells lining the proximal tubules and the thick ascending limbs of Henle's loop, and in intercalated cells of the collecting ducts. Studies of subcellular human kidney fractions established that CLC-5 distribution was associated best with that of Rab4, which is a marker of recycling early endosomes. In addition, confocal microscopy studies using the proximal tubular cell model of opossum kidney cells, which endogenously expressed CLC-5, revealed that CLC-5 co-localized with the albumin-containing endocytic vesicles that form part of the receptor-mediated endocytic pathway. Thus, CLC-5 is expressed at multiple sites in the human nephron and is likely to have a role in the receptor-mediated endocytic pathway. Furthermore, the functional loss of CLC-5 in the proximal tubules and the thick ascending limbs provides an explanation for the occurrences of low molecular weight proteinuria and hypercalciuria, respectively. These results help to elucidate further the patho-physiological basis of the renal tubular defects of Dent's disease.

A fluorescent radioiodinated oligonucleotidic photoaffinity probe for protein labeling: synthesis and photolabeling of thrombin

To study the interactions between oligonucleotides and proteins, an original photoaffinity radiolabeling probe has been synthesized. Starting with a 5'-pyridyldithio-3'-amino-oligonucleotide, the photophore benzophenone was first coupled to the 3' end, through acylation by an activated ester of benzoylbenzoic acid. A fluorescein molecule was grafted by alkylation of the free 5'-SH. This compound was finally radiolabeled with 125I using IodoBeads. The selective photolabeling of thrombin in a complex protein mixture by the radioiodinated probe validates this strategy to identify oligonucleotide-binding proteins.

Local cytokines induce differential expression of matrix metalloproteinases but not their tissue inhibitors in human endometrial fibroblasts

The endometrium is the only human tissue to undergo cyclic breakdown and regeneration. This physiological alternation renders it an advantageous system for studying tissue remodelling. Our previous observations indicate that menstrual endometrial breakdown is initiated by matrix metalloproteinases (MMPs), which are controlled overall by ovarian steroids but are also locally regulated by cytokines. We have therefore compared the effect of several endometrial cytokines on the gene expression of eight MMPs and their tissue inhibitors (TIMP)-1, -2 and -3, in primary cultures of human endometrial fibroblasts. Three categories of gene expression were identified: (a) MMP-13, -15 and -16 mRNAs were not detected despite stimulation by various cytokines; (b) MMP-2 and -14 as well as TIMP-1, -2 and -3 mRNAs were constitutively expressed but not markedly affected by the six cytokines tested; (c) mRNAs for MMP-1, -9 and -11 were selectively induced by specific cytokines: insulin-like growth factor-II, epidermal growth factor (EGF), platelet derived growth factor (PDGF)-BB and interleukin (IL)-6 stimulated MMP-11 expression; MMP-1 was induced by EGF, PDGF-BB, tumour necrosis factor (TNF)alpha and IL-1alpha, which also exerted additive effects. In contrast with MMP-1 and MMP-11 gene expression, which was sustained for 48 h, MMP-9 mRNA was quickly induced by TNFalpha, but disappeared within 12 h despite continuing stimulation. These results show that several cytokines are able to induce the selective expression of MMPs in cultured human endometrial fibroblasts and are thus good candidates for involvement in local triggering of menstrual tissue breakdown.

Furin and proprotein convertase 7 (PC7)/lymphoma PC endogenously expressed in rat liver can be resolved into distinct post-Golgi compartments

The intracellular compartmentalization in rat liver of the membrane-associated convertases furin and proprotein convertase 7 (PC7)/lymphoma PC (LPC) was investigated by analytical subcellular fractionation. In control animals, both enzymes were found to localize in fractions depleted of endoplasmic reticulum, cis-Golgi and lysosomal markers, but to co-distribute with the Golgi marker galactosyltransferase and the trans-Golgi network (TGN) marker TGN38. After overloading Golgi-derived vesicles with very-low-density lipoproteins (VLDL) by feeding rats with ethanol, the distribution of PC7/LPC was shifted markedly towards lower densities, in contrast with those of furin and the TGN marker. This provides support for the TGN localization of endogenously expressed furin and indicates that, at steady state, a considerable proportion of PC7/LPC may be associated with vesicles derived from the TGN.

In contrast to cocaine, prenatal exposure to methadone does not produce detectable alterations in the developing mouse brain

Whereas prenatal cocaine exposure dramatically alters brain development, the safety of methadone in detoxification programs for heroin-addicted pregnant women is uncertain. This paper compares the effects of exposure to methadone or to cocaine in utero on a model system, the developing mouse brain. Methadone (40 mg/kg/day, i.e., 40-fold detoxification dosage) or cocaine (30 mg/kg/day, as in severe addiction) was injected into mice from day 8 to day 18 of gestation. Pre- and postnatal brain development was analyzed at the anatomical and microscopical levels, including by immunostaining of post-mitotic cells, neurites, and astrocytes. Prenatal mice exposure to cocaine caused neuronal misaddressing among neocortical layers, abnormal gliogenesis, and defective neuritic outgrowth and bundling. Methadone produced small-for-date offspring with normal brain development. In conclusion, supratherapeutic methadone doses induce intrauterine growth retardation in mice, but spare brain cytoarchitecture. In contrast, cocaine produces less growth retardation, but severely disturbs neocortical layering.

Regulation of macropinocytosis in v-Src-transformed fibroblasts: cyclic AMP selectively promotes regurgitation of macropinosomes

Stable transformation of Rat-1 fibroblasts by the v-Src oncoprotein results into the constitutive formation of macropinosomes. In the present report, we found that macropinosomes do not fuse with transferrin-containing endosomes and investigated the effects of cyclic AMP as a regulator of macropinocytosis in this cell system. The permeant analogs dibutyryl cyclic AMP and 8-bromo-cyclic AMP, as well as the pharmacological activator of adenylate cyclase forskolin, similarly decreased by about 35% the net endocytic accumulation of the fluid-phase tracer horseradish peroxidase at intervals &gt;5 minutes in v-Src-transformed cells but not in the non-transformed parental Rat-1 cell line. However, and in contrast to the phospholipase C inhibitor 2-nitro-4-carboxyphenyl-N, N-diphenylcarbamate or the phosphatidylinositol 3-kinase inhibitor wortmannin, dibutyryl cyclic AMP neither returned the peroxidase accumulation rate of v-Src-transformed cells to that of parental Rat-1/control cells, nor prevented macropinosome formation, as shown by confocal microscopy. Detailed analysis of the kinetics of tracer entry and efflux in transformed cells revealed that dibutyryl cyclic AMP inhibited peroxidase accumulation only after intervals &gt;5 minutes, due to accelerated peroxidase regurgitation, but did not alter the rate of transferrin recycling. Taken together, these data indicate that, in v-Src-transformed fibroblasts, macropinocytosis and micropinocytosis serve different pathways and that cyclic AMP affects neither micropinocytosis nor the formation of macropinosomes, but selectively promotes regurgitation therefrom.

Selective direct toxicity of cocaine on fetal mouse neurons. Teratogenic implications of neurite and apoptotic neuronal loss

This chapter reviews epidemiologic clinical surveys and experimental animal studies, indicating that cocaine may induce severe teratogenic effects on the developing brain. Evidence for direct toxic effects is next presented. Using cocultures of embryonic brain cells, we demonstrate that cocaine selectively affects neuronal cells, first causing a dramatic reduction in the number and length of neurites, then extensive neuronal death by apoptosis. By contrast, cocaine affected neither the abundance of astroglial cells nor their glial fibrillary acidic protein content. These effects are not due to cocaine metabolites. The contributions of indirect and direct effects that could account for cocaine neuroteratogenicity are finally discussed.

Retrieved constituents of large dense-cored vesicles and synaptic vesicles intermix in stimulation-induced early endosomes of noradrenergic neurons

Two storage compartments in cultured noradrenergic neurons derived from the superior cervical ganglion from fetal pig have been defined using sucrose density gradient centrifugation and electron microscopy: (1) large dense-cored vesicles (LDV) contain noradrenaline and dopamine-beta-hydroxylase (DbetaH); (2) small electron-lucent vesicles contain acetylcholine and p38 and represent the noradrenergic small synaptic vesicles (SSV); no small dense-cored vesicles (SDV) could be detected. Our results demonstrate that internalized LDV membrane constituents are retrieved into early endosomes, as shown by the colocalization of retrieved DbetaH with the endosomal markers Rab5 and HRP in sucrose density gradients and on confocal microscopical images. Recycling of the SSV membranes via an endosomal intermediate is also confirmed in noradrenergic neurons. Finally, colocalization of retrieved DbetaH and retrieved p38 in stimulated neurons indicates that the two sets of constituents intermix. These data provide the first experimental evidence for a common early endosome in which SSV and LDV membrane constituents are internalized after exocytosis and imply that endosomal sorting is an important process for the generation of different secretory vesicles in the noradrenergic nerve terminal.

In vivo stimulation of polymeric Ig receptor transcytosis by circulating polymeric IgA in rat liver

Binding of human polymeric IgA ligand to its epithelial cell polymeric Ig receptor, pIgR, has been shown to stimulate pIgR apical transcytosis in an in vitro system, based on polarized confluent MDCK cells expressing rabbit pIgR. The present study aimed at testing whether such a stimulation also occurs in vivo. Transcytosis of pIgR was monitored by rat liver output of total secretory component (SC) into bile, measured by radial immunodiffusion as the sum of free SC and pIgA-bound SC. Whereas in the perfused rat liver system addition of pIgA to the perfusate showed no effect, i.v. injection of human and rat pIgA, but not of monomeric IgA nor PBS, in living rats significantly increased total bile SC output for more than 1 h. Furthermore, depletion of the normal pIgA level circulating in the liver before injecting more pIgA was not required to show the stimulation. Our data thus strongly suggest that stimulation of liver pIgR transcytosis by pIgA ligand binding is physiologically relevant, helping to quickly adjust pIgA transport into bile to increase circulating pIgA levels, without need for increased SC/pIgR synthesis.

Paracrine stimulation of interstitial collagenase (MMP-1) in the human endometrium by interleukin 1alpha and its dual block by ovarian steroids

In the cycling human endometrium, the expression of interstitial collagenase (MMP-1) and of several related matrix metalloproteinases (MMPs) follows the late-secretory fall in sex steroid plasma concentrations and is thought to be a critical step leading to menstruation. The rapid and extensive lysis of interstitial matrix that precedes menstrual shedding requires a strict control of these proteinases. However, the mechanism by which ovarian steroids regulate endometrial MMPs remains unclear. We report here that, in the absence of ovarian steroids, MMP-1 expression in endometrial fibroblasts is markedly stimulated by medium conditioned by endometrial epithelial cells. This stimulation can be prevented by antibodies directed against interleukin 1alpha (IL-1alpha) but not against several other cytokines. Ovarian steroids inhibit the release of IL-1alpha and repress MMP-1 production by IL-1alpha-stimulated fibroblasts. In short-term cultures of endometrial explants obtained throughout the menstrual cycle, the release of both IL-1alpha and MMP-1 is essentially limited to the perimenstrual phase. We conclude that epithelium-derived IL-1alpha is the key paracrine inducer of MMP-1 in endometrial fibroblasts. However, MMP-1 production in the human endometrium is ultimately blocked by ovarian steroids, which act both upstream and downstream of IL-1alpha, thereby exerting an effective control via a "double-block" mechanism.

Expression of interstitial collagenase (matrix metalloproteinase-1) is related to the activity of human endometriotic lesions

OBJECTIVE

To determine whether interstitial collagenase (matrix metalloproteinase-1), known to play a pivotal role in the initiation of menstruation, contributes to the pathogenesis of endometriosis.

DESIGN

Serial sections of peritoneal red and black endometriotic lesions, ovarian endometriotic cysts, and rectovaginal adenomyotic nodules were analyzed by in situ hybridization for the expression of matrix metalloproteinase-1 by silver staining for the integrity of the fibrillar extracellular matrix and by immunolabeling for the abundance of sex steroid receptors.

SETTING

Academic hospital and research laboratory.

PATIENT(S)

Premenopausal women undergoing laparoscopy for endometriosis.

INTERVENTION(S)

Biopsy of endometriotic lesions, combined with endometrium whenever possible.

MAIN OUTCOME MEASURE(S)

Expression of matrix metalloproteinase-1 messenger RNA (mRNA).

RESULT(S)

Matrix metalloproteinase-1 mRNA was expressed focally in red peritoneal and ovarian endometriosis irrespective of the phase of the menstrual cycle but was not detectable in black peritoneal and rectovaginal lesions. Foci of matrix metalloproteinase-1 expression closely correlated with matrix breakdown and with the absence of P receptors in adjacent epithelial cells.

CONCLUSION(S)

Correlation of matrix metalloproteinase-1 expression with activity of endometriotic tissue suggests its involvement in tissue remodeling and bleeding, and possibly in the secondary shedding and reimplantation of endometriotic lesions.

Three unrelated perturbations similarly uncouple fluid, bulk-membrane, and receptor endosomal flow in rat fetal fibroblasts

We have compared the effects of three perturbations (treatment with 2 microM monensin, potassium depletion, and incubation in 0.35 M NaCl) on recycling of internalized fluid-phase, bulk-membrane, and receptor-mediated tracers in rat fetal fibroblasts. Monensin accelerated 2-fold the regurgitation of the fluid-phase tracer horseradish peroxidase (HRP), as previously described in these cells after potassium depletion or upon incubation in hypertonic medium (1), and all treatments severely inhibited transfer of HRP from endosomes to lysosomes. In comparison, recycling of (6-[N-(7-nitro-2,1,3-benzoxadiazol-4-yl)amino]hexanoyl glucosylsphingosine (C6-NBD-GlcCer), a fluorescent lipid used as a bulk-membrane probe, was not significantly affected while transferrin recycling was slowed down 2-fold. The striking similarities of these unrelated perturbations in their distinct effects on fluid, bulk-membrane, and receptor addressing point to common targets regulating these mechanisms.

Cocaine induces apoptosis in cortical neurons of fetal mice

Exposure of fetal mouse brain cocultures to cocaine results selectively in the loss of neurites followed by neuronal death. By using enriched neuronal cultures, we here demonstrate that disappearance of neurons, when cultured with cocaine, is caused by apoptosis, based on (1) characteristic morphology of apoptotic nuclei at the level of neurons but not of glial cells by optic microscopy, and on total cell pellets by electron microscopy; (2) fragmentation of total DNA with a typical "ladder" pattern on agarose gels; (3) extensive in situ DNA fragmentation labeling (TUNEL method); and (4) prevention of cell loss by cycloheximide. The major metabolites of cocaine have no detectable effects on neurons, indicating that apoptosis is due to cocaine itself. Inappropriate neuronal apoptosis in cocaine-exposed fetal brain could perturb the neurodevelopmental program and contribute to the quantitative neuronal defects that are too frequently reported in the offspring of cocaine-abusing pregnant women.

Intracellular routing and inhibitory activity of oligonucleopeptides containing a KDEL motif

On internalization, oligonucleotides (ODN) remain mostly sequestered in endocytic compartments. To increase their delivery into the cytosol and/or nucleus, which contain their targets, we attempted to guide them into compartments containing the KDEL receptor. Antisense ODN, phosphodiester protected at both ends, that are complementary to the AUG initiation site of gagHIV-1 mRNA (odn) were linked to a peptide ending with the Lys-Asp-Glu-Leu (KDEL) motif in a carboxyl-terminal position (odn-p-KDEL) or with the Lys-Asp-Glu-Ala (odn-p-KDEA) as a control. The effect of odn substitution with a peptide was examined with regard to its accumulation, subcellular location, and activity in HepG2 cells. Although odn-p-KDEL was internalized 4-fold less than the corresponding peptide-free odn, it was 5-fold more efficient in inhibiting gagHIV-1 gene expression in HepG2 cells. The internalization of odn-p-KDEA was as low as that of odn-p-KDEL, but its biological activity was lower, close to that of the peptide-free odn. On endocytosis at 37 degrees, both conjugates as well as the peptide-free odn were found in a neutral environment. However, the substitution of an odn with a KDEL motif altered its intracellular trafficking; most of the odn-p-KDEL was found in the endoplasmic reticulum and in the intermediate compartment as identified by colabeling with either anti-ERGIC-53 or anti-KDEL receptor antibodies. Conversely, odn-p-KDEA and peptide-free odn were localized in vesicular compartments not labeled with these antibodies. In addition, pulse-chase experiments showed that odn-p-KDEL and odn-p-KDEA had a lower efflux than peptide-free odn. Therefore, the large increase in efficiency was due to the KDEL motif.

In situ assay of acid sphingomyelinase and ceramidase based on LDL-mediated lysosomal targeting of ceramide-labeled sphingomyelin

The activity of lysosomal sphingolipid hydrolases is usually estimated in vitro from complex assays on cell lysates under artificial conditions including the presence of detergents and substrate analogs. However, the measure of their effective activity in situ (i.e., in living cells) is necessary to understand the normal intracellular sphingolipid turnover. Moreover, their determination in cells from patients with genetic enzyme deficiencies represents a key parameter of the pathophysiology of sphingolipid storage disorders. In this report, we have developed a procedure for estimating the effective activity of lysosomal sphingomyelinase and ceramidase in situ. This procedure is based on the selective targeting to lysosomes of a natural substrate under physiological conditions of substrate influx. Epstein-Barr virus-transformed human lymphoid cells and human skin fibroblasts were incubated with purified human low density lipoproteins (LDL) containing [3H]ceramide-labeled sphingomyelin. Data demonstrate that this substrate is internalized through the apolipoprotein B/E receptor pathway and targeted to lysosomes. Lysosomal localization of the incorporated substrate was evidenced by ultrastructural autoradiography and subcellular fractionation as well as by metabolic studies in mutant cells. Short-term pulse-chase experiments with LDL-associated [3H]ceramide-labeled sphingomyelin allowed us to determine the effective activity of lysosomal sphingomyelinase and ceramidase in normal cells. Initial velocities of sphingomyelin and ceramide degradation were, respectively, estimated at 0.66 and 1.14 nmol.h-1.mg cell protein-1 in lymphoid cells, and 5.4 and 3 nmol.h-1.mg cell protein-1 in skin fibroblasts. The advantages and applications of these in situ studies are discussed.

Interaction of the macrolide azithromycin with phospholipids. I. Inhibition of lysosomal phospholipase A1 activity

Azithromycin, the first clinically developed dicationic macrolide antibiotic, displays an exceptional accumulation in lysosomes of cultured cells. In fibroblasts incubated with 50 mg/l (66.6 microM), it induces a distinct phospholipidosis as evidenced by biochemical and ultrastructural criteria, which strikingly resembles alterations described previously with gentamicin, a pentacationic aminoglycoside antibiotic which inhibits the lysosomal catabolism of phospholipids. We show that both drugs inhibit, in an equimolar manner, the activity of phospholipase A1 (assayed for phosphatidylcholine, included in negatively charged liposomes), in a way consistent with the model of 'charge neutralization' proposed already for gentamicin (Mingeot-Leclercq et al., 1988, Biochem. Pharmacol. 37, 591). Both drugs bind to negatively charged liposomes. Yet, in spite of this binding, azithromycin does not induce aggregation or fusion of negatively charged vesicles, under conditions in which gentamicin (or spermine, a fully hydrophilic polycation) causes a massive aggregation, and bis(beta-diethylaminoethylether)hexestrol (a dicationic amphiphile) causes fusion. The molecular interactions of azithromycin with acidic phospholipids are further examined in a companion paper.

Regulation and restricted expression of interstitial collagenase suggest a pivotal role in the initiation of menstruation

Collagenases are the only mammalian enzymes able to cleave, at neutral pH, the triple helical domain of fibrillar collagens, major constituents of the extracellular matrix of the endometrium. Interstitial collagenase is expressed, secreted and activated in human endometrium only just before and during menstruation. The expression of interstitial collagenase is restricted to the areas of the functional layer of the endometrium which are breaking down and to fragments which have been shed. In endometrial explants, combined sex steroids tightly control the expression, secretion and activation of interstitial collagenase, as well as the preservation of the extracellular matrix. These observations imply a pivotal role for this proteinase in the initiation of menstruation.

Menstrual breakdown of human endometrium can be mimicked in vitro and is selectively and reversibly blocked by inhibitors of matrix metalloproteinases

The mechanisms underlying the menstrual lysis leading to shedding of the human endometrium and its accompanying bleeding are still largely unknown. In particular, whether breakdown of the endometrial fibrillar extra-cellular matrix that precedes bleeding depends on aspartic-, cysteine-, serine-, or metalloproteinases remains unclear. In the present study, menstrual regression of the human endometrium was mimicked in organ culture. Whereas sex steroids could preserve tissue integrity only in nonperimenstrual explants, matrix breakdown upon sex steroid deprivation was completely and reversibly inhibited at all stages of the menstrual cycle by specific inhibitors of matrix metalloproteinases, but not by inhibitors of the other classes of proteinases. Matrix metalloproteinases are thus identified as the key class of proteinases involved in the initiation of menstruation.

Uptake of recombinant myeloperoxidase, free or fused to Fc gamma, by macrophages enhances killing activity toward micro-organisms

A chimeric antibody-like molecule consisting of the human myeloperoxidase (rMPO) fused to the second and third constant-sequence (CH2 and CH3) Fc domains of human immunoglobulin G-1 has been constructed and expressed in Chinese hamster ovary (CHO) cells. This fusion molecule was designed to combine the binding specificity of Fc with the antimicrobial properties of rMPO. The rMPO-Fc fusion dimerized through the Fc fragment, while retaining the enzymatic activity of rMPO. The chimeric molecule was glycosylated and most of the propeptide was eliminated, indicating a better processing of the polypeptide than for rMPO alone. Both rMPO and rMPO-Fc bound to and were internalized by macrophage-like U937 promonocytic cells. Unexpectedly, the chimera failed to bind to the Fc receptor but interacted with a higher affinity than rMPO with the same binding sites. The presence of the Fc fragment in the chimera, in addition, did not extend the plasma half-life of the fusion protein. In vitro, rMPO-Fc exhibited a stronger killing effect than rMPO toward Candida albicans in the presence of either H202 alone or human macrophages. In vivo, rMPO-Fc similarly conferred a better protection than rMPO in a lethal model of murine cowdriosis. These properties could be related to the Fc-induced dimerization of the fusion protein in CHO cells.

Focal cellular origin and regulation of interstitial collagenase (matrix metalloproteinase-1) are related to menstrual breakdown in the human endometrium

Recent studies suggest that interstitial collagenase (MMP-1) is an essential enzyme in the early events leading to menstruation. This study analyses its cellular origin, regulation and relation to extracellular matrix breakdown in the human endometrium, both in cultured and non-cultured samples. The source of MMP-1 was identified by in situ hybridization and by immunohistochemistry on serial sections. This was compared with the immunolocalization of other MMPs, steroid receptors, macrophages, and laminin. In non-cultured endometrium, MMP-1 was only expressed during the perimenstrual period. It was either restricted to superficial foci of stromal cells or extended towards the entire functional layer. MMP-1 expression remarkably correlated with matrix breakdown, as assessed by silver staining, and was prominent at the periphery of shedding fragments and along some arterioles. In cultured non-menstrual explants, MMP-1 expression was induced within two days after deprivation of sex steroids. Both in cultured and non-cultured samples, progesterone receptors were not detectable in epithelial cells at foci of MMP-1 expression. The same stromal cells could synthesize MMP-1, MMP-2 (gelatinase A) and MMP-3 (stromelysin-1), as well as laminin, and did not correspond to macrophages. In conclusion, MMP-1 is focally expressed in stromal cells of the functional layer of the endometrium, when and where steroid receptors disappear, and especially where tissue breakdown is prominent. These observations point to an essential role for MMP-1 in the early stages of menstruation.

v-Src induces constitutive macropinocytosis in rat fibroblasts

The role of v-Src as regulator of fluid-phase pinocytosis was investigated in Rat-1 cells expressing a stable (Rat-1/BB16) or a thermosensitive (Rat-1/tsLA29) v-Src protein. In the second cell line, this protein is inactive when cells are cultured at 40 degrees C but recovers its tyrosine kinase activity upon transfer to 34 degrees C, resulting into a transformed phenotype. The rate of fluid-phase pinocytosis of the tracer horseradish peroxidase was 2-fold higher in v-Src-transformed fibroblasts (Rat-1/BB16, Rat-1/tsLA29 cultured at 34 degrees C) as compared to non-transformed cells (Rat-1, Rat-1/tsLA29 kept at 40 degrees C). In contrast, receptor-mediated endocytosis of transferrin was poorly affected, suggesting that structures distinct from clathrin-coated pits are involved in pinocytosis stimulation. By light and electron microscopy, transformed cells frequently contained large peroxidase-labeled pinocytic vesicles located near to membrane ruffles, demonstrating that stimulation of pinocytosis corresponds to induction of constitutive macropinocytosis. Stimulation of pinocytosis occurred more than 8 hours after transfer to the permissive temperature, whereas transfer to the non-permissive temperature partially reversed the stimulation within 2 hours. Protein synthesis inhibition for 6 hours abrogated pinocytosis stimulation in transformed cells, indicating that constitutive macropinocytosis induced by v-Src depends on continuous synthesis of a short-lived regulatory machinery.

Mechanism of the thesaurismosis and altered lysosomal dynamics induced by poly-D-glutamic acid in kidney proximal tubular cells

In the companion paper, we report that a single injection of poly-D-glutamic acid causes an acute lysosomal storage condition and apparently impairs the lysosomal fission dynamics. The present paper addresses the mechanisms of these two alterations using a combination of in vivo and in vitro biochemical approaches. After a single intravenous injection, 14C-poly-D-glutamic acid was rapidly cleared from the plasma and appeared in the urine. Yet, a small but sizable fraction of the injected polymer was taken up by the kidney cortex through a saturable process (Kuptake, 150 mg/kg body wt; uptakemax 96 micrograms/g cortex). Analytical subcellular fractionation of cortex homogenates demonstrated that at initial stages, the 14C label was predominantly associated with subcellular particles of intermediate size and low equilibrium density, and was therefore slowly transferred to larger particles equilibrating at high density, then codistributing with the lysosomal hydrolases. At a concentration of 10 mg/ml (equivalent to its estimated concentration in lysosomes), poly-D-glutamic acid formed micronic aggregates ( > or = 10 microns) when brought to solution at pH < or = 6 in relation to its decreased ionization (pKa of lateral chains approximately equal to 4.25). Finally, 1 day after the injection of poly-D-glutamic acid, the activities of several lysosomal enzymes (hexosaminidase, cathepsin B, acid sphingomyelinase, and sulfatase B), but not of all of them (eg, acid phosphatase), were increased in the kidney cortex. We propose that poly-D-glutamic acid reaches lysosomes by adsorptive endocytosis and becomes concentrated within these organelles because its withstands hydrolysis until it forms aggregates or precipitates, causing a decrease in the fluidity or the deformability ("gelling") of the lysosomal matrix. This should alter the dynamics of intercommunication of these organelles by impairing their fission without a proportionate effect on their fusion properties. In addition, the data suggest that the presence of poly-D-glutamic acid directly or indirectly slows down the degradation of several lysosomal enzymes.

Poly-D-glutamic acid induces an acute lysosomal thesaurismosis of proximal tubules and a marked proliferation of interstitium in rat kidney

Renal damage caused by polycationic peptides is well documented, but renal damage caused by polyanionic peptides is not. During our attempts to inhibit the nephrotoxicity of aminoglycoside antibiotics by polyanionic peptides, we discovered that poly-D-glutamic acid (molecular weight, 20 kd; 250 mg/kg/day subcutaneously for 1 to 4 days) produces an acute thesaurismosis in the proximal tubular cells associated with a marked proliferation of peritubular interstitial cells in rat kidney. Thesaurismotic bodies were easily visualized by light microscopy at the basal pole of proximal tubular cells with the cationic stain Giemsa. By electron microscopy, these bodies appeared membrane-limited, frequently distorted, filled with heterogeneous granular material, accessible to injected peroxidase (a tracer of the endocytic pathway), and generally stainable for the lysosomal enzyme arylsulfatase. Specimens obtained 3 hours after injection of poly-D-glutamic acid and horseradish peroxidase suggested an impairment of endosome and/or lysosome fission, but not fusion. By histoautoradiographic examination after 3H-thymidine incorporation, global labeling indices of cortical cells were increased 11- to 18-fold in poly-D-glutamic acid-treated rats as compared with controls, with > 80% of labeled cells localized in the interstitium. Distal tubular and glomerular cells also showed a moderate proliferation, but proximal tubular cells showed no significant necrosis or proliferation. Although tubular thesaurismosis persisted, interstitial cell proliferation resolved within 7 days after cessation of treatment. We suggest that poly-D-glutamic acid is a convenient tool to induce a rapid and sustained lysosomal storage disorder. It could also help clarify the relationship between insults to tubular cells and proliferation of peritubular cells, two features frequently associated in tubulointerstitial disorders. The mechanism of the thesaurismosis and of the interference with the dynamics of fusion-fission of the endocytic apparatus are addressed in the companion paper.

An M(r) 145,000 low-density lipoprotein (LDL)-binding protein is conserved throughout the Kinetoplastida order

In view of the importance of the low-density lipoprotein (LDL)-receptor in Trypanosoma brucei, we have examined whether other bloodstream trypanosomes of medical and veterinary importance (T.b. rhodesiense, T. equiperdum, T. vivax, T. congolense), but also related parasites developing in mammalian (Leishmania donovani) and non-mammalian hosts (Crithidia luciliae and Phytomonas sp. isolated from Euphorbia), would possess an LDL-receptor of their own. (1) All these parasites specifically accumulate human 125I-LDL with a relatively 2.5-fold higher rate for bloodstream trypanosomes. (2) A mixture of monoclonal antibodies raised against T.b. brucei LDL-receptor inhibit binding of LDL to all species but with different efficiency. (3) A single glycoprotein of similar M(r) (gp145) is isolated by LDL-affinity chromatography from all the above species, as well as from both human serum-resistant and sensitive strain of T.b. rhodesiense, and from the bodonid member of the Kinetoplastida Trypanoplasma borelli. (4) Several control experiments including 35S-metabolic labeling of procyclic T.b. brucei and of C. luciliae followed by LDL-affinity chromatography or immunoprecipitation demonstrate that gp145 is indeed synthesised by the parasites and is not a contaminant of the experimental system. (5) In immunoblots and ELISA, these gp145 cross-react with the polyclonal and monoclonal antibodies raised against the LDL-receptor of T.b. brucei, the highest degree of cross-reactivity being found among the members of the Trypanozoon subgroup. (6) Finally, immunisation of mice with the purified LDL-receptor from one strain of T.b. brucei is not sufficient to confer durable protection against another strain of this parasite.

Quantitative analysis of clustering on biological membranes: methodology and application to ligand-induced asialoglycoprotein receptor redistribution on rat hepatocytes

Ligand-induced receptor clustering is the first step in receptor mediated endocytosis of asialoglycoproteins by rat hepatocytes. This well-characterized receptor was used as a model system to set up a general method for the quantitative analysis and the visualization of molecular clustering on surface replicas, using a two-step approach. In the first step, aiming at the quantitation of clustering, gold-labeled asialoglycoprotein receptors on the cell surface were assumed to reflect two populations, one of clustered and one of not-clustered receptors. The experimental distribution of nearest neighbor distances of labeled receptors was adjusted by least square fitting to the sum of two functions, each corresponding to the theoretical nearest neighbor distance distribution of randomly distributed points, corresponding to non-clustered and clustered particle concentrations, respectively. The resolution of the experimental nearest neighbor distribution into these two components yielded an objective estimate of the number of labeled receptors in clusters and of the total surface of clusters. The second step, aiming at the visualization of clusters, rested on the fact that the distance of a point to its neighbors is shorter in a cluster than outside the cluster. Accordingly, each particle was ordered according to the sum of the distances to its nearest neighbors. Clustered particles with the lowest cumulative distances were extracted, in proportion of the extent of clustering determined in the first step, and displayed on the computer screen. This translated the two components into the two corresponding populations of identified particles. This method demonstrated that, if rat hepatocytes were incubated at 4 degrees C with either asialofetuin-gold complexes before fixation, or with asialofetuin prior to fixation and immunogold labeling of the ASGP-R, up to 65% of the receptors became clustered on the dorsal cell surface in areas where receptors could be concentrated up to 20-fold, as compared with randomly distributed molecules. In ultrathin sections, clusters essentially corresponded to clathrin-coated pits. In principle, this method is generic and can be applied to other biological systems, especially when statistical analysis is needed for studying the dynamics of the clustering process.

Conversion of angiotensin II into active fragments by an endosomal pathway in bovine adrenal medullary cells in primary culture

We previously demonstrated that angiotensin II (AII) is internalized in primary cultures of bovine adrenal medullary cells by receptor-mediated endocytosis. In the present work, we followed internalized AII in these cells by means of confocal laser scanning microscopy combined with analytical subcellular fractionation techniques and compared its fate with that of transferrin and horseradish peroxidase. The integrity of [125I]AII was investigated by chromatography. With pulse-chase experiments, internalized AII could only be detected in endosomes using either fluorescence microscopy or fractionation studies. With chase, most of the radioactivity initially associated with the cells was rapidly released into the medium, as converted fragments (> 60%), essentially as AIV (80% of the fragments). Fragments efficiently bound to bovine adrenal medullary and cortical cells, a binding that was specifically displaced by AIV > AIII = AII. These results indicate that AII is taken up in bovine adrenal medullary cells and can be rapidly converted in the endosomal pathway into fragments that bind specifically to putative angiotensin receptors. These fragments are presumably biologically active and could act on either the chromaffin cell itself (autocrine) or the cortical cells (paracrine).