Cdc25A phosphatase suppresses apoptosis induced by serum deprivation

The phosphatase Cdc25A was shown to be a target of the transcription factor c-Myc. Myc-induced apoptosis appeared dependent on Cdc25A expression and Cdc25A over-expression could substitute for Myc-triggered apoptosis. These findings suggested that an important downstream component of Myc-mediated apoptosis was identified. However and in contrast, we recently reported that during TNFalpha-induced apoptosis, which required c-Myc function, Cdc25A was down-regulated in a human carcinoma cell line. We now provide evidence that Cdc25A rendered the non-transformed rat embryonic cell line 423 refractory to apoptosis, which was induced by serum deprivation and in absence of detectable c-myc levels. The survival promoting activity of cdc25A was abolished upon infection of cells with a full-length cdc25A antisense construct. To identify the signaling proteins mediating the survival function of the phosphatase, cdc25A- and akt- over-expressing pooled clones were exposed to selected chemicals, which inhibit or activate key proteins in signaling pathways. Inhibition of apoptosis by SU4984, NF023 and Rapamycin placed Cdc25A and Akt function downstream of FGF.R, PDGF.R, and compensated G-protein- and PP2A- activity. Interestingly, upon treatment with LY-294002, cdc25A- and akt- over-expressing clones exhibited similar apoptotic patterns as control cells, which indicates that neither Akt- nor Cdc25A-mediated survival functions are dependent on PI.3 kinase activity in rat 423 cells. In cdc25A-overexpressing cells increased levels of serine 473 phosphorylated Akt were found, which co-precipitated with Cdc25A and Raf1. Since activation of proteins requires dephosphorylation of particular residues in addition to site-specific phosphorylation, the anti-apoptotic effect of Cdc25A might derive from its participation in a multimeric protein complex with phosphoAkt and Raf1, two prominent components of survival pathways.

Activation of caspases and induction of apoptosis by novel ribonucleotide reductase inhibitors amidox and didox

OBJECTIVE

Amidox and didox are two polyhydroxy-substituted benzohydroxamic acid derivatives that belong to a new class of ribonucleotide reductase (RR) inhibitors. RR is the rate-limiting enzyme for de novo deoxyribonucleotide synthesis, and its activity is significantly increased in tumor cells in proportion to the proliferation rate. Therefore, RR is a target for antitumor therapy.

MATERIALS AND METHODS

HL-60 and K562 leukemia cells were treated with increasing doses of amidox and didox. Thereafter, the mode of cytotoxic drug action was determined by Hoechst 33258/propidium iodide (HO/PI) double staining, annexin binding, DNA fragmentation, and caspase activation. This was correlated to the decrease in dNTP levels. Staining with HO/PI and binding of fluorescein isothiocyanate-conjugated annexin V to externalized phosphatidylserine were used to quantify apoptosis.

RESULTS

Low doses of amidox or didox resulted in an increase of apoptotic HL-60 cells within 48 hours. Higher doses (50 microM amidox or 250 microM didox) led to rapid induction of apoptosis, which could be detected as early as 4 hours after treatment. After 48 hours with these concentrations, almost 100% of the HL-60 cells died by apoptosis without an increase in necrosis. K562 cells were found to be resistant to amidox but not to didox. In HL-60 cells, upstream caspase 8 is processed in response to didox, whereas caspases 8 and 9 are processed upon amidox treatment. Didox-induced apoptosis, but not amidox-induced apoptosis, can be correlated with the decrease in dNTP levels. The results suggests that amidox induces several apoptosis mechanisms in HL-60 cells. In contrast, only caspase 9 is activated by didox in K562 cells, and because amidox hardly induces apoptosis in this cell line, no caspase cleavage is observed.

CONCLUSIONS

Didox triggers distinct apoptosis pathways in HL-60 and K562 cells.

The ribonucleotide reductase inhibitor trimidox induces c-myc and apoptosis of human ovarian carcinoma cells

Trimidox (3,4,5-trihydroxybenzohydroxamidoxime), a recently synthesized inhibitor of ribonucleotide reductase (RR), was shown to exert anti-proliferative activities in HL-60 and K562 human leukemia cell lines and to prolong the life span of mice inoculated with L1210 mouse leukemia cells. Here we test whether trimidox also exhibits anti-neoplastic properties in ovarian carcinoma cells. Since the mode of action of trimidox on cell fate has not been investigated so far, we addressed this unresolved item and find that this polyhydroxybenzoic acid derivative induces apoptosis of N.1 human ovarian carcinoma cells when tested in growth factor deprived medium. Utilizing an improved analysis, based on Hoechst 33258/propidium iodide double staining, apoptosis is quantified and discriminated from necrosis. Trimidox induces c-myc expression, which is indispensible for apoptosis of N.1 cells, and expression of plasminogen activator/urokinase type (upa), which supports the apoptotic process under more physiological conditions. Surprisingly, trimidox does not block dNTP synthesis in N.1 cells at the concentrations tested and, therefore, trimidox induces apoptosis independent of RR-inhibition. Like TNFalpha or benzamide riboside, which are also inducers of apoptosis of N.1 cells, trimidox also down-regulates the G1 cell cycle phosphatase cdc25A, whereas cyclin D1 becomes up-regulated. This report shows that trimidox destroys human ovarian carcinoma cells by inducing them to undergo apoptosis as well as corroborating previous investigations which demonstrated that apoptosis of these cells depends on c-myc over-expression when survival factors are withdrawn.

Distributed and partially separate pools of neurons are correlated with two different components of the gill-withdrawal reflex in Aplysia

We compared the spike activity of individual neurons in the Aplysia abdominal ganglion with the movement of the gill during the gill-withdrawal reflex. We discriminated four populations that collectively encompass approximately half of the active neurons in the ganglion: (1) second-order sensory neurons that respond to the onset and offset of stimulation of the gill and are active before the movement starts; (2) neurons whose activity is correlated with the position of the gill and typically have a tonic output during gill withdrawal; (3) neurons whose activity is correlated with the velocity of the movement and typically fire in a phasic manner; and (4) neurons whose activity is correlated with both position and velocity. A reliable prediction of the position of the gill is achieved only with the combined output of 15-20 neurons, whereas a reliable prediction of the velocity depends on the combined output of 40 or more cells.

Leukocyte and endothelial activation in a laboratory model of extracorporeal membrane oxygenation (ECMO)

An inflammatory response and a capillary leak syndrome frequently develop during the treatment of neonatal respiratory failure by extracorporeal membrane oxygenation (ECMO). The present study was performed to investigate leukocyte activation and endothelial cell dysfunction that are associated with prolonged contact of blood components with synthetic surfaces. Laboratory ECMO was performed with fresh human blood at 37 degrees C for 8 h (n = 6). Leukocyte activation was measured by L-selectin (CD62L) and CD18 integrin surface expression and by neutrophil-derived elastase release. To monitor endothelial activation, endothelial cell ICAM-1 (CD54) expression was measured in cultured endothelial cells from human umbilical veins (HUVEC) after incubation with plasma from the ECMO experiments. CD18 integrin expression was found significantly up-regulated on polymorphonuclear neutrophils and monocytes after 2-4 h of laboratory ECMO. L-selectin was reduced on both cell types during the total duration of the experiments. Soluble L-selectin (sCD62L) and total and differential leukocyte counts remained unchanged during the experiment. Neutrophil-derived elastase content was maximal after 8 h of ECMO. Plasma from the ECMO experiments did not induce ICAM-1 expression of cultured HUVEC. We conclude that prolonged contact with synthetic surfaces during ECMO activates phagocytes, which may contribute to the inflammatory response seen in ECMO-treated patients. Activated phagocytes do not accumulate in the extracorporeal system nor release humoral factors inducing ICAM-1 expression on endothelial cells.

[Dilatation of large retinal vessels after increased intraocular pressure]

PURPOSE

To measure dilation of large retinal branch vessels.

METHODS

Diameters of a vessel section of a branch artery and vein were examined by the retinal vessel analyzer. Intraocular pressure (IOP) was increased briefly by an oculo-oscillo-dynamograph. The examination was repeated after 2 weeks.

RESULTS

A vessel reaction was found in all volunteers. The mean venous diameter decreased 9.9 +/- 9.4% during the suprasystolic phase of intraocular pressure. A maximal dilation was found in arteries (7.0 +/- 6.2%) and veins (9.3 +/- 5.2%) 1 min after lowering of IOP. The results were reproduced in the second examination for veins in all phases of the examination and for arteries in the middle phase after lowering IOP (4 min). Various changes in mean systolic blood pressure did not significantly affect reproducibility of the vessel reaction.

CONCLUSION

The vessel reaction caused by rise in IOP can be measured for single vessel sections. The venous reaction is well reproducible in healthy volunteers. Further research should examine the benefit of this method in the diagnosis and follow-up of glaucoma.

The MYC dualism in growth and death

Over-expression of the transcription factor c-Myc immortalizes primary cells and transforms in co-operation with activated ras. Therefore, c-myc is considered a proto-oncogene. Since its discovery c-Myc has been shown to render cells growth factor independent, accelerates passage through G1 of the cell cycle, inhibits differentiation and elicits apoptosis. Whereas the effects on immortalization, proliferation and inhibition of differentiation are in conceivable accordance with gain of function, as it is defined for a proto-oncogene, its pro-apoptotic activity disables a straight forward explanation of the physiological role of c-Myc and suggests a highly complex contribution during development. The recent accomplishments in c-Myc research shed some light on the difficile regulatory network which keeps check on c-Myc activity such as by binding to proteins some of which are transcription factors for non-c-Myc targets. Moreover, it was shown that genes are targeted by c-Myc depending on the sequence of flanking regions adjacent to the E-box or in dependence on the availability of binding partners which is most probably specific to the cellular context. Cdc25A and ornithine decarboxylase, both described to be c-Myc targets, have been brought forward as downstream effectors in the induction of proliferation under serum rich conditions, or in the induction of apoptosis when serum factors are limited. These genes seem to be regulated by c-Myc in a cell type-specific manner. H-ferritin, IRP2 and telomerase are the most recently discovered direct targets of c-Myc. The regulation of H-ferritin and IRP2 might explain the potential of c-Myc to promote proliferation and the regulation of telomerase could be responsible for the immortalizing properties of c-Myc. In the future, H-ferritin and telomerase have to be analyzed whether or not these genes are also Myc targets in other cell systems. Although the intense research efforts regarding the function of c-Myc last already two decades the role of this gene is still enigmatic.

Benzamide riboside induces apoptosis independent of Cdc25A expression in human ovarian carcinoma N.1 cells

One of the mechanisms of action of a new oncolytic agent, benzamide riboside (BR) is by inhibiting inosine 5'-monophosphate dehydrogenase (IMPDH) which catalyzes the formation of xanthine 5'-monophosphate from inosine 5'-monophosphate and nicotinamide adenine dinucleotide, thereby restricting the biosynthesis of guanylates. In the present study BR (10 - 20 microM) induced apoptosis in a human ovarian carcinoma N.1 cell line (a monoclonal derivative of its heterogenous parent line HOC-7). This was ascertained by DNA fragmentation, TUNEL assay, [poly(ADP)ribose polymerase]-cleavage and alteration in cell morphology. Apoptosis was accompanied by sustained c-Myc expression, concurrent down-regulation of cdc25A mRNA and protein, and by inhibition of Cdk2 activity. Both Cdk2 and cdc25A are G1 phase specific genes and Cdk2 is the target of Cdc25A. These studies demonstrate that BR exhibits dual mechanisms of action, first by inhibiting IMPDH, and second by inducing apoptosis, which is associated with repression of components of the cell cycle that are downstream of constitutive c-Myc expression.

Repression of Oct-4 during embryonic cell differentiation correlates with the appearance of TRIF, a transiently induced DNA-binding factor

The Oct-4 gene encodes a transcription factor that is essential for maintaining the mouse germline. It is expressed during the earliest stages of embryogenesis, is downregulated during gastrulation, and is thereafter constrained to the germ cell lineage. Retinoic acid induced differentiation of embryonal carcinoma cells is also accompanied by a decrease in Oct-4 expression. We have previously shown that downregulation of Oct-4 expression is mediated by a hormone regulatory element (HRE). This element is located within the basal promoter and overlaps with a GC box that is crucial for Oct-4 promoter activity. The HRE is composed of three direct repeats with 1 and 0 spacing. In this study, we demonstrate that the doublet of direct repeats with 0 spacing (DR0) is bound by two novel factors. The initial repression of Oct-4 by retinoic acid coincides with the disappearance of the first factor (named UCF for undifferentiated cellular factor) and the appearance of a transiently induced factor (TRIF) which forms a larger complex with DR0 in electrophoretic mobility shift assays. These observations support the hypothesis that downregulation of the Oct-4 gene during early mouse embryogenesis involves the repression of its promoter by TRIF.

TNFalpha-mediated cell death is independent of cdc25A

Tumor necrosis factor (TNFs) have been shown to be synthesized by ovarian carcinomas, and may therefore affect tumor cells in an autocrine manner. Therefore, we investigated the effects of recombinant TNFs on ovarian carcinoma cells N.1 and examined expression of the proto-oncogenes c-myc and cdc25A which are known to play a prominent role in apoptosis. TNFalpha elicited apoptosis in N.1 cells within 72 h which was shown by typical morphological changes, DNA fragmentation and signature type cleavage of poly(ADP-ribose) polymerase into a 89 kDa proteolytic peptide. TNFalpha-induced apoptosis was accompanied by constitutive c-Myc expression, although the mRNA level of phosphatase cdc25A was suppressed within 24 h of TNFalpha treatment and the protein level decreased after 48 h. Cdc25A tyrosine phosphatase is an activator of the cdk2-cyclin E complex which allows for cell cycle progression. As expected, we found TNFalpha-mediated Cdc25A down-regulation to inhibit Cdk2 activity. Cdc25A suppression was related to TNFalpha-induced apoptosis but not to a TNFalpha-induced G0 arrest because cyclin D1 expression was unaffected and the gene gas6 (growth arrest specific 6) was not induced. Arresting cells by treatment with genistein prevented TNFalpha-triggered apoptosis and inhibited c-myc expression. TNFalpha-induced apoptosis is not accompanied by cell cycle arrest which may be due to constitutive c-Myc expression, although Cdc25A and Cdk2 activity is also down-regulated. High c-Myc and low Cdc25A activity might present conflicting signals to the cell cycle machinery which are incompatible with cell survival.

New POU dimer configuration mediates antagonistic control of an osteopontin preimplantation enhancer by Oct-4 and Sox-2

The POU transcription factor Oct-4 is expressed specifically in the germ line, pluripotent cells of the pregastrulation embryo and stem cell lines derived from the early embryo. Osteopontin (OPN) is a protein secreted by cells of the preimplantation embryo and contains a GRGDS motif that can bind to specific integrin subtypes and modulate cell adhesion/migration. We show that Oct-4 and OPN are coexpressed in the preimplantation mouse embryo and during differentiation of embryonal cell lines. Immunoprecipitation of the first intron of OPN (i-opn) from covalently fixed chromatin of embryonal stem cells by Oct-4-specific antibodies indicates that Oct-4 binds to this fragment in vivo. The i-opn fragment functions as an enhancer in cell lines that resemble cells of the preimplantation embryo. Furthermore, it contains a novel palindromic Oct factor recognition element (PORE) that is composed of an inverted pair of homeodomain-binding sites separated by exactly 5 bp (ATTTG +5 CAAAT). POU proteins can homo- and heterodimerize on the PORE in a configuration that has not been described previously. Strong transcriptional activation of the OPN element requires an intact PORE. In contrast, the canonical octamer overlapping with the downstream half of the PORE is not essential. Sox-2 is a transcription factor that contains an HMG box and is coexpressed with Oct-4 in the early mouse embryo. Sox-2 represses Oct-4 mediated activation of i-opn by way of a canonical Sox element that is located close to the PORE. Repression depends on a carboxy-terminal region of Sox-2 that is outside of the HMG box. Expression, DNA binding, and transactivation data are consistent with the hypothesis that OPN expression is regulated by Oct-4 and Sox-2 in preimplantation development.

Expression of the chicken cysteine-rich fibroblast growth factor receptor (CFR) during embryogenesis and retina development

The expression of the chicken cysteine-rich fibroblast growth factor receptor (CFR) during organogenesis and specifically during retina formation was studied by Northern blotting and a sensitive in situ hybridization. At days 2 and 4 of embryonic development (E2 and E4), CFR mRNA was present in a wide variety of developing organs; it was abundantly expressed in nervous structures, particularly in the retina. The levels of CFR transcripts were high during the proliferation and the subsequent differentiation phases of retinal neurogenesis, reached a maximum around E11 during the onset of the major period of retinal cell death, and then declined progressively. CFR mRNA was not detected at late stages when the final arrangement of retinal cell layers has been established. In prolonged primary cell cultures of chicken embryo retina, CFR expression showed a similar down-regulation to that seen with increasing age in vivo. It was up-regulated either directly or indirectly by its ligands. The CFR expression pattern in the developing retina was complementary to that of two other fibroblast growth factor (FGF) receptors, namely FGF-R1 and FGF-R2. In regard to a progressive increase in the expression of their ligands during retinal development, we suggest that CFR may have a role distinct from that of the tyrosine kinase FGF receptors during retinogenesis. Finally, the comparison of CFR expression with those of the other high affinity receptors indicates a regulation of the FGF function at the receptor level during neural retina development.

Germline regulatory element of Oct-4 specific for the totipotent cycle of embryonal cells

The totipotent stem cells of the pregastrulation mouse embryo which give rise to all embryonic somatic tissues and germ cells express Oct-4. The expression is downregulated during gastrulation and is thereafter only maintained in the germline lineage. Oct-4/lacZ transgenes were used to determine how this pattern of expression was achieved, and resulted in the identification of two separate regulatory elements. The distal element drives Oct-4 expression in preimplantation embryos, in migratory and postmigratory primordial germ cells but is inactive in cells of the epiblast. In cell lines this element is specifically active in embryonic stem and embryonic germ cells. The proximal element directs the epiblast-specific expression pattern, including downregulation during gastrulation; in cell lines its activity is restricted to epiblast-derived cells. Thus, Oct-4 expression in the germline is regulated separately from epiblast expression. This provides the first marker for the identification of totipotent cells in the embryo, and suggests that expression of Oct-4 in the totipotent cycle is dependent on a set of factors unique to the germline.

Biomechanical studies of transthoracic vertebral body replacement with autologous bone grafts (fibula and rib)

Thoracic processes which destroy vertebral bodies leave gaps which usually have to be bridged. The aim of our experiments was to find out whether rib and fibula grafts are suitable vertebral body substitutes from the biomechanical point of view. Therefore, we examined characteristics of vertebral body/bone graft/vertebral body arrangements under the influence of pulsating compression forces in a testing machine. The deformation of the rib graft alone was 0.78 mm under a preselected peak load of 1010 Newton. When the rib graft was placed between two vertebral bodies, the deformation (creeping) was 6 mm under a peak load of 1010 Newton. The deformation of the fibula graft alone was 0.41 mm, and when placed between vertebral bodies maximally 3 mm. The results of our experiments lead to the conclusion that ribs modified according to our design are prinzipally suitable for vertebral body replacement in the thoracic region as far as primary stress resistance is concerned. Characteristics of these bone grafts in the human body are being followed-up.

The role of exogenous/endogenous basic fibroblast growth factor (FGF2) and transforming growth factor beta (TGF beta-1) on human corneal endothelial cells proliferation in vitro

Adult human corneal endothelial cells (HCEC) have extremely low turnover rates but undergo rapid division in vitro when stimulated with soluble growth factors. We have investigated the role played by FGF2 and TGF beta-1 in the regulation of HCEC growth stimulation. HCEC from donors who were over 30 years old were cultured and experiments performed on cultures between the 2nd and the 6th passage in the presence of 5% NCS. Cell counts revealed a maximal stimulation of 2.1x for FGF2 and 1.9x for TGF beta-1 compared to control cultures. When both factors were added, a synergistic effect was noticed with a maximal stimulation of the proliferation rate of 4.5x over controls. In addition, endogenous FGF2 produced by HCEC was quantitated in a sensitive EIA assay. After 5 days in culture, 10(6) cells contained 150 ng FGF2 and 35 ng was extracted from trypsin-digested ECM. Two molar NaCl washes of ECM released 15.6 ng FGF2, which induced a slight mitogenic activity (1.5x over control) in HCEC cultures, which was partially inhibited by an anti-FGF2 antibody. Northern blot analysis of HCEC extracts revealed the presence of FGF receptors R1 and R2 mRNA. The bioactive FGFRs were demonstrated by the toxic effect of a mitotoxin FGF2-SAP. These results suggest that FGF2 could participate in the autocrine regulation of HCEC proliferation and survival. The synergy between exogenously added FGF2 and TGF beta demonstrates that a combination of different growth factors may be important to stimulate proliferation of these cells in vivo.

[Experimental studies of the load capacity of DHS osteosyntheses after various kinds of osteotomy in the area of the femoral trochanter]

Standardized osteotomies were performed to mimic fractures classified as (a) stable, (b) partly unstable and (c) complete unstable (according to Evans) in 32 postmortem femoral bones. The stability of all preparations was examined after the performance of an osteosynthesis with a dynamic hip screw. Cycled loadings were increased stepwise every 500 N to the maximum loading capacity (load of fracture). In addition, the distortion at 2000 N was measured. There were no statistically significant differences between the three groups (a), (b), and (c). The average maximum load capacity was significantly lower in group (c) than in groups (a) and (b). Nevertheless, the lowest value (2275 N) recorded for the maximum loading capacity in our study means that in a normal weight person full weight-bearing can be allowed postoperatively.

Titanium intervertebral disc and instrumentation for fusion in anterior cervical discectomy. Technical note

A new titanium intervertebral disc for fusion in anterior cervical discectomy is described. The advantages of the device, apart from avoidance of graft explanation, include biocompatibility, simple instrumentation, availability of different forms and sizes, and restoration of physiologic lordosis. Following extensive biochemical testing and implantation in animals, first long-term experience in 15 patients with an average follow-up of three years (28-73 month) are described. Infections, anterior angulation deformities, and graft extrusions were not observed in this series.

Spatial and temporal expression patterns of FGF receptor genes type 1 and type 2 in the developing chick retina

Fibroblast growth factors are known to influence the growth and differentiation of cultured cells derived from the chick retina. The fibroblast growth factors can interact with a family of at least four closely related receptor kinases. To find a correlation between the presence of fibroblast growth factor receptors and eye development, the patterns of expression of transcripts encoding the type 1 (FGF-R1) and type 2 (FGF-R2) receptors in the developing chick retina have been studied. Northern blot analysis of RNA of the whole retina was used to observe that FGF-R1 transcripts are abundant at embryonic day 4 and then decrease until day 11. After this stage, the level of expression of FGF-R1 increases and its peak of expression at embryonic day 18 is concomitant with the detection of the opsin transcript. FGF-R2 transcript is also detected by Northern blots of RNA of the whole retina until embryonic day 6. However, the re-expression after embryonic day 11 of FGF-R2 could only be demonstrated by PCR studies. The same pattern of expression is observed with in situ hybridization of sagittal sections. The two genes are coexpressed in the pigmented epithelium and in the neural retina during embryonic development. The expression follows the retinal layering according to a gradient from the vitreous humor to the choroid. Quantification of the in situ hybridization signals demonstrates that the pattern of expression of both receptors diverges after embryonic day 6 between the pigmented epithelium and the neuronal cells.(ABSTRACT TRUNCATED AT 250 WORDS)

Dose-dependent heart rate reducing effect of nizatidine, a histamine H2-receptor antagonist

1. Twelve healthy subjects were treated in a randomised placebo-controlled crossover study with placebo, 150 mg, 300 mg, and 600 mg nizatidine, 100 mg pirenzepine, and 300 mg nizatidine plus 100 mg pirenzepine for 1 week each. 2. On the seventh treatment day, heart rate, blood pressure, systolic time intervals, impedance cardiographic and Doppler ultrasound variables were measured. 3. Stroke volume and blood pressure were not altered by nizatidine and/or pirenzepine. By contrast, heart rate and cardiac output significantly (P < 0.05) decreased in a dose-dependent manner 1.5 and 3 h after administration of 300 and 600 mg nizatidine. Treatment with 150 mg nizatidine led to similar though non-significant trends. 4. While a slightly insignificant rise in heart rate was detected with pirenzepine alone, heart rate and cardiac output remained unchanged upon combined nizatidine and pirenzepine treatment as compared with placebo and baseline values. 5. In conclusion, nizatidine reduced heart rate and cardiac output in a dose-dependent manner, whereas this negative chronotropic effect was counteracted by concurrent administration of the anti-cholinergic drug pirenzepine.

Fibroblast growth factor receptor deficiency in dystrophic retinal pigmented epithelium

The retinal pigmented epithelium (RPE) is known to be the site of the primary lesion in inherited retinal dystrophy in the Royal College of Surgeons (RCS) rat, a model for retinitis pigmentosa. Although the only functional defect so far detected in these cells is their failure to efficiently phagocytose shed photoreceptor outer segment debris, the actual cause of photoreceptor cell death is still unknown. Recently the possibility of "trophic factors" important in photoreceptor survival produced by normal RPE but not by dystrophic RPE has been suggested. Hence we decided to investigate the presence and abundance of two candidate diffusible factors, the acidic and basic fibroblast growth factors (aFGF and bFGF, respectively), as well as their high affinity cell surface receptors (FGF-R). mRNA was isolated from primary cultures of purified normal and dystrophic RPE and analyzed by PCR amplification using specific oligonucleotide primers for aFGF and bFGF: the size and abundance of amplified fragments was similar for both cell types. Also, aFGF protein, detected by immunocytochemistry using specific antisera, appeared to be present in approximately equal amounts and distributed in a similar pattern. However, scatchard analysis of radio-labelled bFGF binding to primary cultures of normal and dystrophic rat RPE revealed that dystrophic RPE possess only 29% the number of surface receptors compared to congenic normal cells. Furthermore, the level of expression of FGF-R2 mRNA, but not that of FGF-R1, was significantly different. Other parameters measured (receptor affinity, profile of ligand internalization and degradation, receptor molecular weight and mitogenic activity) did not show any significant differences between normal and dystrophic RPE. The precise role of FGF-R deficiency in the etiology of the disease hence remains to be determined, but it indicates the importance of trophic factors in the normal functioning of the retina.

aFGF binding to low and high affinity receptors induces both aFGF and aFGF receptors dimerization

Acidic Fibroblast Growth Factor (aFGF) binds on two classes of fibroblast growth factor receptors, the high affinity receptors (HAR) a family of four known transmembrane tyrosine kinases and the low affinity receptors (LAR), related to cell surface heparan sulfate proteoglycan (HSPG). We analysed the relationship between the binding of aFGF on the HAR and on the LAR in bovine lens epithelial (BEL) cells in the presence of heparin or suramin. Through Northern blotting analysis we demonstrated that the three immunoglobulin-like transcript of FGF receptor type 1 (FGF-R1) is the major expressed high affinity receptor in BEL cells. On the contrary, HAR-aFGF complexes are present in two forms (150 kDa and 135 kDa) revealed by cross-linking experiments with 125I aFGF. Moreover 125I aFGF binding to BEL cell surface induces the spontaneous formation of a 125I aFGF dimer (31 kDa) which is then internalized and degraded in the cells as the 15.5 kDa aFGF native form is. It has been observed that heparin at 10 micrograms/ml (1) in cross-linking experiments, reduces by half the total number of HAR complexes by preventing the formation of the 150 kDa complex but does not affect the 135 kDa complex, (2) in binding experiments, suppress the spontaneous formation of the 125I aFGF dimer bound to LAR, and then its internalization and degradation in the cells. Moreover, we demonstrate that (1) only HAR contributes specifically and directly to the aFGF internalization process, (2) HAR internalization is ligand concentration and time saturable, (3) there is no desensitization of aFGF internalization induced by ligand binding to HAR, (4) a FGF dimerization process is highly dependent on the apparent affinity of FGF for heparin, since aFGF mutant with a reduced affinity for heparin does not promote the dimerization. These data strongly suggest that a heteroreceptor-aFGF complex (150 kDa) is formed by one molecule of HAR (FGF-R1) associated to one molecule of LAR through their respective interactions with a very stable aFGF homodimer. Such a three component receptor induced by FGF dimerization may be a process involved in the mechanism of action of FGFs which could explain the diversity of the biological response of FGF depending on the presence of the HSPG on the extra cellular matrix. In addition prebinding of unlabelled aFGF to the cells induces a 4 fold increase in the affinity of HAR to 125IaFGF concomitant with its down regulation by 80% and initiates the formation of the HAR homodimer.(ABSTRACT TRUNCATED AT 400 WORDS)

Interaction of fibroblast growth factor (FGF) with megakaryocytopoiesis and demonstration of FGF receptor expression in megakaryocytes and megakaryocytic-like cells

We have investigated the interaction of fibroblast growth factor (FGF) with megakaryocytopoiesis. Acidic FGF (aFGF) stimulated the proliferation of murine megakaryocytes and human erythroleukemia (HEL) cells in a concentration-dependent manner. The concentrations of aFGF required to elicit half-maximum and maximum effects were similar for HEL and megakaryocytic colony formation. The effect of aFGF was comparable to that of basic FGF (bFGF) in both cell types. The effect of both FGFs was found to be synergistic with interleukin-3 (IL-3), and was abrogated by a monoclonal anti-IL-6 antibody. A specific cell surface receptor complex of approximately 120 Kd was detected for FGF by crosslinking experiments on HEL cells and total bone marrow (BM) cells. Single-cell autoradiography of megakaryocytes in BM smears and BM cultures showed binding sites for 125I-aFGF. Northern blot analysis of messenger RNA (mRNA) from total BM and HEL cells showed a 4.4-kb mRNA specific for FGF receptors type 1 (flg) and type 2 (bek). This was confirmed by polymerase chain reaction, which also showed the presence of FGF receptor mRNA in megakaryocytic-like cells, normal megakaryocytes, and platelets. Together, these results indicate that FGF is involved in megakaryocytopoiesis and suggest that this interaction may be mediated via FGF receptor type 1 and type 2 located on the megakaryocytic lineage or on accessory cells responsible for the release of megakaryocytic growth-promoting activities.