Complex Contact-Based Dynamics of Microsphere Monolayers Revealed by Resonant Attenuation of Surface Acoustic Waves

Contact-based vibrations play an essential role in the dynamics of granular materials. Significant insights into vibrational granular dynamics have previously been obtained with reduced-dimensional systems containing macroscale particles. We study contact-based vibrations of a two-dimensional monolayer of micron-sized spheres on a solid substrate that forms a microscale granular crystal. Measurements of the resonant attenuation of laser-generated surface acoustic waves reveal three collective vibrational modes that involve displacements and rotations of the microspheres, as well as interparticle and particle-substrate interactions. To identify the modes, we tune the interparticle stiffness, which shifts the frequency of the horizontal-rotational resonances while leaving the vertical resonance unaffected. From the measured contact resonance frequencies we determine both particle-substrate and interparticle contact stiffnesses and find that the former is an order of magnitude larger than the latter. This study paves the way for investigating complex contact-based dynamics of microscale granular crystals and yields a new approach to studying micro- to nanoscale contact mechanics in multiparticle networks.

Prosaposin is a novel androgen-regulated gene in prostate cancer cell line LNCaP

Androgen-regulated genes (ARG) are implicated in normal and neoplastic growth of the prostate. Recently, we reported genomic amplification and/or overexpression of a previously known neurotrophic factor, prosaposin, in androgen-independent (AI) or metastatic prostate cancer (PCa) cells and tissues. Prosaposin and/or its known active molecular derivatives (e.g., saposin C) function as a pluripotent growth factor with diverse biological activities that favor malignant phenotypes in PCa cells. In addition, prosaposin or saposin C upregulates androgen receptor (AR) and AR-target genes (i.e., prostate-specific antigen, Probasin) expression and activity in LNCaP cells. Here, we examined prosaposin as an ARG. We report that DHT treatment of LNCaP cells increases prosaposin expression. In addition, we demonstrate androgen-responsiveness of prosaposin promoter and AR occupancy to a hormone-responsive element located in the proximal region of the prosaposin promoter. Our data for the first time identify prosaposin as an ARG. This observation, together with the pleiotropic growth factor activity of prosaposin, might suggest a role for this molecule in AR-dependent progression of prostate cancer at its early or late AI-state.

Saposins (sap) A and C activate the degradation of galactosylsphingosine

As previously shown for [(3)H-galactosyl]ceramide, the breakdown of [(3)H-galactosyl]sphingosine was reduced in prosaposin-deficient skin fibroblast homogenates. Galactosylsphingosine hydrolysis was also deficient in cell homogenates from Krabbe's disease (beta-galactocerebrosidase-deficient) patients, but not acid beta-galactosidase-deficient patients. Moreover, hydrolysis of galactosylsphingosine in the prosaposin-deficient cell homogenates could be partially restored by adding pure saposin A or C, thereby identifying these saposins as essential facilitators of galactosylsphingosine hydrolysis. By contrast, saposins B and D had little effect on galactosylsphingosine hydrolysis in the prosaposin-deficient cells. The reduced galactosylsphingosine turnover in prosaposin-deficiency suggests that there could be a pathogenetic cerebral accumulation of galactosylsphingosine in this disorder.

A retro-inverso Prosaptide D5 promotes a myelination process in developing rats

The myelinotrophic action of Prosaptide D5 was investigated in developing rats. Sulfatide concentrations in brain and sciatic nerve were determined to assess the development of myelination. Subcutaneous D5-injection significantly increased sulfatide concentrations in both brain and sciatic nerve by 250 and 150% over controls, respectively. D5 promoted ERK phosphorylation in iSC Schwann cells similar to prosaposin. The results showed that D5 treatment stimulated a myelination process in developing rat.

Neuroprotective effect of retro-inverso Prosaptide D5 on focal cerebral ischemia in rat

Prosaposin (the precursor of saposins A-D) has been identified as a neurotrophic factor in vitro and in vivo. In this study, a novel 11-mer retro-inverso peptidomimetic, Prosaptide D5, was injected i.m. to assess its effectiveness in a rat ischemic model produced by reversible total occlusion of the left middle cerebral artery (MCA). Prosaptide (300 microg/kg, i.m.) injected 3 h after reversible occlusion reduced brain infarct area by 56% compared with a saline group (p < 0.01) at 21 h of reperfusion. A similar injection of D5 6h after occlusion produced a 32% decrease.

Prosaptide D5 reverses hyperalgesia: inhibition of calcium channels through a pertussis toxin-sensitive G-protein mechanism in the rat

A retro-inverso 11-mer peptidomimetic of prosaposin, Prosaptide D5, induced neurite outgrowth in NS20Y neuroblastoma cells and enhanced [35S]GTPgammaS binding to rat synaptosomal membrane at low nanomolar concentrations similar to prosaposin. Intramuscular injection of D5 ameliorated thermal hyperalgesia in the Seltzer rat model of neuropathic pain, returning paw withdrawal latency to control levels within 3 h after treatment. The effect was sustained for at least 48 h after injection. Prosaposin and D5 inhibited K+-stimulated synaptosomal 45Ca2+ uptake similar to omega-conotoxin MVIIC, demonstrating that both effectors modulated voltage-dependent calcium channels (VDCC); inhibition was largely abolished by pretreatment with pertussis toxin before D5 treatment. The results suggest a mechanism whereby VDCC are modulated by a pertussis toxin-sensitive G-protein coupled receptor; D5 binds to this receptor and thereby ameliorates hyperalgesia in the Seltzer model of neuropathic pain.

Cathepsin A/protective protein: an unusual lysosomal multifunctional protein

Cathepsin A/protective protein [3.4.16.5], carboxypeptidase A, is a lysosomal serine protease with structural homology to yeast (Saccharomyces cerevisiae) carboxypeptidase Y. Cathepsin A is a member of the alpha/beta hydrolase fold family and has been suggested to share a common ancestral relationship with other alpha/beta hydrolase fold enzymes, such as cholinesterases. Several lines of evidence indicate that cathepsin A is a multicatalytic enzyme with deamidase and esterase in addition to carboxypeptidase activities. Cathepsin A was recently identified in human platelets as deamidase. In vitro, it hydrolyzes a variety of bioactive peptide hormones including tachykinins, suggesting that extralysosomal cathepsin A plays a role in regulation of bioactive peptide functions. Recent reports emphasize the lysosomal protective function of cathepsin A rather than its protease function. The protective function of cathepsin A is distinct from its catalytic function. Human lysosomal beta-galactosidase and neuraminidase exist as a high molecular weight enzyme complex, in which there is a 54-kDa glycoprotein termed 'lysosomal protective protein'. Based on cell culture studies, protective protein was found to protect both beta-galactosidase and neuraminidase from intralysosomal proteolysis by forming a multienzyme complex and was shown to be deficient in patients with galactosialidosis, a combined deficiency of beta-galactosidase and neuraminidase. Molecular cloning and gene expression studies have disclosed that protective protein is cathepsin A. The cathepsin A precursor has the potential to restore both beta-galactosidase and neuraminidase activities in fibroblasts from patients with galactosialidosis. Cathepsin A knockout mice showed a phenotype similar to human galactosialidosis and the deficient phenotype found in the mutant mice was corrected by transplanting erythroid precursor cells overexpressing cathepsin A. Collectively, these findings demonstrate the significance of cathepsin A as a key molecule in the onset of galactosialidosis and also highlight the therapeutic potential of the cathepsin A precursor for patients with galactosialidosis.

Prosaposin: a myelinotrophic protein that promotes expression of myelin constituents and is secreted after nerve injury

Recently, we demonstrated that prosaposin and prosaptides (peptides encompassing the neurotrophic sequence in prosaposin) prevent cell death and increase extracellular regulated kinase (ERK) phosphorylation and sulfatide content in primary Schwann cells or oligodendrocytes (Hiraiwa et al., 1997a). Here, we examine the effect of prosaptide on other myelin constituents, on Schwann cell morphology and proliferation, and characterize the time course of expression of prosaposin protein after sciatic nerve injury. After 24 h of treatment with 10 nM TX14(A), a 14-mer prosaptide, the specific activity of UDP-galactose:ceramide galactosyltransferase (GalT) in primary Schwann cells was increased by 150% over controls. Under the same conditions, the maximum content of sulfatide increased 3-fold over controls after 48 h of treatment. Northern blot analysis, probed with oligonucleotide sequences from the GalT and P0 cDNAs, revealed that the mRNA levels of GalT and P0 protein were elevated about 30 and 200%, respectively, over controls after 24 h of treatment with TX14(A). Treatment of primary Schwann cells with TX14(A) also induced a morphological change at 10 nM; the peptide-treated cells had a bipolar (spindle-shaped) appearance after 48 h of treatment, compared to control cells which were irregular and multipolar. TX14(A) did not induce cell proliferation, indicating that TX14(A), unlike IGF-I, is not mitogenic. After sciatic nerve transection, Western blot analysis demonstrated the presence of intact prosaposin in tubular fluid in a silicon chamber into which the proximal and distal nerve stumps were sutured. The concentration of prosaposin in the fluid was maximum after 9 days post-surgery and returned to normal after 28 days post-surgery. In uninjured and injured nerve, prosaposin immunolocalized to the smooth muscle of epineurial and endoneurial vessels. These findings indicated that sciatic nerve secreted prosaposin after injury and that prosaposin is a naturally occurring injury-repair protein which acts to prevent degeneration and to promote regeneration of peripheral nerves.

Secretion of prosaposin, a multifunctional protein, by breast cancer cells

Western blotting and immunodetection with three antibodies were used to probe conditioned media of breast cancer cells (MDA231, MDA435, MCF-7) for prosaposin, a lysosomal protein that occurs in milk. It was readily detected in media from these cells, and from that of an sv40-transformed mammary epithelial cell, HBL100, but not from medium of human neural tumor cells (SK-N-MC). In cultures of MCF-7 cells, the prosaposin pattern of secretion over time closely resembled that of procathepsin D, another lysosomal protein occurring in milk. Supplementing medium with 17beta-estradiol (0. 1-100 nM) dose dependently increased secretion of both proteins after 48 h without changes in cell viability. The influence of 17beta-estradiol on secretion could play a role in the trophic activity of prosaposin in cellular differentiation and cell death protection. In concert with other lysosomal proteins in the tumor environment, such as procathepsin D, prosaposin may be a factor in eliminating barriers to tumor metastasis by facilitating hydrolysis of membrane glycolipids. The number of milk proteins known to be secreted by breast cancer cells is growing. There is evidence that at least some of these may be secreted in an endocrine manner in the normal, non-lactating breast.

Administration of prosaposin ameliorates spatial learning disturbance and reduces cavity formation following stab wounds in rat brain

The effectiveness of prosaposin as a neurotrophic factor was investigated using rats with bilateral stab wounds, injecting 240 ng per day of prosaposin for 3 days. In Morris water maze task, after 3 weeks postoperation, the stab-wounds rats show significant impairment in acquisition compared with the sham-operated rats. In the transfer test the mean number of crossings of the platform place in stab-wounds was significantly lower than that in sham-operated rats (P < 0.01). The stab-wounds rats treated with prosaposin showed significant improvement (P < 0.05). The cavities following stab wounds in the rats treated with prosaposin were significantly smaller than those in the rats treated with (P < 0.05). Our data support that prosaposin is likely to be a new agent for brain injury.

Colocalization and complex formation between prosaposin and monosialoganglioside GM3 in neural cells

Prosaposin, the precursor of saposins A, B, C, and D, was recently identified as a neurotrophic factor in vitro as well as in vivo. Its neurotrophic activity has been localized to a linear 12-amino acid sequence located in the NH2-terminal portion of the saposin C domain. In this study, we show the colocalization of prosaposin and ganglioside GM3 on NS20Y cell plasma membrane by scanning confocal microscopy. Also, TLC and western blot analyses showed that GM3 was specifically associated with prosaposin in immunoprecipitates; this binding was Ca2+-independent and not disassociated during sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The association of prosaposin-GM3 complexes on the cell surface appeared to be functionally important, as determined by differentiation assays. Neurite sprouting, induced by GM3, was inhibited by antibodies raised against a 22-mer peptide, prosaptide 769, containing the neurotrophic sequence of prosaposin. In addition, pertussis toxin inhibited prosaptide-induced neurite outgrowth, as well as prosaptide-enhanced ganglioside concentrations in NS20Y cells, suggesting that prosaposin acted via a G protein-mediated pathway, affecting both ganglioside content and neuronal differentiation. Our findings revealed a direct and tight GM3-prosaposin association on NS20Y plasma membranes. We suggest that ganglioside-protein complexes are structural components of the prosaposin receptor involved in cell differentiation.

Prosaposin prevents programmed cell death of rat cerebellar granule neurons in culture

Prosaposin, the precursor of sphingolipid activator proteins (saposin A-D), has been reported to be a neurotrophic factor in vitro and in vivo. Prosaposin mRNA is transiently expressed at a high level in developing cerebellum during the period of granule cell proliferation and maturation, suggesting its significance during development of cerebellum. Here we investigated the neuroprotective effect of prosaposin on cerebellar granule neurons, exposing primary cerebellar granule cells to low K+ which induced programmed cell death. Prosaposin rescued mature cerebellar granule neurons in a bimodal manner. A similar neuroprotective effect was obtained using TX14(A), a 14-mer neurotrophic peptide derivative of prosaposin. An additive neuroprotective effect was observed between BDNF and TX14(A), but not between IGF-1 and TX14(A). Prosaposin rescued 60% of nifedipine sensitive cerebellar granule neurons as well as IGF-1, while BDNF did not. Furthermore, the neuroprotective action of prosaposin was inhibited by LY294002, a specific inhibitor of PI 3-kinase. These findings indicated that prosaposin had a trophic effect upon newborn cerebellar granule cells and that the neuroprotective action was similar to that of IGF-1 rather than BDNF. Prosaposin may play a role in cerebellar development during programmed cell death of cerebellar neurons.

Gene expression of fucosyl- and sialyl-transferases which synthesize sialyl Lewisx, the carbohydrate ligands for E-selectin, in human breast cancer

The adhesion of circulating cancer cells to vascular endothelium is an important step in the hematogenous metastasis of cancer. Until recently, it has been believed that carbohydrate antigens are expressed on cancer cells, and E-selectin is expressed on endothelial cells to effect this adhesion. We investigated the gene expression of fucosyl-transferase (Fuc-T) and sialyltransferase (ST), which are involved in the synthesis of sialyl Lewisx (s-Lex) in breast cancer by using Northern blot analysis. The concentration of s-Lex in the cancerous portion was increased, compared to that in the adjacent non-cancerous portion. A correlation was found between the concentration of s-Lex and the amount of Fuc-T VI message in 9 cases of breast cancer tissue. Expression of the Fuc-T III message was found in only one case who expressed s-Lea. No expression of the Fuc-T V or VII message was observed. There was no relationship between the concentration of s-Lex and the amount of ST3N and ST4 transcripts. Similar findings were obtained from an analysis using cell lines derived from human breast cancer. When Fuc-T VI gene was transfected to MCF-7 cells, the expression of s-Lex was markedly induced on MCF-7 cells, and the attachment of cancer cells to endothelial cells was enhanced. These findings suggest that Fuc-T VI is chiefly involved in the synthesis of s-Lex on breast cancer cells.

Prosaptide activates the MAPK pathway by a G-protein-dependent mechanism essential for enhanced sulfatide synthesis by Schwann cells

Prosaposin, the precursor of saposins A, B, C, and D, was recently reported to be a neurotrophic factor in vivo and in vitro. The neurotrophic region of prosaposin has been localized to a 12-amino acid sequence within the saposin C domain and has been used to derive biologically active synthetic peptides (14-22 residues), called prosaptides. Treatment of primary Schwann cells and an immortalized Schwann cell line, iSC, with a 14-mer prosaptide, TX14(A) (10 nM), enhanced phosphorylation of mitogen-activated kinases ERK1 (p44 MAPK) and ERK2 (p42 MAPK) within 5 min, which was blocked by 4 h pretreatment with pertussis toxin. Furthermore, incubation of Schwann cells with the nonhydrolyzable GDP analog GDP-betaS inhibited TX14(A)-induced ERK phosphorylation. TX14(A) enhanced the sulfatide content of primary Schwann cells by 2.5-fold, which was inhibited by pretreatment with pertussis toxin or the synthetic MAP kinase kinase inhibitor PD098059. In addition, TX14(A) increased the tyrosine phosphorylation of all three isoforms of the adapter molecule, Shc, which coincided with the association of p60Src and PI(3)K. Inhibition of PI3(K) by wortmannin blocked TX14(A)-induced ERK phosphorylation. These data demonstrate that TX14(A) uses a pertussis toxin-sensitive G-protein pathway to activate ERKs, which is essential for enhanced sulfatide synthesis in Schwann cells.

Cloning, expression and map assignment of chicken prosaposin

Prosaposin is the precursor of four small glycoproteins, saposins A-D, that activate lysosomal sphingolipid hydrolysis. A full-length cDNA encoding prosaposin from chicken brain was isolated by PCR. The deduced amino acid sequence predicted that, similarly to human and other mammalian species studied, chicken prosaposin contains 518 residues, including four domains that correspond to saposins A-D. There was 59% identity and 76% similarity of human and chicken prosaposin amino acid sequences. The basic three-dimensional structures of these saposins is predicted to be similar on the basis of the conservation of six cysteine residues and an N-glycosylation site. Identity of amino acid sequences was higher among saposins A, B and D than in saposin C. The predicted amino acid sequence of saposin B matched exactly that of purified chicken saposin B protein. The chicken prosaposin gene was mapped to a single locus, PSAP, in chicken linkage group E11C10 and is closely linked to the ACTA2 locus. This confirms the homology between chicken and human prosaposins and defines a new conserved segment with human chromosome 10q21-q24.

Prosaposin receptor: evidence for a G-protein-associated receptor

Prosaposin, the precursor of sphingolipid activator protein (saposins A-D), has been identified as a neurotrophic factor capable of inducing neural differentiation and preventing cell death. The putative prosaposin receptor was partially purified from baboon brain membranes by affinity chromatography using a saposin C-column. The purified preparation gave a single major protein band with an apparent molecular weight of 54 kDa on SDS-PAGE. Affinity cross-linking of 11 kDa 125I-saposin C demonstrated the presence of a 66 kDa product, indicative of an apparent molecular weight of 55 kDa for the receptor. A GTP gamma S-binding assay using cell membranes from SHSY5Y neural cells demonstrated agonist stimulated binding of [35S]-GTP gamma S upon treatment with prosaptide TX14(A) a peptide from the neurotrophic region; maximal binding was obtained at 2 nM. TX14(A) stimulated binding was abolished by prior treatment of SHSY5Y cells with pertussis toxin and by a scrambled and an all D-amino acid-derivative of the 14-mer. A 14-mer mutant prosaptide (6N-->6D) competed with TX14(A) with a Ki of 0.7 nM. Immunoblot analysis using an antibody against the G0 alpha subunit demonstrated that the purified receptor preparation contained a 40 kDa reactive band consistent with association of G0 alpha and the receptor. These findings indicate that the signaling induced by prosaposin and TX14(A) is generated by binding to a G0-protein associated receptor.

Saposins (sap) A and C activate the degradation of galactosylceramide in living cells

In loading tests using galactosylceramide which had been labelled with tritium in the ceramide moiety, living skin fibroblast lines derived from the original prosaposin-deficient patients had a markedly reduced capacity to degrade galactosylceramide. The hydrolysis of galactosylceramide could be partially restored in these cells, up to about half the normal rate, by adding pure saposin A, pure saposin C, or a mixture of these saposins to the culture medium. By contrast, saposins B and D had little effect on galactosylceramide hydrolysis in the prosaposin-deficient cells. Cells from beta-galactocerebrosidase-deficient (Krabbe) patients had a relatively high residual galactosylceramide degradation, which was similar to the rate observed for prosaposin-deficient cells in the presence of saposin A or C. An SV40-transformed fibroblast line from the original saposin C-deficient patient, where saposin A is not affected, showed normal degradation of galactosylceramide. The findings support the hypothesis, which was deduced originally from in vitro experiments, that saposins A and C are the in vivo activators of galactosylceramide degradation. Although the results with saposin C-deficient fibroblasts suggest that the presence of only saposin A allows galactosylceramide breakdown to proceed at a normal rate in fibroblasts, it remains to be determined whether saposins A and C can substitute for each other with respect to their effects on galactosylceramide metabolism in the whole organism.

Protective protein in the bovine lysosomal beta-galactosidase complex

Cathepsin A [EC 3.4.16.1], so called protective protein, occurs as an enzyme complex with lysosomal beta-galactosidase [3.2.1.23] and is involved in the stable enzymic expression of lysosomal sialidase [3.2.1.18]. In this study we investigated the enzymatic properties of cathepsin A in the bovine beta-galactosidase complex and how it is involved in the molecular multiplicities of the beta-galactosidase and sialidase complexes. Bovine protective protein homologous to the human protein had a molecular weight of 48 kDa on SDS-PAGE and cathepsin A activity optimum around pH 6.0. It hydrolyzed dipeptide substrates composed of hydrophobic amino acids much faster than any other type of substrate tested. This specificity was found to be conserved from human to a non-mammal, chicken. Immunoprecipitation using an anti beta-galactosidase antibody demonstrated that cathepsin A is a component of both the sialidase and beta-galactosidase complexes. The over 700 kDa sialidase complex depolymerized by a brief incubation at pH 7.5 and the sialidase was inactivated irreversibly via formation of an enzyme active smaller species of sialidase. The 669 kDa beta-galactosidase complex dissociated reversibly into a 120 kDa beta-galactosidase and a 170 kDa cathepsin A, but the 120 kDa beta-galactosidase, free from the cathepsin A, formed a 260 kDa aggregate under the same conditions. Inactivation of cathepsin A by heat treatment did not affect its complex forming activity. The 170 kDa protective protein dissociated into a 50 kDa one at pH 7.5, which no longer formed the complex. These findings indicate that the 170 kDa protective protein could be the minimum unit required for in vitro reconstitution of the complex, and that its complex forming activity is carried in a heat-stable domain. Both beta-galactosidase and cathepsin A activities were labile under the dissociated condition, indicating that it physiologically stabilizes not only beta-galactosidase but also itself by forming the complex.

Lysosomal proteolysis of prosaposin, the precursor of saposins (sphingolipid activator proteins): its mechanism and inhibition by ganglioside

Saposins A, B, C, and D, which are required for the enzymatic hydrolysis of sphingolipids by specific lysosomal hydrolases, are produced by proteolytic processing of their common precursor protein, prosaposin. Our previous observation suggested that lysosomal cathepsin D may be involved in the proteolysis of prosaposin. Herein we report the involvement of cathepsin D in the proteolytic processing of prosaposin. An antibody against human placental cathepsin D blocked the proteolytic activity toward prosaposin in a human testicular lysosomal protease mixture (glycoprotein fraction). On immunoblot analysis using a monoclonal antibody against human saposin C, cathepsin D showed a similar proteolytic pattern as that of a human testicular glycoprotein fraction and hydrolyzed prosaposin into products of 48 and 29 kDa. The Km and Vmax values were 0.9 microM and 167 nmol/h/mg, respectively. N-Terminal sequence analysis indicated that the 48-kDa band was a mixture of two trisaposins, including domains for saposins A, B, and C and saposins B, C, and D, respectively. A similar study also showed that the 29-kDa band contained two disaposins, including domains for saposins A and B and saposins C and D, respectively. By longer treatment with cathepsin D, disaposins were further processed into mature saposin A and small fragments (14.5-17.5 kDa) containing individual saposins and portions of interdomain sequences. These small fragments were no longer processed by cathepsin D, but trimmed to fragments having similar molecular sizes (10.5-11.5 kDa) to those of mature saposins by a rat lysosome preparation. These findings indicated that cathepsin D is involved in the maturation of saposins but that, in addition to cathepsin D, other proteases appear to be involved in the maturation of saposin B, C, and D in lysosomes. Gangliosides, which specifically form complexes with prosaposin and saposins, inhibit proteolysis of prosaposin by cathepsin D. This finding indicates that prosaposin may be protected from lysosomal proteolysis by forming a complex with gangliosides in vivo.

Cell death prevention, mitogen-activated protein kinase stimulation, and increased sulfatide concentrations in Schwann cells and oligodendrocytes by prosaposin and prosaptides

Prosaposin, the precursor of saposins A, B, C, and D, was recently identified as a neurotrophic factor. Herein prosaposin was found to increase sulfatide concentrations in primary and transformed Schwann cells (iSC) and oligodendrocytes (differentiated CG4 cells). Of the four mature saposins, only saposin C was found to increase sulfatide concentrations in these cell types. A similar result was obtained by using peptides (prosaptides) encompassing the neurotrophic sequence located in the saposin C domain. Dose-response curves demonstrated maximal enhancement by saposin C and prosaptides at low nanomolar concentrations (5-10 nM). The increase in sulfatide concentration by a 14-mer prosaptide, TX14(A), in CG4 oligodendrocytes was about 3-fold greater than in primary Schwann cells. A mutant prosaptide with a single amino acid replacement of Asn --> Asp was inactive. Prosaptides did not induce cell proliferation of primary Schwann cells, iSC cells, or CG4 oligodendrocytes but nanomolar concentrations of prosaptides prevented cell death of iSC cells and CG4 oligodendrocytes. Immunoblot analysis demonstrated that phosphorylation of both mitogen-activated protein kinase p-42 and p-44 isoforms were enhanced 3- to 5-fold after 5 min of treatment with prosaptides at concentrations of 1-5 nM. These findings suggest that prosaposin and prosaptides bind to a receptor that initiates signal transduction to promote myelin lipid synthesis and prolong cell survival in both Schwann cells and oligodendrocytes. Prosaposin may function as a myelinotrophic factor in vivo during development and repair of myelinated nerves explaining the deficiency of myelin observed in prosaposin-deficient mice and humans.

Human T-cell leukemia virus-1 encoded Tax protein transactivates alpha 1-->3 fucosyltransferase Fuc-T VII, which synthesizes sialyl Lewis X, a selectin ligand expressed on adult T-cell leukemia cells

Leukemia cells in patients with adult T-cell leukemia (ATL) and related cell lines strongly express the carbohydrate determinant sialyl Lewis X, a ligand for selectins. Its expression is thought to be related closely to the extravascular infiltration of the leukemia cells. Human T-cell leukemia virus type 1 (HTLV-1), the etiological agent of ATL, produces Tax protein, which is implicated in leukemogenesis through its transactivating effect on various cellular genes. In this study we investigated the transactivating effect of HTLV-1 Tax on the alpha 1-->3 fucosyltransferase Fuc-T VII, the putative rate-limiting enzyme in the synthesis of sialyl Lewis X in human leukocytes using JPX-9 cells. JPX-9 is a subclone of a non-ATL human lymphocytic leukemia cell line, Jurkat, and was established by introducing a metallothionein promoter-driven Tax expression plasmid. The JPX-9 cells as well as parental Jurkat cells did not express Fuc-T VII mRNA under normal culture conditions. When cultured in the presence of 10 microM CdCl2, Tax was induced and a significant amount of the Fuc-T VII message was ascertained by Northern blotting. The amount of the message was 24.5 times as much as was detected in non-treated cells, and was comparable to that which appeared by TPA stimulation of the cells, which is supposed to simulate the sequence of events occurring in normal activation of T lymphocytes activated by more physiological stimuli. Sialyl Lewis X determinant was expressed at the surface of CdCl2-treated cells, while the determinant was not detectable on either unstimulated JPX-9 or parental Jurkat cells. These results indicate that expression of sialyl Lewis X on leukemic cells in patients with ATL is at least partly due to the transactivation of the Fuc-T VII gene induced by the HTLV-1 Tax, and suggest that this leads to the accelerated extravascular infiltration of ATL cells.

Prosaposin, a neurotrophic factor: presence and properties in milk

The presence of prosaposin, the precursor of the sphingolipid activator proteins (saposins A, B, C, and D), was investigated in bovine milk. The milk proteins were resolved by SDS-PAGE, blotted onto nitrocellulose sheets, and immunostained. Each of three appropriate antibodies defined a band from milk that matched in mobility the reference prosaposin from human milk at a relative molecular mass of 66,000. Evidence of mature saposins was not found. Prosaposin was detected in milk of other species chimpanzee, rhesus, goat, and rat) and was consistently observed in samples of retail milk and from individual cows. Prosaposin was not associated with particulate matter (fat globules, casein micelles, membrane fragments, and somatic cells) in either human or bovine milk. Rather, prosaposin was located exclusively in the milk serum (whey), existing in monomeric form, as revealed by nondenaturing PAGE. A commercial whey protein concentrate (75% protein) appeared to retain milk prosaposin quantitatively. Properties that were useful in the isolation of prosaposin from milk were its binding to concanavalin A, retention by anion-exchange cellulose, and resistance to precipitation by heating. The possibility that bovine milk prosaposin nutritionally benefits the humans who consume it is enhanced by the fact that only part of its saposin C segment is required for neurotrophic activity.

Induction of MAPK phosphorylation by prosaposin and prosaptide in PC12 cells

Prosaposin is a 66 kDa glycoprotein which has neurotrophic activity in vitro and in vivo. The neurotrophic sequence (8CEFLVKEVTKLIDNNKTEKEI29L) within prosaposin has been located to the amino terminal portion of the saposin C domain. This 22-mer peptide, prosaptide, has neurotrophic activity equivalent to prosaposin. We present binding studies using 125I-prosaposin and 125I-prosaptide which revealed a single class of specific binding sites with a Kd of 2.5 nM and 18.3 nM, respectively. Both prosaposin and prosaptide rapidly stimulated protein tyrosine phosphorylation in PC12 cells and increased phosphorylation of MAPK 20-fold especially of p44 MAPK which peaked at 5 minutes of stimulation and then rapidly declined. Treatment of PC12 cells with a mutant 22-mer prosaptide (21Asn to 21Asp) did not induce phosphorylation. These findings suggest a role for MAPK in signal transduction by prosaposin.

Immunoreactivity of growth inhibitory factor in normal rat brain and after stab wounds--an immunocytochemical study using confocal laser scan microscope

The growth inhibitor factor (GIF) is a new member of the metallothionein family that is downregulated in Alzheimer's disease brain. Using a confocal laser scan microscope with polyclonal and monoclonal antibodies to GIF, and monoclonal antibodies to glial fibrillary acidic protein (GFAP) and MAP-2, we demonstrated that GIF immunoreactivity was expressed primarily in astrocytes and much less in neurons. In astrocytes of normal rat brain GIF immunoreactivity was detected mainly in the cell bodies, while GFAP immunoreactivity was detected mainly in the processes. GIF immunoreactivity was more strongly expressed in reactive astrocytes. These findings were confirmed with both polyclonal and monoclonal antibodies. Following stab wounds, a number of GIF-positive reactive astrocytes were detected around the wounds at 3 days postoperation. After 7 days GIF immunoreactivity was detected in cell bodies and processes of reactive astrocytes. The number of GIF-positive astrocytes and the intensity of the immunoreactivity remained elevated over the control levels at least through 28 days. These immunocytochemical findings correlated well with changes in GIF protein and mRNA levels. Not only changes in GIF protein and mRNA levels but also intracellular localization of GIF in normal rat brain and after stab wounds in rat brain were different from those of GFAP. These results support the concept that GIF plays an important role in the processing of reconstruction after brain damage.

Patterns of growth inhibitory factor (GIF) and glial fibrillary acidic protein relative level changes differ following left middle cerebral artery occlusion in rats

Growth inhibitory factor (GIF) has been identified as a new metallothionein-like protein, the level of which is decreased in the Alzheimer's disease brain. GIF and glial fibrillary acidic protein (GFAP) have been reported to be expressed in reactive astrocytes in the rat brain following stab wounds. Moreover, strong expression of GIF mRNA in reactive astrocytes after ventricular injection of kainic acid has been demonstrated. To clarify the biological functions of GIF and GFAP in repair of the CNS, we examined changes in their relative levels to sham control using a Western blotting technique in the rat left hemisphere following occlusion of the left middle cerebral artery, for 28 days after surgery. The GIF relative level declined to 56% of the sham-operated control value on day 7. Thereafter the GIF relative level increased and returned to the normal relative level by days 21-28. The GFAP relative level increased from day 3 and reached a maximum of 120% of the sham-operated control value on days 14-21. While GIF and GFAP were both detected in reactive astrocytes, an increase in the GFAP relative level occurred prior to an increase in GIF relative level following the ischemia. The patterns of changes in relative expression levels of GIF and GFAP were quite similar to those in our previous studies on effects of cerebral stab wounds in rats, although the changes were more rapid in the previous studies. GIF and GFAP appear to play different roles in the repair of the CNS. The present results also indicated that GIF could play an important role in CNS repair after cerebral ischemia and provide new insights into the mechanism of gliosis investigated mainly from the viewpoint of GFAP.

Changes of growth inhibitory factor after stab wounds in rat brain

The growth inhibitory factor (GIF) is a new metallothionein (MT)-like protein that is downregulated in Alzheimer's disease (AD) brain. The biological function of GIF has not been fully clarified yet. We have raised an antibody to the synthetic polypeptide that is specific for rat GIF. The purified antibody reacted to recombinant GIF and native rat GIF but not to MT or maltose-binding protein. Using the antibody and GIF cDNA probe, we investigated changes of GIF and GIF mRNA by Western and Northern blotting techniques in rat brains after stab wounds. The levels of GIF and GIF mRNA began to increase 4 days postoperation, reached a maximum at 14-21 days and sustained the increased level at least through 28 days. While both glial fibrillary acidic protein (GFAP) and GIF were recognized in astrocytes, the increases of these 2 proteins after stab wounds showed different patterns. The results indicated that GIF could play an important role in the repair after brain damage and also produce new insights into the mechanism of gliosis investigated mainly from the viewpoint of GFAP.

Expression of growth inhibitory factor (GIF) in normal and injured rat brains

Immunohistochemical study on growth inhibitory factor (GIF) in rat brain has revealed that a glial cell layer on the surface of cerebral cortex and the cells surrounding Purkinje cells has been reported. In addition, neurons in gray matter were weakly immunostained for GIF. In situ hybridization using digoxigenin-labeled single-strand RNA probes also demonstrated that most of the neurons and small round cells, which were presumably astrocytes, expressed GIF mRNA in the cerebral cortex of rat brain. These findings indicate that GIF is produced in neurons as well as in astrocytes. The most prominent findings in this study are, a very strong reaction of GIF and GIF mRNA in the reactive astrocytes around the site of injury induced by stab wound or kainic acid injection. These results raised the possibility that GIF may act as an acute-phase protein in reactive astrocytes and have a role in tissue repair.

Identification of the neurotrophic factor sequence of prosaposin

Prosaposin, recently identified as a neurotrophic factor (1), is the precursor of saposins A, B, C, and D. The neurotrophic activity of prosaposin resides in the saposin C domain. We have pinpointed the active sequence to a linear 12-mer located in the NH2-terminal sequence of saposin C (LIDNNKTEKEIL). Nanomolar concentrations of a 22-mer peptide encompassing this region stimulated neurite outgrowth and choline acetyltransferase activity, and prevented cell death in neuroblastoma cells. In primary cerebellar granule cells, the 22-mer also stimulated neurite outgroth. Studies of the neuroblastoma line NS20Y using a radiolabeled 18-mer from the neurotrophic region identified a high-affinity (Kd = 70 pM) binding site indicative of receptor-ligand interaction. The 22-mer stimulated protein phosphorylation of several proteins, some of which were tyrosine-phosphorylated after brief exposure similar to saposin C. Circular dichroism studies demonstrated that the 22-mer was converted from a random to a helical structure by addition of ganglioside GM1. The results are consistent with receptor-ligand binding by the peptide initiating a signal transduction cascade and resulting in neuronal differentiation.

Hypometabolism and dipole localization in hemimegalencephaly: a case report

A case of hemimegalencephaly was studied by means of neuroimaging (CT, MRI and PET) and magnetoencephalography (MEG). Hemimegalencephaly (HM) is a neuronal migration disorder. This is the first report of evaluation of HM with the use of PET and MEG from not only the morphological but also the functional point of view. PET with 11C-glucose showed a low radioactive concentration in the affected hemisphere, which suggested a metabolic deficit. MEG proved the epileptic foci existed mainly in the affected hemisphere, especially around a heterotopia and the pachygyric cortex, which was disclosed on MRI.

Identification of prosaposin as a neurotrophic factor

Prosaposin was identified as a neurotrophic factor stimulating neurite outgrowth in murine neuroblastoma (NS20Y) cells and choline acetyltransferase (ChAT) activity in human neuroblastoma (SK-N-MC) cells. The four naturally occurring saposins, which are derived by proteolytic processing of prosaposin, were tested for activity. Saposin C was found to be active, whereas saposins A, B, and D were inactive as neurotrophic factors. Dose-response curves demonstrated that nanomolar concentrations of prosaposin and saposin C stimulated neurite outgrowth and increased ChAT activity. Prosaposin and saposin C exerted activity by a mechanism independent of nerve growth factor, brain-derived neurotrophic factor, and neurotrophin 3. Binding assays utilizing saposin C as a ligand gave two saturable binding constants, a high-affinity (Kd = 19 pM) and a low-affinity (Kd = 1 nM) constant, with 2000 and 15,000 sites per NS20Y cell, respectively. Phosphorylation stimulation experiments demonstrated that brief treatment with prosaposin or saposin C enhanced phosphorylation of a variety of proteins, some of which contained phosphorylated tyrosine(s). Since both cell lines were also stimulated by ciliary neurotrophic factor (CNTF) as well as prosaposin, inhibition was tested by utilizing an anti-gp130 monoclonal antibody, which specifically inhibited CNTF stimulation; this antibody did not inhibit prosaposin or saposin C stimulation. These results indicate that prosaposin and saposin C are neurotrophic factors which initiate signal transduction by binding to a high-affinity receptor that induces protein phosphorylation.

The role of the conserved residue in pocket A and the polymorphic residue in pocket E of HLA-B*3501 in presentation of human minor histocompatibility peptides to T cells

We investigated T cell recognition for human minor histocompatibility (hmH) peptides using HLA-B*3501 restricted, hmH specific cytotoxic T lymphocytes (CTL) clones. These CTL clones killed C1R cells expressing HLA-B*3501 but not C1R cells expressing chimeric antigens between HLA-B*3501 and HLA-B*5101. They also failed to kill C1R cells expressing HLA-B*3501 mutants at residue 152 (B*3501-V152E) or at residue 171 (B*3501-Y171H). The CTL clone failed to kill C1R cells expressing these mutant molecules loaded with the hmH peptides isolated from C1R-B*3501 cells although it killed a self-B cell line expressing HLA-B3501 loaded with the specific hmH peptides. The CTL clone also failed to kill T2 cells expressing the mutant molecules loaded with the specific peptides whereas it killed T2 cells expressing HLA-B*3501 loaded with the specific peptide. On the other hand, naturally occurring specific hmH peptides were isolated from purified B*3501-V152E and B*3501-Y171H molecules, indicating that both HLA-B*3501-V152E and HLA-B*3501-Y171H molecules can bind the hmH peptides. These findings indicate that both the conserved residue 171 in pocket A and the polymorphic residue 152 in pocket E are critical in recognition of the T cells but not binding of the hmH peptides. Furthermore, these results provide the possibility that the TCR recognizes a conformational structure of hmH peptides bound to HLA-B*3501 molecules.

Occurrence of prosaposin as a neuronal surface membrane component

Prosaposin is a precursor of four saposins that are required for the lysosomal hydrolysis of sphingolipids by specific hydrolases. Besides its precursor role, prosaposin also exists as a secreted protein. The present investigation reveals that prosaposin also exists as an integral component of the surface membranes of neuronal cells. Subcellular fractionation studies demonstrate that the membrane-bound prosaposin occurs specifically in plasma membranes of NS20Y rat neuroblastoma cells. An immunohistochemical study of the neuroblastoma cells using rat prosaposin-specific antibodies also showed that a portion of prosaposin is located on the surface of neurites as well as on cell bodies. Similar histochemical studies with antibodies that specifically recognized human prosaposin revealed the presence of prosaposin in dendrites, axons, and cell bodies of subcortical and spinal cord neurons in both human adult brain and in fetal brain (24-wk gestation). These findings suggest an important role of prosaposin in neuronal development.

Activation of human lysosomal sialidase

An acid sialidase [EC 3.2.1.18], partially purified from human placenta by Con A-Sepharose adsorption and p-aminophenyl thio-beta-D-galactoside-CH-Sepharose (PATG-Sepharose) affinity chromatographies, was activated by incubation at 37 degrees C. This activation showed both time and temperature dependencies, with the most effective activation observed at 37 degrees C in the pH range between 4.3 and 5.2. The influence of various protease inhibitors on its activation was investigated. Among the protease inhibitors tested, amastatin, an inhibitor of aminopeptidase A, significantly inhibited activation. The partially purified enzyme preparation contained aminopeptidase activity, which was inhibited by amastatin. Zinc ions inhibited either the activation of sialidase or the aminopeptidase activity in the enzyme preparation. These results suggest the possibility of participation of aminopeptidase function in the activation process of sialidase.

[Long-term results and indications of intraurethral stents in elderly patients with prostatic hypertrophy complaining of urinary retention]

Thirty-two elderly male patients with benign prostatic hypertrophy complaining of urinary retention were treated by polyurethane intraurethral stents. All of them were unfit for prostatic surgery due to the presence of several complications, and had been indwelt with a urethral balloon catheter. Cystometry before stent insertion was performed in 23 of the 32 patients. Eleven patients showed overactive bladder, 5 patients normal bladder, and 7 patients underactive bladder. Duration of stent indwelling ranged from 2 days to 22 months (mean 6.7 months), and stent could successfully function for more than 6 months in 20 of the 32 patients (62.5%). Nine of these 20 patients (45%) could keep continence of urine, and urinary tract infections improved in 7 of these 20 patients (35%). The stent failed in 4 of the 5 patients who had had previous operations for prostatic hypertrophy. In a comparison of the findings of urodynamic study prior to insertion of stent with the results of the stent, the results were significantly better in the patients with overactive or normal bladder than in those with underactive bladder (p < 0.05, chi-square test). Bladder stone formation was found in one patient and was the only complication among the 32 patients. In conclusion, stent placement without incontinence or urinary tract infection can be successful for more than 6 months in patients who do not have an underactive bladder and who had not had a previous prostatic operation.

Binding of cerebrosides and sulfatides to saposins A-D

Saposins are a family of four small glycoproteins, all of which are derived from prosaposin, and are involved in the lysosomal hydrolysis of various sphingolipids. Results from this investigation demonstrate that saposins A-D bind to galactosyl- and glucosylceramide. The binding was highly dependent on the solution pH; maximum binding of glucosylceramide to all saposins occurred at pH 7. Maximum binding of galactosylceramide to saposins B and D occurred at a more basic pH (8.5). The binding of glucosylceramide to saposins was significantly inhibited by Mg2+, Ca2+, or Zn2+. Although maximum binding of sulfatide to saposins A, C, and D occurred at acidic pH, the binding to saposin B was maximum at pH 8.5. Saposin A also bound sphingomyelin or phosphatidylcholine at neutral pH. No significant binding was evident between these lipids and saposins B-D at any pH value. The existence of saposin-lipid complexes was further confirmed in selected samples by gel filtration, isoelectric focusing, and a TLC binding assay. We have also shown that galactosylceramide bound to saposins A-D was efficiently transported to a rat brain microsomal fraction. This result suggests that saposins and possibly their precursor, prosaposin, may be involved in membrane biogenesis such as the assembly of myelin and plasma membranes.

Isolation, characterization, and proteolysis of human prosaposin, the precursor of saposins (sphingolipid activator proteins)

Prosaposin contains separate domains in tandem for four saposins, A, B, C, and D. These mature saposins are produced by limited proteolysis of prosaposin. They are involved in lysosomal hydrolysis of GM1 ganglioside, gluco- and galactocerebrosides, sulfatides, and sphingomyelin and other sphingolipids. Prosaposin also exists as a secretory protein in body fluids. In this investigation prosaposin was expressed in Spodoptera frugiperda cells (Sf9) by infection with baculovirus containing a full length cDNA coding for human prosaposin. Prosaposin was isolated and purified from spent culture medium of the recombinant Sf9 cell cultures as well as from human seminal plasma and milk. From sodium dodecyl sulfate-polyacrylamide gel electrophoresis, the molecular weight of both native human prosaposins is estimated to be 66 kDa and that of recombinant prosaposin as 58 kDa. Deglycosylation of native and recombinant prosaposins yielded a protein with a molecular weight of 54 kDa and isoelectric point of 5.4. The N-terminal sequence of both native and recombinant prosaposins was identical (G-P-V-L-L-G-L-K). Like mature saposins, all prosaposins possessed stimulative activity for cerebroside beta-glucosidase (saposins A and C activity), GM1 ganglioside beta-galactosidase (saposin B activity), and sphingomyelinase (saposin D activity) but not sulfatide sulfatase (saposin B activity). Partially proteolyzed products derived from prosaposins were isolated and identified. From seminal plasma, two proteins of 48 and 29 kDa and from Sf9 culture media, two proteins of 39 and 26 kDa were characterized. N-terminal amino acid sequencing and Western blot analysis of each protein indicated that the 39-and 48-kDa proteins are cleavage products containing domains for saposins B, C, and D (trisaposins), and the 26- and 29-kDa proteins are cleavage products containing domains for saposins C and D (disaposin). These observations suggest that proteolysis of prosaposin in these tissues occurs sequentially from the N-terminal region. Proteins involved in the initial proteolysis of prosaposin were partially characterized in human testis.

The effect of carbohydrate removal on stability and activity of saposin B

Saposin B is involved in the hydrolysis of sulfatides, GM1 ganglioside, globotriaosylceramide, and several other sphingolipids and glycerolipids by lysosomal hydrolases. Saposin B is one of four small glycoproteins (saposins) derived from prosaposin. The carbohydrate chain of saposin B was removed and deglycosylated saposin B was characterized and compared with native saposin B. Deglycosylated saposin B stimulated the enzymatic hydrolysis of ganglioside GM1 by acid beta-galactosidase and sulfatide by arylsulfatase A to the same extent as native saposin B. In addition deglycosylated saposin B bound sulfatide and GM1 ganglioside identical to native saposin B. The stability of native saposin B to proteolytic digestion was unchanged by deglycosylation. Neither native saposin B nor deglycosylated saposin B were hydrolyzed by trypsin, endoproteinase Glu-C (V-8), chymotrypsin, or a mixture of acid proteases isolated from human testis. Unlike its effect on metabolic stability, the carbohydrate chain appears to affect folding of saposin B. When native and deglycosylated saposin B were reduced under denaturing conditions and refolded under identical conditions examination of the refolded products indicated that each protein was refolded in a qualitatively different way. A human mutation in saposin B-deficient metachromatic leukodystrophy, in which its glycosylation site is eliminated, has been reported. Our observations suggest that instability of the mutated saposin B is not due to the absence of a protective effect of the carbohydrate chain on proteolysis, but is likely due to aberrant folding resulting from the absence of a carbohydrate chain.

Effects of cyclodextrins on the hydrolysis of ganglioside GM1 by acid beta-galactosidases

The hydrolysis of ganglioside GM1 by acid beta-galactosidases was greatly enhanced by the inclusion of heptakis(2,6-di-O-methyl)-beta-cyclodextrin or alpha-cyclodextrin in the assay mixture. The other cyclodextrins tested were not effective. The extent of stimulation by these cyclodextrins was relatively smaller than those by taurodeoxycholate and taurochenodeoxycholate. However, it is suggested that stimulation by bile salts may be partly a reflection of the detergent effects of bile salts on GM1 and partly a reflection of the interaction between bile salts and the enzyme itself. On the other hand, the stimulation by the cyclodextrins seems to correlate to the formation of an inclusion complex between GM1 and cyclodextrin without enzyme protein interaction.

Purification and characterization of an alpha-L-fucosidase from Pomacea canaliculata

An alpha-L-fucosidase (EC 3.2.1.51) was isolated from the hepatopancreas of Pomacea canaliculata. The enzyme was purified 285-fold from the crude enzyme extract by procedures involving first heat treatment, ammonium sulfate fractionation, second heat treatment, and chromatography on DEAE-Sepharose, hydroxylapatite, and L-fucosylamine-CH-Sepharose. When assayed by using p-nitrophenyl glycosides as substrates, the final preparation was free from other glycosidase activities and gave a single protein band which corresponded to alpha-L-fucosidase activity on disc gel electrophoresis. The molecular weight of the enzyme was estimated to be 260,000 by Sephacryl S-300 column chromatography. The enzyme has two optimum pH values, 2.5 and 5.0, and the apparent Km value and the maximum velocity for p-nitrophenyl alpha-L-fucoside at both pH were calculated to be 0.45 mM and 1.46 mumol/min/mg of protein, respectively. The enzyme was shown to hydrolyze the Fuc alpha 1-->2Gal, the Fuc alpha 1-->4GlcNAc, and the Fuc alpha 1-->6GlcNAc linkages, but hardly acts on the Fuc alpha 1-->3GlcNAc linkage in various oligosaccharides.

Effect of saposins on acid sphingomyelinase

The effect of saposins (A, B, C and D) on acid sphingomyelinase activity was determined using a crude human kidney sphingomyelinase preparation and a purified sphingomyelinase preparation from human placenta. Saposin D stimulated the activity of the crude enzyme by increasing its apparent Km and Vmax. values for sphingomyelin hydrolysis. Unlike the crude enzyme, the activity of the purified enzyme was strongly inhibited by saposin D as well as other saposins. Saposin D decreased the apparent Km and Vmax values of purified sphingomyelinase activity. The effects of saposin D on the activity of different sphingomyelinase preparations appear to depend on Triton X-100, which is present in the crude enzyme but not in the purified enzyme. When the detergent was removed from the crude preparation, the effect of saposin D changed from being stimulatory to inhibitory. Conversely, when the detergent is added to the purified enzyme, the effect of saposin D on sphingomyelinase activity changed from being inhibitory to stimulatory. While other saposins were inhibitory or had no effect on sphingomyelinase activity in the above assay system, not only saposin D but also saposins A and C exhibited a stimulatory effect upon purified sphingomyelinase activity when the substrate, sphingomyelin, was added in the form of liposomes without detergent. Saposin B was not only inhibitory in the liposome system, but also reduced the stimulatory effect of saposins A, C and D. These observations indicate that the stimulatory effect of saposins A, C and D on acid sphingomyelinase activity is greatly influenced by the physical environment of the enzyme and suggest that similar effects by saposins may be exerted in lysosomal membranes.

[Cytomegalovirus]

Since human cytomegalovirus (CMV) was discovered in 1950's the clinical pictures of CMV infection have been emphasized. During recent 30 years, the diagnosis and therapy of CMV infection have significantly progressed. Especially the diagnostic techniques developed from serum titers (complemental fixation) to PCR (polymerase chain reaction). Concerning the relation between CMV and neurological disorders of childhood, congenital CMV infection, classically called as cytomegalic inclusion disease, is still one of the most serious and important disorders, because the effective treatment and prophylactic method is not established. Most of symptomatic babies with congenital CMV infection disclose severe developmental handicap from infancy or expire during the neonatal period. In Japan, it is thought that 300-500 babies are born with symptoms of congenital CMV infection, annually. Infantile spasms (IS) is known as an intractable epilepsy with onset during infancy and its pathogenesis has been discussed for the relationship to CMV. Recently, Mashima (1992) discovered CMV-DNA from cerebrospinal fluid specimen of an IS baby, using PCR. This evidence strongly suggest the invasion of CMV to the central nervous system of the IS baby. In IS, adding to the pathogenetic problems, the ACTH therapy is frequently applied and it is known to accelerate the potential of CMV infection. Then, when treating IS babies having CMV infection, a closed observation and/or antiviral treatment shall be considered. In other epileptic disorders, Powers (1992) reported that CMV-DNA was discovered from 7 of 10 patients with Rasmussen syndrome. It is expected the role of CMV in various neurological disorders will be clarified, using newly developing techniques.

Binding and transport of gangliosides by prosaposin

Prosaposin, the precursor of saposins A, B, C, and D, which activate lysosomal hydrolysis of sphingolipids, exists in various tissues and body fluids and is especially abundant in the nervous system. Prosaposin and saposins A,B, C, and D formed stable complexes with 13 different gangliosides as measured by an assay using column chromatography. Gangliosides of the gangliotetraose type (a series) were bound with high affinity, whereas b series gangliosides, O-acetylated gangliosides, and gangliosides with shorter carbohydrate chains, were bound with lower affinity. Prosaposin and saposins transferred gangliosides from donor liposomes to erythrocyte ghost membranes. Prosaposin also stimulated ganglioside GM1 beta-galactosidase more than mature saposins. Prosaposin exists as a secretory protein and as an integral membrane protein, and we propose that prosaposin is active as a ganglioside binding and transport protein in vivo.

Two subtypes of HLA-B51 differing by substitution at position 171 of the alpha 2 helix

Newly defined antigens of the B5, B35 cross-reacting group have been found in Japanese and North American Indians. Nucleotide sequencing of the alleles encoding the Japanese B5.35 antigen and the variant B5 antigen from the Piman Indians show them to be identical. This new allele, B*5102, differs from B*5101 by a single nucleotide substitution that changes residue 171 from histidine to tyrosine. Residue 171, which is part of the alpha 2 helix, is believed to contribute directly to peptide interaction in the A pocket of the binding groove and is either histidine or tyrosine in all HLA-A, B, C heavy chains. Tyrosine 171 is shared by B*5102, B*3501, B*3502, and B*5301 and must be responsible for the serological cross-reactivities of these molecules not shared with B*5101. Stimulation of lymphocytes from a B*5101 positive donor with B*5102 positive cells failed to generate cytotoxic T cells with specificity for the difference between these molecules. However, one out of five clones of cytotoxic T cells raised against B*5101 failed to lyse targets expressing B*5102. Substitution of histidine for tyrosine at residue 171 affected recognition of HLA-B35-restricted human minor histocompatibility antigen-specific T cell clones.

Saposins: structure, function, distribution, and molecular genetics

Saposins A, B, C, and D are small heat-stable glycoproteins derived from a common precursor protein, prosaposin. These mature saposins, as well as prosaposin, activate several lysosomal hydrolases involved in the metabolism of various sphingolipids. All four saposins are structurally similar to one another including placement of six cysteines, a glycosylation site, and conserved prolines in identical positions. In spite of the structural similarities, the specificity and mode of activation of sphingolipid hydrolases differs among individual saposins. Saposins appear to be lysosomal proteins, exerting their action upon lysosomal hydrolases. Prosaposin is a 70 kDa glycoprotein containing four domains, one for each saposin, placed in tandem. Prosaposin is proteolytically processed to saposins A, B, C and D, apparently within lysosomes. However, prosaposin also exists as an integral membrane protein not destined for lysosomal entry and exists uncleaved in many biological fluids such as seminal plasma, human milk, and cerebrospinal fluid, where it appears to have a different function. The physiological significance of saposins is underlined by their accumulation in tissues of lysosomal storage disease patients and the occurrence of sphingolipidosis due to mutations in the prosaposin gene. This review presents an overview of the occurrence, structure and function of these saposin proteins.

Long-term Indwelling intraurethral catheters in elderly patients with prostatic obstruction. What are the true indications?

From July 1990 to September 1992, 32 elderly male patients with benign prostatic hypertrophy complaining of chronic urinary retention were treated with polyurethane intraurethral catheters (IUC). All of them were unfit for prostatic surgery due to several complications. Indwelling lUCs were left for more than 6 months in 20 (62.5%) patients, and the longest period was 1 year and 11 months. Indwelling lUCs could not be used in patients who had undergone previous operations for prostatic hypertrophy. Comparing urodynamic study findings prior to and after insertion of the IUC results in patients with an overactive or normal bladder were significantly better than those in patients with an underactive bladder (p<0.05, chi-square test). Nine patients were urine continent, and 2 of those patients in whom an indwelling IUC could be left for more than 6 months, complained of mild urinary incontinence. Urinary tract infection disappeared in 7 patients, and improved in 11 of the 20 patients. IUC placement was successful for more than 6 months without exchange in 7 of the 20 patients. Bladder stone formation was found in one patient and was the only complication in these 20 patients. In conclusion, IUC placement can be successful for more than 6 months in patients without underactive bladder or previous prostatic operation.