Somatic cell-germ cell relationships in mammalian testes during development and spermatogenesis

In the mammalian testis, somatic cells under hormonal regulation greatly influence the different stages of spermatogenesis, both in intermittent breeders and in animals which produce sperm continuously. In turn, specific populations of germinal cells modulate the function of Sertoli cells, the chief somatic cells within mammalian seminiferous tubules. Tubule formation can take place in the absence of germinal cells. Unlike homologous granulosa cells in the ovary, Sertoli cells retain many of their usual functions in germ cell-free animals. Some of the properties of Sertoli cells and their responses to stimulation by androgens or follicle-stimulating hormone are dependent upon information transmitted from neighbouring germinal cells at specific stages of the cycle of the seminiferous epithelium. We review the roles of some of the growth factors and paracrine agents synthesized and secreted by different classes of testicular cells. The potential roles of some of the known factors secreted by Sertoli cells (e.g. activin, inhibin, anti-Müllerian hormones, TGF-beta and somatomedin C) are considered in relation to the control of tubule formation, spermatogonial proliferation and cytodifferentiation, meiosis and the subsequent stages of spermatogenesis. We stress the importance of the unique tubule cytoarchitecture within which cell interactions take place and the changing nature of this cytoarchitecture at different stages of gonadal maturation.

Preliminary characterization of glial-secreted factors responsible for the induction of high electrical resistances across endothelial monolayers in a blood-brain barrier model

Factors secreted by C6 glioma cells which induce electrical resistances across endothelial monolayers in an in vitro blood-brain barrier model have been partially characterised for the first time. These transendothelial electrical resistances (TEERs) were only evident when cell-free conditioned medium derived from C6 glioma cells was applied to the basolateral surfaces of confluent ECV304 or ECV304-9 cells which are both human umbilical vein endothelial cell lines (HUVEC). Electrical resistance values as high as 600 ohm. sq cm were obtained with this blood-brain barrier model and ultrafiltration techniques suggest that any factor(s) in the conditioned medium responsible for these TEERs have molecular masses of less than 1000 Da. Enzymic proteolysis and heat treatment carried out on the conditioned medium failed to inhibit its effect on the HUVEC monolayers suggesting that these C6 cell-secreted factors are unlikely to be proteins.

Effects of overproduction of the catalytic domain of 3-hydroxy-3-methylglutaryl coenzyme A reductase on squalene synthesis in Saccharomyces cerevisiae

The enzyme 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase (HMG-R) is the major rate-limiting enzyme of the mevalonate pathway in many organisms, including yeasts. In the yeast Saccharomyces cerevisiae, there are two isoenzymes of HMG-R (Hmg1p and Hmg2p). Both consist of an anchoring transmembrane domain and a catalytic domain. We have removed the known controlling features of HMG-R by overproducing the catalytic domain of Hmg1p. This overproduction leads to an enhancement of squalene production, implying that HMG-R has been deregulated. The enhancement is apparent under semianaerobic and aerobic conditions. Despite the increase in squalene production, the amount of ergosterol produced by the HMG-R-overproducing yeast was not increased. This result suggests the presence of another regulatory step between squalene and ergosterol formation. Squalene levels generated by cells overproducing the catalytic domain of HMG-R were estimated to be up to 10 times those produced by wild-type cells. The enhancement in squalene production coincided with a reduction in growth rate. This reduction may be a direct consequence of the buildup of high concentrations of squalene and presqualene intermediates of the pathway.

Properties of an immortalised vascular endothelial/glioma cell co-culture model of the blood-brain barrier

In an effort to obtain a useful in vitro model possessing some of the properties of the blood-brain barrier, we have investigated the properties and interactions of immortalized cell lines. Immortalised human umbilical vein endothelial cells (HUVEC-304), in co-culture with rat C6 glioma cells in a two-chambered assembly, form tight junctional complexes, and develop a permeability barrier having a high transcellular electrical resistance. The endothelial cells generate a barrier with greatest integrity in the presence of glioma cells, or in the presence of glioma cell conditioned medium. Under these conditions, the endothelial cells also display pronounced structural changes which do not occur in the absence of glioma cells. Morphological alterations include a flattening of cell shape from a cuboidal-type to a squamous-type of appearance, and a re-organization of F-actin microfilaments. The integrity of the barrier can be reversibly disrupted by osmotic shock or by tumor necrosis factor-alpha (TNF-alpha). We interpret these observations to indicate that co-cultures of immortalized vascular endothelial and C6 glioma cells provide a model for the investigation of cell-cell interactions required for the generation of a barrier having several properties of the blood-brain barrier.

Nitric oxide-induced perturbations in a cell culture model of the blood-brain barrier

The actions of an intracellular nitric oxide generator compound on the properties of a co-culture model of the blood-brain barrier are described. Addition of the iron-sulphur cluster nitrosyl Roussin's black salt (RBS, heptanitrosyl-tri-mu3-thioxotetraferrate (1-)) resulted in a rapid and dose-dependent (50-250 microM) decline in the electrical resistance displayed by co-cultures of vascular endothelial cells and C6 glioma cells. The breach in barrier integrity elicited by RBS (250 microM) could be prevented by either haemoglobin (100 microM), methylene blue (200 microM), or by photon-induced inactivation of RBS. In contrast, the nitric oxide synthase inhibitor nitro-L-arginine methyl ester (250 microM) caused no inhibition in the decline in resistance of RBS-exposed cultures. Addition of 8-bromo-guanosine-cyclic monophosphate (500 microM) did not mimic the actions of RBS. Exposure to intense light of co-cultures manifesting a high transcellular electrical resistance resulted in a reduction in tissue resistance which could be prevented by the presence of haemoglobin (100 microM). We conclude that nitric oxide liberated from RBS results in a reversible diminution in the integrity of the endothelial cell barrier in the co-culture system, and we suggest that light-sensitive endogenous nitric oxide generator compounds may be present in intact cells. Possible roles of nitric oxide in blood-brain-barrier function are considered.

Influences of silicates and carnitine-silicate mixtures on the inhibition of aggregation of erythrocytes elicited by the presence of fibrinogen

Carnitine and acylcarnitine derivatives have been reported to inhibit cell aggregation (Fritz and Burdzy, 1989, J. Cell. Physiol., 140:18-28). A follow-up of these observations showed that whereas the previously described effects of long-chain acylcarnitines were well replicated, those of carnitine on erythrocytes showed marked variability. The latter phenomenon was traced to the presence of silicates in carnitine solutions derived from the use of sodium hydroxide solutions stored in glass containers for the neutralization of carnitine. The present experiments have led to the discovery that oligomeric forms of silicates are powerful inhibitors of red blood cell aggregation which otherwise occurs in the presence of fibrinogen alone. The active form(s) of silicates in this assay, which appear to be generated by polymerization of silicates in metasilicate solutions on neutralization, are unstable and therefore transient under usual conditions. We estimate that the active oligomeric forms contain between 4 to 18 silicon atoms per molecule. When maintained at -18 degrees C in the presence of carnitine, but not in its absence, the active forms of oligomeric silicates remained stable for months, judging from their ability to inhibit cell aggregation. We conclude that carnitine stabilized the oligomeric form(s) of silicate, or that the species stabilized is an oligomeric silicate-carnitine complex. Comparable concentrations of choline, deoxycarnitine, or gamma-aminobutyrate were less effective in stabilizing the active silicate oligomers. The active forms of the silicate oligomers had Ki values of about 10 microM, calculated as the monomeric form, in inhibiting red blood cell aggregation. The data indicate that free carnitine does not directly inhibit erythrocyte inhibition, as previously interpreted, whereas long-chain acylcarnitine derivatives are active in the absence of silicates. Possible mechanism of actions of silicate oligomers on membranes are discussed.

Role of laminin in the morphogenetic cascade during coculture of Sertoli cells with peritubular cells

Observations summarized in this article demonstrate an essential role of laminin during the restructuring processes that occur during coculture of Sertoli cells with testicular peritubular cells. The data presented indicate that laminin becomes detectable on the free surfaces of Sertoli cells only after reaggregation of Sertoli cells begins, coincident with the initiation of repolarization at a specific stage of the morphogenetic cascade. We infer that laminin deposited at this time serves as a cohesion molecule that permits peritubular cells to come into close contact with Sertoli cells and subsequently to spread along the free surfaces of Sertoli cells. These conclusions and inferences are based on the following experiments. Cycloheximide-treated peritubular cells in culture in MEM containing cycloheximide readily attach to laminin-coated polystyrene surfaces. By contrast, added peritubular cells do not attach onto monolayers of Sertoli cells in monoculture or onto Sertoli cells plated on top of peritubular cells and maintained in coculture for periods of up to 48 h. In cocultures maintained for 6 days, however, labeled peritubular cells readily adhere to the free surfaces of reaggregated Sertoli cells. Laminin, but not fibronectin, appears on the free surfaces of the reaggregated Sertoli cells at this time, coinciding with the period of initial mound formation. The addition of antilaminin IgG, but not antifibronectin IgG, blocks the attachment of cycloheximide-treated peritubular cells to laminin-coated plates and also blocks the subsequent migration of peritubular cells required to form a monolayer. Similarly, anti-laminin IgG inhibits the attachment and spreading of labeled peritubular cells seeded on the free surfaces of reaggregated Sertoli cells in mounds generated during the morphogenetic cascade. We interpret the combined data to indicate that the appearance of laminin on the free surfaces of Sertoli cells is required to permit peritubular cells to adhere and subsequently to migrate on Sertoli cell surfaces, resulting in the formation of a tubule-like structure.

Sites of action of carnitine and its derivatives on the cardiovascular system: interactions with membranes

Carnitine plays an essential role in the regulation of long-chain fatty acid metabolism in skeletal and cardiac muscle, a process that is mediated by well-characterized enzymatic mechanisms. Here, Irving Fritz and Edoardo Arrigoni-Martelli review the evidence that carnitine and its O-acyl derivatives also influence membrane fluidity, ion channel functions, smooth muscle contractility, membrane stability and cardiac functions. The authors present the view that direct interactions of carnitine derivatives with cell membranes are independent of reactions catalysed by carnitine acyltransferases. They propose that the novel actions discussed are implicated in the mechanisms by which carnitine and its derivatives protect perfused hearts subjected to ischaemia or to oxidative stress, and help people suffering from certain types of myocardial ischaemia or peripheral arterial disease.

Interactions of Sertoli cells with laminin are essential to maintain integrity of the cytoskeleton and barrier functions of cells in culture in the two-chambered assembly

The addition of anti-laminin IgG to the basal surfaces of rat Sertoli cells in culture in a two-chambered assembly results in a perturbation of F-actin arrangements, including disruption of the pericellular circumferal rings, impairments of the Sertoli cell permeability barrier, and subsequently focal defoliation, followed by cell reaggregation. The pentapeptide YIGSR, which competes with the laminin receptor for laminin (Kleinman and Weeks: Curr. Oph. Cell Biol., 1:964-967, 1989; Graf et al.: Biochemistry, 26:6896-6900, 1987) also elicited focal defoliation of Sertoli cells from the extracellular matrix-coated filter in the two-chambered assembly. Addition of YIGSR to Sertoli cell cultures resulted in cell detachment within 2 to 3 h. In contrast, the irrelevant peptide YIGSE had no detectable effects. The anti-laminin IgG was effective only when added to the chamber in which access was readily available to the basal surfaces of Sertoli cells, but YIGSR was effective when added either to the outer chamber or to the inner chamber. These data were interpreted to indicate that the Sertoli cell barrier generated in the two-chambered assembly allowed a relatively rapid diffusion of YIGSR between chambers, but prevented the rapid equilibration of anti-laminin IgG between compartments. Addition of anti-laminin IgG to the basal, but not to the apical surfaces of Sertoli cells, resulted in more rapid rates of equilibration of [3H]-methoxyinulin and [86Rb]Cl across the Sertoli cell monolayer. This evidence of impairment to the integrity of the barrier was detected prior to the disruption of stress fibers and focal defoliation, but after evidence of dissolution of the circumferal F-actin ring, which occurred within 1 h after addition of anti-laminin IgG. We consider the possibility that a transmembrane link exists between extracellular laminin and cytoskeletal elements which modulates the circumferal F-actin ring. We further postulate that this linkage can influence the nature of tight junctional complexes, and thereby the integrity of the Sertoli cell barrier.

Proteases are implicated in the changes in the Sertoli cell cytoskeleton elicited by follicle-stimulating hormone or by dibutyryl cyclic AMP

Follicle-stimulating hormone (FSH) or dibutyryl cyclic AMP (dbcAMP) elicits striking morphological changes in Sertoli cells in culture in serum-free medium, resulting in a transition from an epithelial type of cell association pattern to that of an astrocytic or fibroblast-like cell, with attenuated cytoplasmic extensions between cells, and with diminished F-actin stained stress fibers. These responses of Sertoli cells do not occur in the presence of normal untreated serum, but they do take place in the presence of acid-treated serum which is depleted of antiproteases. The addition of alpha 2-macroglobulin to serum-free medium or to antiprotease-depleted serum resulted in the blockage of morphological responses of Sertoli cells to FSH or to dbcAMP. Changes in pattern of arrangements of F-actin in Sertoli cells in culture, which occur in response to FSH or to dbcAMP, were also prevented by the presence of alpha 2-macroglobulin. Thus, the diminution in bundles of F-actin containing stress fibers, which otherwise takes place in Sertoli cells stimulated by FSH or by dbcAMP, did not occur in cells in culture in the presence of alpha 2-macroglobulin, in the presence or absence of acid-treated serum. The inhibiting effects of dbcAMP on the migration of Sertoli cells in serum-free medium became nondetectable in medium containing normal untreated serum, but remained evident in Sertoli cells in culture in medium containing acid-treated serum depleted of antiproteases. Addition of alpha 2-macroglobulin blocked the inhibitory effects of dbcAMP on Sertoli cell migration. Similarly, the presence of alpha 2-macroglobulin prevented the inhibitory effects of dbcAMP on the contractility of TM4 cells which had been embedded in collagen type-I and incubated in serum-free medium. We discuss the possibility that cellular proteases may be implicated in the disintegration of microfilament bundles, either by favoring depolymerization of actin filaments; by facilitating breakage of the link of the transmembrane molecular assembly between cytoskeletal extracellular matrix components; or by catalyzing a disruption of the modular organization of one or more of the actin cross-linking proteins. By inference, we postulate that morphological responses of Sertoli cells to FSH require the activation of cellular proteases for one or more of these reactions, and that alpha 2-macroglobulin blocks the Sertoli cell morphological responses to FSH by inhibiting the proteases involved.

Competition between cell-substratum interactions and cell-cell interactions

Clusterin, a glycoprotein which elicits the aggregation of a wide variety of cells (Fritz, I. B., and Burdy, K.:J. Cell Physiol., 140:18-28, 1989), has been utilized to investigate some of the factors modulating the competition between cell-substratum interactions and cell-cell interactions. We compared the responses to clusterin by anchorage-independent cells (erythrocytes) with those by anchorage-dependent TM4 cells (a cell line derived from neonatal mouse testis cells). Cells were maintained in culture in the presence of various substrata chosen to enhance cell-substratum interactions (laminin-coated wells), or to diminish cell-substratum interactions (agarose-coated wells). Results obtained showed that the aggregation of erythrocytes elicited by clusterin was independent of the nature of the substratum. In contrast, clusterin addition resulted in aggregation of anchorage-dependent TM4 cells only when TM4 cell-substratum interactions were weak. Thus, clusterin did not aggregate TM4 cells plated upon a laminin substratum, but readily aggregated TM4 cells plated upon an agarose-coated substratum, independent of the sequence of addition of cells and clusterin to the culture dish. We utilized YIGSR, a peptide which competes with laminin for laminin receptors, to determine the possible role of laminin receptors on TM4 cells in the competition between cell-substratum interactions and cell-cell interactions. The presence of YIGSR did not alter responses of erythrocytes to clusterin under all conditions examined. In contrast, the responses of TM4 cells to clusterin were greatly changed. YIGSR addition resulted in the inhibition of aggregation of TM4 cells otherwise elicited by clusterin. YIGSR also prevented attachment of TM4 cells to a laminin-coated surface, but this was reversed by the presence of clusterin. We discuss the possible roles of clusterin and laminin in altering the balance in the competition between cell to cell interactions and cell to substratum interactions.

Inhibition of cell-cell adhesion and morphogenesis of Dictyostelium by carnitine

Carnitine (gamma-trimethylammonium beta-hydroxy-butyric acid) possesses the novel property of preventing cell aggregation elicited by clusterin or by fibrinogen (I.B. Fritz and K. Burdzy, J. Cell. Physiol., 140:18-28 [1989]). In investigations reported here, we show that carnitine also affects cell-cell adhesion in Dictyostelium discoideum, a cellular slime mold whose cells interact in specific and complex manners during discrete stages of development. Two types of cell adhesion systems sequentially appear on the surface of developing Dictyostelium cells, involving the surface glycoprotein gp24 which mediates EDTA-sensitive binding sites, and the surface glycoprotein gp80 which mediates the EDTA-resistant binding sites. Addition of increasing concentrations of D(+)-carnitine and L(-)-carnitine resulted in a progressive inhibition of both the EDTA-sensitive binding sites and the EDTA-resistant binding sites of Dictyostelium cells at different stages of development. In contrast, comparable or higher concentrations of choline, acetyl-beta-methylcholine, or deoxycarnitine had no detectable effects on cell aggregation. Concentrations of carnitine required for 50% inhibition of EDTA-resistant adhesion sites were found to be dependent upon levels of gp80 expressed by Dictyostelium, with greatest inhibition by carnitine of reassociation of cells containing the lowest levels of gp80. Removal of carnitine from cells by washing resulted in the rapid restoration of the ability of Dictyostelium to form aggregates and to resume normal development. We discuss possible mechanisms by which carnitine inhibits the aggregation of cells.

Clustering of erythrocytes by fibrinogen is inhibited by carnitine: evidence that sulfhydryl groups on red blood cell membranes are involved in carnitine actions

Carnitine is bound by intact red blood cells, by red blood cell ghosts, and by glutaraldehyde-fixed human erythrocytes in a non-saturable, temperature-dependent manner. Binding of carnitine by these preparations is blocked by sulfhydryl reagents. Incubation or preincubation of red blood cell preparations with carnitine inhibits the aggregation of erythrocytes otherwise elicited by fibrinogen. Identical effects are obtained with red blood cell ghosts. In contrast, choline, even at high concentrations, is inactive in preventing the aggregation of erythrocytes. We discuss possible mechanisms by which carnitine favors the dispersion of red blood cells, and we present data indicating that sulfhydryl groups on erythrocyte membranes are required to permit these carnitine actions to be manifested.

High-resolution scanning electron micrographs of freeze-cracked cells in testes from normal and irradiated rats at different stages of gonadal development

Newly developed techniques in high-resolution scanning electron microscopy (SEM) and for tissue-processing procedures have been applied to an investigation of structures of various cells in rat testes at different stages of gonadal maturation. A series of high-resolution SEM micrographs are presented which survey the surfaces of different types of testis cells during normal development, and which also illustrate ultrastructural features of some of their intracellular organelles. In addition, a series of high-resolution SEM micrographs are presented which compare the structural features of Sertoli cells in normal testes with those in germ-cell-depleted testes obtained from rats killed at varying times after having been irradiated in utero. We describe our observations on the structural properties of surfaces and intracellular organelles in Sertoli cells, Leydig cells, peritubular myoid cells, and some classes of germinal cells. We also consider the possible role of Sertoli cell apical cytoplasmic processes in lumen formation. Similarities are pointed out between the structure of germ-cell-depleted testes, resulting from irradiation in utero, and the structure of germ-cell-depleted testes in seasonal breeders during periods of involution. Finally, we discuss advantages and disadvantages of methods employed to reveal the fine structure of intracellular organelles in cells of the testis.

Secretion of latent type IV procollagenase and active type IV collagenase by testicular cells in culture

Testicular peritubular myoid cells, which have properties similar to those of vascular smooth-muscle cells, secrete a variety of metalloproteinases when maintained in culture in a chemically defined medium. The predominant metalloproteinases secreted were identified as latent type IV procollagenases having molecular masses of 72 kDa and 75 kDa, as detected in Western immunoblots with specific antibodies against type IV procollagenase. When peritubular cells were stimulated by dibutyryl cyclic AMP, forskolin or cholera toxin, they secreted increased amounts of type IV procollagenase. However, little if any of the active type IV collagenase, having a lower molecular mass of 66 kDa, could be detected under these conditions. Addition of low concentrations of cytochalasin D to peritubular cells in monoculture resulted in conversion of the latent type IV collagenase into its active form, assessed with antibody-specificity studies and by the appearance of the 66 kDa protein. In contrast, Sertoli cells in culture did not manifest an increased conversion of type IV procollagenase into type IV collagenase in the presence of cytochalasin D, even though cytochalasin D addition invariably resulted in a disruption of the microfilament assembly in each of these gonadal somatic cell populations. When peritubular cells were co-cultured with Sertoli cells, addition of cytochalasin D no longer resulted in formation of increased amounts of the active form of type IV collagenase. Sertoli cells and peritubular cells each secreted a tissue inhibitor of metalloproteinase type 2, detected with a specific antibody in a Western immunoblot to have a molecular mass of 21 kDa. We conclude that cytochalasin D acts on mesenchymal-type peritubular cells, but not on epithelial-type Sertoli cells, to enhance the conversion of latent type IV procollagenase into active type IV collagenase. This conversion of type IV procollagenase into type IV collagenase by peritubular cells was inhibited by factor(s) secreted by Sertoli cells. Interactions between Sertoli cells and peritubular cells are postulated to modulate net proteinase activities in discrete regions of the testis.

Sertoli cells in culture secrete paracrine factor(s) that inhibit peritubular myoid cell proliferation: identification of heparinoids as likely candidates

Conditioned medium from Sertoli cells, prepared from testes of 20-day-old rats, contains component(s) that inhibit the incorporation of [3H]-thymidine into DNA of peritubular myoid cells (PMC) and inhibit the proliferation of PMC. These components are trypsin-resistant, heat-stable compounds having a molecular weight less than 30,000. The active inhibitory components in Sertoli cell conditioned medium are inactivated by treatment with heparinase, but not by treatment with hyaluronidase or chondroitin sulfate lyases. Addition of heparin or heparan sulfate results in inhibition of DNA synthesis by PMC in a dose-dependent manner, whereas other glycosaminoglycans (GAGs) examined (hyaluronic acid, keratan sulfate, and chondroitin sulfate) have no detectable effects. Heparin and heparan sulfate are unique among GAGs tested in inhibiting the characteristic multilayer growth pattern of PMC following the attainment of confluence in serum-rich medium. On the basis of these and other data presented, it is concluded that heparin and other heparin-like GAGs synthesized by Sertoli cells are implicated in the modulation of growth of PMC in vitro during co-culture. It is postulated that heparin may play a similar role in maintaining the quiescent peritubular myoid cell phenotype in vivo.

Transforming growth factor-beta and platelet-derived growth factor synergistically stimulate contraction by testicular peritubular cells in culture in serum-free medium

We report investigations on factors influencing contractility by testicular peritubular cells (PC) maintained in culture in a three-dimensional collagen gel system, and the behavior of PC in culture on a two-dimensional system. At low and moderate cell densities, PC embedded in collagen gels in serum-free Eagle's minimal essential medium (MEM) have a lesser degree of contractility than PC in culture in MEM containing calf serum. The contractility by PC, measured by determining changes in diameter of the collagen gel, was increased by addition of transforming growth factor-beta (TGF-beta) to serum-free MEM, and this was further enhanced by supplementing the medium with platelet-derived growth factor (PDGF). In the absence of TGF-beta, however, PDGF had no detectable effects on PC contractility. Other growth factors examined (epidermal growth factor, insulin, and fibroblast growth factor) did not influence the degree of contractility of PC in serum-free MEM in the presence or absence of TGF-beta. PC maintained in MEM supplemented with platelet-poor serum (PPS) have a lesser degree of contractility than their counterparts in MEM containing 2.5% calf serum. The addition of TGF-beta and PDGF to PPS-supplemented MEM restored contractility by PC to a level comparable to that observed by PC in MEM containing complete serum. The addition of nonpurified bovine serum albumin (BSA) to MEM greatly increased PC contractility. By contrast, highly purified BSA had no such effect, suggesting that one or more components adsorbed to the impure BSA was implicated. Polyclonal antibody against fibronectin did not influence the contractility of PC in collagen gels in the presence or absence of serum. Antiserum against TGF-beta partially blocked the enhancement of contractility of PC in MEM containing non-purified BSA. In PC plated on top of a collagen gel lattice, the attachment, spreading, and cell shape were greatly influenced by the presence of TGF-beta and PDGF, both singly and together. Data presented are interpreted to indicate that effects elicited by serum on the properties of PC in culture, and on the contractility of PC, can be attributed in part to the combined influences of TGF-beta and PDGF in serum.

Localization of clusterin in the epimembranous deposits of passive Heymann nephritis

The membrane attack complex of complement (MAC) plays an important role in the mediation of proteinuria in experimental membranous nephropathy induced by Heymann antiserum. SP-40,40 is a recently described serum protein which appears to inhibit the formation of cytolytic MAC in a manner analogous to S protein/vitronectin. SP-40,40 is homologous to proteins originally isolated from rat and ram seminal fluid (sulfated glycoprotein 2 and clusterin, respectively). By current convention, these proteins are considered clusterin homologues. The objective of this study was to examine the participation of rat clusterin in passive Heymann nephritis. Using an antibody to rat clusterin as an immunofluorescent probe, clusterin deposits were demonstrated along the glomerular capillary wall in an identical pattern to rat C3 and C5b-9. Decomplementation using cobra venom factor prevented proteinuria and intraglomerular MAC formation. The epimembranous clusterin were not detected in the complement-depleted animals. The role of clusterin in the mediation of glomerular injury remains unknown, but it is probably related to in situ formation of the terminal complement cascade where it may play a regulatory role.

Structural analysis of sulphated glycoprotein 2 from amino acid sequence. Relationship to clusterin and serum protein 40,40

Sulphated glycoprotein 2 (SGP-2) is the major secreted protein product of rat Sertoli cells; likewise, clusterin is a major constituent of ram rete testis fluid. Isolation and sequencing of the intact subunits and peptides derived from clusterin show that it is the ram homologue of rat SGP-2. Human serum protein 40,40 (SP-40,40), a component of the SC5b-9 complex of complement, has recently been reported to be the human homologue of rat SGP-2. Analysis of the amino acid sequences of rat SGP-2 and human SP-40,40 show that both of these proteins have a significant relationship to the heavy chain of myosin. The regions of highest sequence similarity correspond to the major amphipathic domains in SGP-2/SP-40,40 and the long alpha-helical-tail domain of myosin, which forms a rod-like structure. SGP-2 has anomalous sedimentation behaviour which indicates that it probably exists in an extended conformation. A putative dinucleotide-binding structure has been identified in the longest stretch of identity between SGP-2 and SP-40,40. Elucidation of these features of SGP-2 and SP-40,40 may help to direct future studies into the role of these proteins in the reproductive and complement systems.

Modulation of levels of messenger RNA for tissue-type plasminogen activator in rat Sertoli cells, and levels of messenger RNA for plasminogen activator inhibitor in testis peritubular cells

Messenger RNA for tissue-type plasminogen activator has been detected in RNA extracts from rat Sertoli cells in culture. Relative levels are increased in Sertoli cells stimulated by follicle-stimulating hormone or by dibutyryl cyclic AMP (dbcAMP) and decreased in cells maintained in the presence of transforming growth factor beta, type 1 (TGF-beta 1). Messenger RNA for plasminogen activator inhibitor, type 1 (PAI-1) has been detected in RNA extracts from rat peritubular myoid cells. Relative levels are increased in peritubular cells stimulated by TGF-beta 1, and decreased by the presence of dbcAMP in the medium. Data are interpreted to indicate that net protease activities in the seminiferous tubule are regulated at transcriptional levels by endocrine and paracrine agents.

Transforming growth factor-beta elicits shape changes and increases contractility of testicular peritubular cells

Testicular peritubular cells (PC) in culture in serum-rich Eagle's minimal essential medium (MEM) on a polystyrene substratum proliferate and form fibroblast-like monolayers. The cells assume a flattened shape, and F-actin microfilaments are assembled to form prominent stress fibers. When PC grown under these conditions are dispersed and replated at a low density, a subsequent shift from serum-rich MEM to serum-free MEM results in dramatic changes. Within an hour, the cells round up, the F-actin microfilament assemblies, together with the cytoskeleton, become disrupted, and the degree of contractility is diminished. Under these conditions, addition of transforming growth factor-beta (TGF-beta) results in a more rapid recovery than that observed in cells maintained in basal MEM alone. The presence of TGF-beta results in an increased percentage of cells with flattened shapes during periods between 1 and 6 h after the shift to serum-free MEM. Concomitantly, PC treated with TGF-beta form and maintain well-organized, prominent stress fibers composed of F-actin microfilament bundles. In addition, the degree of contractility of PC embedded in collagen gels and cultured in serum-free MEM is markedly enhanced in cells stimulated by TGF-beta. Treatment of cells with dibutyryl cyclic adenosine 3',5'-monophosphate (dbcAMP) or catecholeamines results in a rounding up of PC in culture, associated with a disruption of microfilament assemblies. Addition of TGF-beta prevents these effects of dbcAMP and beta-agonists, and permits PC to contract. We discuss the physiological significance of observations presented, consider possible mechanisms of action of TGF-beta on PC, and put forward the hypothesis that TGF-beta is one of the paracrine factors in the seminiferous tubule that influence interactions between Sertoli cells and peritubular myoid cells.

Androgens inhibit plasminogen activator activity secreted by Sertoli cells in culture in a two-chambered assembly

The addition of androgens (testosterone or dihydrotestosterone) resulted in decreased levels of detectable plasminogen activator activity in the medium when Sertoli cells were maintained in culture in a serum-free chemically defined medium in a two-chambered assembly. This occurred in the presence or absence of extracellular matrix or peritubular cells in the system. In the complete two-chambered assembly, addition of androgens simultaneously resulted in a small but significant increase in the integrity of the Sertoli cell barrier separating the two chambers, as indicated by slower rates of equilibration of [3H]methoxyinulin between inner and outer chambers. These responses to steroids appeared to be androgen specific, since other steroids examined (17 beta-estradiol, progesterone, and dexamethasone) had no detectable effects on levels of plasminogen activator activities or on barrier function. We confirmed that when FSH or (Bu)2cAMP is added to stimulate plasminogen activator secretion by Sertoli cells, the integrity of the barrier is decreased, provided no antiproteases are present in the serum-free medium. Simultaneous addition of androgens inhibited these effects of (Bu)2cAMP on Sertoli cells, but did not influence the responses of Sertoli cells to FSH. We compare actions of androgens on Sertoli cells in culture under various conditions and discuss the possible physiological significance of the inhibition of plasminogen activator activity.

Characterization of rat testicular peritubular myoid cells in culture: alpha-smooth muscle isoactin is a specific differentiation marker

In frozen sections of testes from 20-day-old rats, alpha-smooth muscle (SM) isoactin was prominently immunostained in the peritubular tissue and in vascular walls, but not in areas populated by germinal cells, interstitial cells, or Sertoli cells. Peritubular myoid cell (PMC)-enriched preparations were isolated by two different procedures involving our previously published sequential enzymatic treatment ("conventional peritubular cell [PC]-enriched preparation") and by density-gradient purification of PMC from these preparations. The properties of different populations of PMC in culture were compared with respect to plating efficiency, rates of proliferation, and presence of cytoskeletal proteins. PMC, maintained in culture under defined conditions, contained proteins immunoreactive with monoclonal antibodies against alpha-SM isoactin. This was detected by immunostaining and by Western blots of cell extracts subjected to gel electrophoresis. Neither Sertoli cells, skin fibroblasts, bovine endothelial cells, nor glial cells contained alpha-SM isoactin detectable by the above techniques. We report the ontogeny of alpha-SM isoactin in the peritubular tissue of testes at different stages of gonadal development, and show that it is detectable within 8 days after birth. In addition, we describe immunocytochemical changes that occur during culture in various media of PMC prepared from testes of 20-day-old rats. We compare the use of alpha-SM isoactin as a differentiation marker for PMC with the use of desmin in facilitating the identification of PMC, and in following alterations in phenotype during culture in various culture media. Data presented demonstrate that about 81% of cells in the "conventional PC-enriched preparation," and about 94% of cells in the more purified populations of PMC were positive for alpha-SM isoactin in cells maintained in culture for 18 h after plating. These same PMC also were shown to express vimentin and plasminogen activator inhibitor, type 1. We conclude that alpha-SM isoactin is an excellent specific marker for PMC in seminiferous tubules and in culture.

Novel action of carnitine: inhibition of aggregation of dispersed cells elicited by clusterin in vitro

A novel effect of carnitine and O-acylcarnitine derivatives has been described. The presence of these compounds has been shown to inhibit the aggregation of erythrocytes otherwise elicited by the addition of clusterin or fetuin. The specificity of carnitine action has been investigated by comparing influences of chemically related compounds. The concentrations required for inhibition by approximately 50% of aggregation of erythrocytes by clusterin under in vitro conditions defined were determined to be 1.5 mM for L(-) or D(+) enantiomers of carnitine; 0.5 mM for decanoyl(-)- or (+)-carnitine; 0.13 mM for lauroyl(-)- or (+)-carnitine, and 0.05 mM for myristoyl(-)- or (+)-carnitine. In contrast, concentrations up to 12.5 mM of dimethylcarnitine, deoxycarnitine, acetylcholine, acetyl-beta-methylcholine, or inositol had no detectable inhibitory effect on aggregation elicited by clusterin. Clusterin addition also resulted in the aggregation of three other cell types examined (guinea pig spermatozoa, a cell line derived from testes of neonatal mice called TM4 cells, and Sertoli cells from testes of 20 day-old rats). As in the case with erythrocytes, the presence of carnitine inhibited aggregation of spermatozoa, TM4 cells, and Sertoli cells in suspension. We consider possible mechanisms by which carnitine inhibits aggregation of erythrocytes and other populations of dispersed cells incubated in the presence of clusterin.

Influences of follicle-stimulating hormone, proteases, and antiproteases on permeability of the barrier generated by Sertoli cells in a two-chambered assembly

Factors have been identified that influence the integrity of the barrier generated by Sertoli cells (SC) in culture in a two-chambered assembly. The permeability of the barrier was assessed by determining rates of equilibration of [3H]methoxyinulin or [86Rb]Cl across the Sertoli cell monolayer. The complete system consisted of a confluent monolayer of SC maintained on an extracellular matrix (Matrigel)-coated filter together with peritubular cells on the opposite side of the filter. In confirmation of previous results, levels of plasminogen activator (PA) activity secreted were increased by treatment of SC with FSH or with cAMP derivatives [(Bu)2cAMP (dbcAMP)]. PA levels in the culture medium were inversely related to times required for 50% equilibration of [3H]methoxyinulin across the SC monolayer. Thus, elevated PA levels, elicited by stimulation with FSH or dbcAMP, were associated with a decreased integrity of the barrier generated by SC preparations maintained in serum-free medium in the complete system. The increase in permeability of the barrier in SC elicited by FSH dbcAMP could be prevented, however, by the addition of various antiproteases. FSH actions on barrier function were complex. Effects of FSH that favored barrier integrity were most readily detected when proteolytic activity was inhibited. The addition of intact serum increased the integrity of the barrier, but acid-treated serum depleted of antiproteases had no such effect. We advance the hypothesis that proteases are implicated in modulation of the formation and maintenance of the seminiferous tubule barrier by SC.

Control of levels of plasminogen activator activity secreted by Sertoli cells maintained in a two-chamber assembly

Sertoli cells (SC), plated onto an extracellular matrix-coated membrane mounted in a two-chambered assembly, secrete both transferrin and plasminogen activator (PA) into each chamber. Although transferrin concentrations are greatest in the inner chamber, concentrations of PA activities in the outer chamber are equal to or higher than those in the inner chamber. These data indicate that transferrin and PA are preferentially secreted in different directions. The addition of FSH or cAMP derivatives stimulates the formation and secretion of tissue-type PA. Addition of FSH enhances the polarized secretion of PA into the outer chamber, as measured by elevated ratios of outer to inner compartment PA concentrations. Ratios of PA to transferrin concentrations in the outer compartment are also increased in FSH-treated preparations, demonstrating that the differential secretion of the two products is enhanced by FSH. We interpret these data to indicate that polarized SC preferentially secrete transferrin apically while preferentially secreting PA basally, and that FSH augments this polarity of SC maintained in the two-chamber assembly. The addition of peritubular cells to the system results in decreased levels of total PA activity, with greatest diminution evident in the outer compartment. Data are consistent with previous observations that peritubular cells decrease PA activity by secreting a specific inhibitor of PA. Measurements of relative amounts of transferrin and PA secreted into inner and outer chambers, respectively, provide a means to evaluate the tightness of the seminiferous tubule barrier in the model system and the extent of polarized secretion by SC in the two-chambered assembly.

Modulation of Sertoli cell functions in the two-chamber assembly by peritubular cells and extracellular matrix

A two-chamber assembly has been employed to investigate influences of peritubular cells (PC) and extracellular matrix (Matrigel) on barrier formation by Sertoli cells (SC) in culture and on transferrin production. The kinetics of transport of [3H]inulin across a Millipore filter were essentially the same in the presence or absence of Matrigel or PC. In contrast, a SC monolayer retarded the diffusion of [3H]inulin, increasing the estimated time for 50% equilibration from about 4 h to approximately 12 h. Matrigel and PC each independently further increased the equilibration time, with the largest effects elicited by the presence of Matrigel (approximately 21 h). Data have been interpreted to indicate that these two components, especially extracellular matrix, facilitate the formation of a functional barrier by SC in the two-chamber system. PC assume a more important role than Matrigel in the modulation of transferrin secretion by SC. Transferrin concentrations were higher in the inner chamber, corresponding to those in the adluminal compartment, but transferrin masses were higher in the outer chamber under the conditions described. We report the effects of the presence and absence of Matrigel, PC, and FSH on levels of transferrin secreted by SC. Addition of FSH resulted in increased transferrin secretion by SC maintained under all conditions examined. We compare our data with those previously reported by others and attempt to provide a basis for the differences observed. We discuss the properties of the system and outline major advantages and limits of the two-chamber assembly in investigations on the polarity and properties of SC in culture.

Rat testicular peritubular cells in culture secrete an inhibitor of plasminogen activator activity

Rat testicular peritubular cells in culture secrete an inhibitor of plasminogen activator (PA) activity. Conditioned serum-free medium from secondary cultures of peritubular cells (PcMEM) was concentrated and then fractionated by gel exclusion chromatography. Under native or denaturing conditions, PA inhibitor (PA-I) activity appeared in fractions having a molecular weight of approximately 55,000. The PA-I inhibited the tissue-type plasminogen activator, and also that of the two-chain form of urokinase, but not the one-chain form. Addition of guanidine HCl (4 M) to PcMEM resulted in a large increase of inhibitory activity. The 55,000 molecular weight PA-I band in PcMEM reacted with antibodies against plasminogen activator inhibitors produced by bovine vascular endothelial cells, or by human fibrosarcoma cells, as detected by immunoadsorption experiments, by immunoblotting, and by reverse fibrin autography. We describe other characteristics of the protease inhibitor produced by testicular peritubular cells, and we discuss its possible functions in the control of PA activity in the seminiferous tubule at different stages of spermatogenesis.

Topography and behavior of Sertoli cells in sparse culture during the transitional remodeling phase

We report observations on the behavior of Sertoli cells in sparse culture during the period from the time of plating to the time of initial confluence (the transitional remodeling phase). Changes in shape, structure, and polarity of cells, as well as changes in migration patterns and cell-cell association patterns, have been followed during the transitional remodeling phase with the aid of topographical markers. These markers are based upon differences between ultrastructural features of the basolateral and apicolateral surfaces. The basolateral surface is characterized by plasmalemmal blebs, whereas the apicolateral surface is characterized by filopodial extensions. Structural differences observed in situ remain evident in Sertoli cells isolated by sequential enzymatic treatments that are described. Another marker is provided by laminin-binding sites, which are detected exclusively on the blebbed, basolateral surfaces of freshly prepared Sertoli cell aggregates. The orientation described is sustained during the initial radial migration of Sertoli cells explanted on uncoated glass coverslips. Under these conditions, blebs are detected only on the dorsal surfaces, and filopodial extensions are evident only on the ventral surfaces. In contrast, Sertoli cells sparsely plated on a reconstituted basement membrane (air-dried Matrigel) migrate rapidly, display an extraordinary capacity to form elaborate cytoplasmic extensions for cell-cell and cell-substratum contacts, and readily retract blebs and filopodial extensions. These cells do not form mosaic borders, whereas cells plated on uncoated glass do form a monolayer with mosaic-like borders. Cells sparsely seeded on gelated Matrigel migrate preferentially at gaps between adjacent cell explants, and develop a compact cell-cell association pattern. These cells display few, if any, cytoplasmic extensions. We compare the behavior of Sertoli cells sparsely plated on Matrigel with the behavior of Sertoli cells in situ during different stages of development.

Rete testis fluid (RTF) proteins: purification and characterization of RTF albumin

A major 68-kDa protein in ram rete testis fluid (RTF) is shown to be chemically and immunologically indistinguishable from albumin in ovine serum. Data obtained with two-dimensional gel electrophoresis of RTF demonstrate the presence of additional proteins with a molecular mass of 68 kDa that do not react with antisera against sheep serum albumin. Biochemical characteristics of albumin preparations isolated by immunoaffinity chromatography from ovine serum and from RTF were compared. Albumin from both sources had the same apparent molecular mass of 68 kDa, the same isoelectric point of approximately 4.2, and neither bound specifically to Concanavalin A. Analysis of tryptic peptide maps, obtained with reverse-phase high-pressure liquid chromatography, indicated no significant differences between digests of the two purified albumin preparations. Results indicate that RTF albumin and serum albumin are the same protein, which implies that RTF albumin may originate from serum. Albumin levels in RTF, collected from different rams and measured by radioimmunoassay, varied between 46 and 164 micrograms/ml, constituting between 11 and 17% of total RTF protein, while albumin levels in sheep plasma were 40,000 micrograms/ml. The protein composition of RTF is discussed in relation to the relative amounts of various components contributed by testis cells and the amounts derived from serum.

Isolation and culture of ram rete testis epithelial cells: structural and biochemical characteristics

Cultures of rete testis epithelial cell-enriched preparations from testes of adult rams have been investigated, and some of their properties have been determined. In monolayers, the cells form mosaic-like borders, and retain many ultrastructural features characteristic of rete epithelial cells in situ, including an indented nucleus with prominent heterochromatin clumps, short rod-shaped or round mitochondria that are easily distinguished from the elongated mitochondria of Sertoli cells, the presence of desmosomes, and few if any lipid droplets or vacuoles. Unlike Sertoli cell-enriched aggregates in culture, rete testis epithelial cell preparations do not form cytoplasmic extensions, and no associated germ cells are present. Rete cells in culture express cytokeratin and vimentin in the cytoskeleton, whereas Sertoli cells prepared from testes of adult rams contain vimentin but not cytokeratin. Both rete cells and Sertoli cells stain positively for laminin but not for fibronectin, Collagen Type I, or Collagen Type III. The rete cells synthesize and secrete several proteins into the culture medium, evident in gel electrophoresis patterns of radiolabeled proteins. This pattern is similar, but not identical, to that secreted by Sertoli cell-enriched preparations. Rete cells in culture in the presence of serum continue to undergo mitotic division, but Sertoli cells do not. A variety of criteria were employed to estimate the relative numbers of Sertoli cells present in the rete testis epithelial cell-enriched preparations from testes of adult rams, including morphological and ultrastructural differences between the two cell types, and the presence of desmosomal proteins and cytokeratin in rete cells but not in Sertoli cells. The relative number of fibroblast-like cells was determined by measuring the expression of fibronectin and Collagen Type I, and an immunocytochemical probe for the detection of Factor VIII was used to estimate the degree of contamination by vascular endothelial cells. Using these markers, we determined that the rete testis epithelial cell-enriched preparations were about 93% pure. Primary cultures under defined conditions contained relatively few Sertoli cells (0.4%), but were contaminated to a larger extent by fibroblast-like cells (approximately 4%) and by endothelial cells (about 3%). The possible functions of rete testis epithelial cells are discussed herein.

Biosynthesis and secretion of clusterin by ram rete testis cell-enriched preparations in culture

Rabbit polyclonal antibodies, directed specifically against clusterin purified from ram rete testis fluid, were employed in an investigation of the biosynthesis of clusterin by cultures of rete testis epithelial cells and by Sertoli cells prepared from testes of adult rams. Cells in serum-free medium were incubated in the presence of either [35S]methionine, [3H]leucine, or [3H]glucosamine, and radiolabeled proteins secreted were immunoprecipitated. The pellet was subjected to polyacrylamide gel electrophoresis under reducing and non-reducing conditions, and the gels were then fluorographed. In other experiments, protein bands were transferred to nitrocellulose and visualized immunochemically. Under non-reducing conditions, a single band was detected, having a molecular weight of 80,000. Under reducing conditions, doublet bands were detected, having approximate molecular weights of 40,000 (major band) and 37,000 (minor band). These properties were indistinguishable from those obtained with authentic samples of pure clusterin subjected to gel electrophoresis and Western immunoblot procedures. Amounts of clusterin synthesized by rete testis cells in culture, quantitatively determined with a sandwich enzyme-linked immunosorbent assay procedure, were approximately 4 micrograms/micrograms cell DNA/48 h. Immunocytochemical localization investigations, using monoclonal antibodies against clusterin, revealed the presence of clusterin in the perinuclear of juxtanuclear regions, in both rete testis epithelial cells and Sertoli cells in culture. The possible functions of clusterin produced by rete testis epithelial cells and by Sertoli cells are discussed.

Morphogenetic restructuring and formation of basement membranes by Sertoli cells and testis peritubular cells in co-culture: inhibition of the morphogenetic cascade by cyclic AMP derivatives and by blocking direct cell contact

Addition of dibutyryl cyclic AMP (dbcAMP), methylisobutylxanthine (MIX), or cytochalasin D to co-cultures of Sertoli cells and testicular peritubular myoid cells blocks a series of morphogenetic changes which otherwise occur during culture. When Sertoli cells are plated directly onto preexisting layers of peritubular cells maintained under basal conditions, structures form which display many of the characteristics of germ cell-depleted seminiferous tubules. The presence of dbcAMP, MIX, or cytochalasin D, added at varying times after plating Sertoli cells, results in the inhibition of each successive stage of in vitro remodeling: the inhibition of migration of Sertoli cells, the inhibition of initial ridge formation, the blockage of subsequent formation of mounds and nodules of compacted Sertoli cell aggregates, the prevention of the formation of basal lamina and associated layers of extracellular matrix between Sertoli cell aggregates and surrounding peritubular cells, and the inhibition of tubule formation. The presence of dbcAMP also inhibits the migration of peritubular cells, contractions by these cells, and compaction of Sertoli cell aggregates. When intimate cell apposition is prevented by plating the two cell types on either side of a membrane filter, the morphogenetic cascade is blocked, and no formation of a germ cell-depleted seminiferous tubule-like structure occurs. Other effects of dbcAMP on cell shape, cell movement, and cell association patterns during co-culture are described. Possible mechanisms by which dbcAMP, MIX, or cytochalasin D blocks restructuring are discussed. Since each elicits perturbations of the cytoskeleton, we offer the interpretation that cytoskeletal changes may be correlated with the prevention of closely apposing cell compact and the inhibition of basement membrane formation. Interactions observed between Sertoli cells and peritubular cells during co-culture are postulated to be analogous to those occurring in other types of mesenchymal cell-epithelial cell interactions during organogenesis and during tubulogenesis in the fetal testis. Speculatively, the blockage by dbcAMP of the morphogenetic cascade in the co-cultured system may be related to the inhibition by dbcAMP of testis cord formation in organ cultures of fetal gonads reported by others.

Hormonal stimulation alters the type of plasminogen activator produced by Sertoli cells

Primary cultures of immature rat Sertoli cells, maintained in serum-free medium, secrete two types of plasminogen activator (PA). When cultured under basal conditions, the preparations predominantly produce PA having a relative molecular weight (Mr) of 45,000 to 48,000. This PA activity is inactivated by antiserum against urokinase-type PA. When Sertoli cells are stimulated by follicle-stimulating hormone (FSH) or by dibutyryl cyclic adenosine 3',5'-monophosphate (dbcAMP), PA secretion is increased. The PA produced under these conditions has an Mr of 70,000, and is inactivated by antiserum against tissue-type PA but not by antiserum against urokinase-type PA. We conclude that, under basal conditions, Sertoli cells primarily secrete PA having the characteristics of urokinase-like PA (mu PA), and that Sertoli cells stimulated by FSH or by dbcAMP predominantly produce PA having the properties of tissue-type PA (tPA). Segments of adult rat seminiferous tubules, at defined stages of the cycle of the seminiferous epithelium, also produce and secrete two types of PA into the medium when maintained in organ culture. Segments at all stages examined release primarily mu PA in preparations cultured under basal conditions. In contrast, segments cultured in the presence of FSH synthesize larger amounts of PA, predominantly of the tPA type. An additional protease, which is independent of plasminogen, is secreted by tubule segments stimulated by FSH. The activity of this novel protease is not detectable in cultures maintained under basal conditions. We discuss the data in relation to the possible role of proteases in the restructuring of the seminiferous tubule during spermatogenesis.

Cell-substratum and cell-cell interactions promote testicular peritubular myoid cell histotypic expression in vitro

Peritubular cells, prepared from seminiferous tubules from testes of 20-day-old-rats, were seeded onto different substrata and cultured under varying conditions. When plated onto polystyrene or glass surfaces, peritubular cells assumed a typical fibroblast-like cell shape and cell association pattern, together with a fibroblast-like migration behavior. They maintained high rates of proliferation even after achieving confluency. In contrast, when peritubular cells were plated onto a seminiferous tubule biomatrix (ST-biomatrix) surface, they spread to form a continuous cell layer having a myoepithelioid histotype similar to that of peritubular myoid cells in the intact seminiferous tubule. The characteristics of the myoepithelioid histotype described include a squamous, polyhedral cell shape; a cobblestone-like cell association pattern, with closely apposing or slightly overlapping cell borders, and a very low mitotic index. When peritubular cells were plated onto laminin, collagen, fibronectin, heparin, or a liver biomatrix, a fibroblast-like pattern resulted, indicating that ECM components listed and liver biomatrix are unable to substitute for ST-biomatrix in maintaining normal myoepithelioid characteristics in vitro. In cocultures of Sertoli cells plated on top of peritubular cells, the peritubular cells directly in contact with Sertoli cell aggregates developed a myoepithelioid histotype, whereas peritubular cells in regions not in direct contact had a fibroblast-like histotype. The data are discussed in relation to the possible role of cell-cell interactions, and cell-substratum interactions, in the acquisition and stabilization of the histotype of peritubular cells in the seminiferous tubule during development.

Identification of a non-mitogenic paracrine factor involved in mesenchymal-epithelial cell interactions between testicular peritubular cells and Sertoli cells

Seminiferous peritubular cells have previously been shown to secrete a protein termed P-Mod-S which modulates the functions of Sertoli cells. The present study provides an initial characterization of P-Mod-S and examines the actions of P-Mod-S on Sertoli cells. Gel filtration chromatography demonstrates that P-Mod-S has an apparent molecular weight of 70 000 that could not be dissociated to a lower molecular weight form. A 40- to 90-fold purification of P-Mod-S was obtained with a predicted half maximal effective concentration for Sertoli cells of less than 10(-9) M. Through an analysis of the actions of P-Mod-S on Sertoli cells it is demonstrated that P-Mod-S stimulates the Sertoli cell to a greater extent than any single hormone or vitamin known to influence the cell. P-Mod-S maximally stimulates testicular transferrin and androgen-binding protein production by Sertoli cells, but does not stimulate levels of plasminogen activator activity. P-Mod-S also appears to induce the synthesis of several proteins that are not detected in control non-treated Sertoli cell cultures. One such protein whose synthesis was stimulated by P-Mod-S treatment of Sertoli cells was a component having a molecular mass of 20 kDa. This 20 kDa Sertoli cell-secreted protein was specifically immunoprecipitated with an antibody against an epididymal lactalbumin-like protein. This implies that P-Mod-S can induce Sertoli cells to synthesize and secrete a lactalbumin-like protein. P-Mod-S was found not to contain mitogenic activity. Data presented indicate that testicular peritubular cells synthesize and secrete a 70 kDa non mitogenic paracrine factor termed P-Mod-S which has a dramatic influence on Sertoli cell functions. Results are discussed with respect to modulation of epithelial (Sertoli) cell functions by components produced by mesenchymal (peritubular) cells.

Extracellular matrix components and testicular peritubular cells influence the rate and pattern of Sertoli cell migration in vitro

We report the patterns of migration of Sertoli cells plated on specific substrata, and the influences of testicular peritubular cells on these processes. Data presented indicate that while peritubular cells readily spread when explanted onto Type I collagen, Sertoli cells do not. A delay of 4 to 6 days occurs after Sertoli cells are plated before they begin to migrate randomly to form plaque-like monolayers on Type I collagen. These processes are dependent upon the synthesis and subsequent deposition of laminin and/or Type IV collagen by Sertoli cells, and are independent of fibronectin. A different behavior occurs when reconstituted mixtures of purified Sertoli cells and pertiubular cells are sparsely plated onto Type I collagen. Peritubular cells rapidly spread to form chains of cells between Sertoli cell aggregates. Sertoli cells then migrate on the surfaces of the peritubular cells, culminating in the formation of cable-like structures between aggregates. Evidence is presented that the Sertoli cell migration to form "cables" under these conditions is dependent upon fibronectin synthesized by peritubular cells, and is independent of the presence of laminin or Type IV collagen. We discuss the possible relevance of these data to the role which precursors of peritubular cells may play in determining the behavior of Sertoli cell precursors in vivo during tubulogenesis, or in the remodelling of the seminiferous tubule which occurs during different stages of the cycle of the seminiferous epithelium in spermatogenesis.

Structural characterization of proteoglycans produced by testicular peritubular cells and Sertoli cells

The structural characteristics of proteoglycans produced by seminiferous peritubular cells and by Sertoli cells are defined. Peritubular cells secrete two proteoglycans designated PC I and PC II. PC I is a high molecular mass protein containing chondroitin glycosaminoglycan (GAG) chains (maximum 70 kDa). PC II has a protein core of 45 kDa and also contains chondroitin GAG chains (maximum 70 kDa). Preliminary results imply that PC II may be a degraded or processed form of PC I. A cellular proteoglycan associated with the peritubular cells is described which has properties similar to those of PC I. Sertoli cells secrete two different proteoglycans, designated SC I and SC II. SC I is a large protein containing both chondroitin (maximum 62 kDa) and heparin (maximum 15 kDa) GAG chains. Results obtained suggest that this novel proteoglycan contains both chondroitin and heparin GAG chains bound to the same core protein. SC II has a 50-kDa protein core and contains chondroitin (maximum 25 kDa) GAG chains. A proteoglycan obtained from extracts of Sertoli cells is described which contains heparin (maximum 48 kDa) GAG chains. In addition, Sertoli cells secrete a sulfoprotein, SC III, which is not a proteoglycan. SC III has properties similar to those of a major Sertoli cell-secreted protein previously defined as a dimeric acidic glycoprotein. The stimulation by follicle-stimulating hormone of the incorporation of [35S]SO2(-4) into moieties secreted by Sertoli cells is shown to represent an increased production or sulfation of SC III (i.e. dimeric acidic glycoprotein), and not an increased production or sulfation of proteoglycans. Results are discussed in relation to the possible functions of proteoglycans in the seminiferous tubule.

Immunolocalization of clusterin in the ram testis, rete testis, and excurrent ducts

Clusterin, a glycoprotein that elicits cell aggregation, has previously been isolated from ram rete testis fluid, and has been partially characterized. In experiments reported, we have used monoclonal antibodies against clusterin in combination with indirect immunofluorescence microscopy to investigate the distribution of clusterin in the adult ram testis, rete testis, and excurrent ducts. Tissue blocks (5 mm3) were fixed in periodate/lysine/paraformaldehyde containing 0.1% glutaraldehyde and, after embedding, 5-microM sections were prepared for immunolocalization. In the testis, 2 basic patterns were observed: 1) strong to moderate staining for clusterin in the adluminal region with little staining in the basal region of the seminiferous epithelium and germinal cells; and 2) moderate staining throughout the seminiferous epithelium between germinal cells. In the rete testis, strong clusterin staining was localized intracellularly in the rete epithelial cells, most often associated with the luminal surface. In the epididymis, intracellular clusterin was localized in some principal cells of the caput epididymidis. The luminal surfaces and spermatozoa within the lumen were strongly positive. In the vas deferens, clusterin staining was associated with the luminal surface only. The presence of clusterin was clearly detected in unwashed isolated epididymal spermatozoa, but not in spermatozoa washed with phosphate-buffered saline containing 0.05% Tween 20.

Cooperativity between Sertoli cells and testicular peritubular cells in the production and deposition of extracellular matrix components

We examined the synthesis and deposition of extracellular matrix (ECM) components in cultures of Sertoli cells and testicular peritubular cells maintained alone or in contact with each other. Levels of soluble ECM components produced by populations of isolated Sertoli cells and testicular peritubular cells were determined quantitatively by competitive enzyme-linked immunoabsorbent assays, using antibodies shown to react specifically with Type I collagen, Type IV collagen, laminin, or fibronectin. Peritubular cells in monoculture released into the medium fibronectin (432 to 560 ng/microgram cell DNA per 48 h), Type I collagen (223 to 276 ng/microgram cell DNA per 48 h), and Type IV collagen (350 to 436 ng/microgram cell DNA per 48 h) during the initial six days of culture in serum-free medium. In contrast, Sertoli cells in monoculture released into the medium Type IV collagen (322 to 419 ng/microgram cell DNA per 48 h) but did not form detectable amounts of Type I collagen or fibronectin during the initial six days of culture. Neither cell type produced detectable quantities of soluble laminin. Immunocytochemical localization investigations demonstrated that peritubular cells in monoculture were positive for fibronectin, Type I collagen, and Type IV collagen but negative for laminin. In all monocultures most of the ECM components were intracellular, with scant deposition as extracellular fibrils. Sertoli cells were positive immunocytochemically for Type IV collagen and laminin but negative for fibronectin and Type I collagen. Co-cultures of peritubular cells and Sertoli cells resulted in interactions that quantitatively altered levels of soluble ECM components present in the medium. This was correlated with an increased deposition of ECM components in extracellular fibrils. The data correlated with an increased deposition of ECM components in extracellular fibrils. The data presented here we interpret to indicate that the two cell types in co-culture act cooperatively in the formation and deposition of ECM components. Results are discussed with respect to the nature of interactions between mesenchymal peritubular cell precursors and adjacent epithelial Sertoli cell precursors in the formation of the basal lamina of the seminiferous tubule.

Androgen stimulation of Sertoli cell function is enhanced by peritubular cells

Rates of production of androgen binding protein (ABP) declined during culture of purified Sertoli cell-enriched aggregates in serum-free minimal essential medium (MEM). This decline was partially prevented by the addition of testosterone to the medium, but not by 17 beta-estradiol addition. The androgen effect was greater in Sertoli cell aggregates in co-culture with peritubular cells than in Sertoli cell preparations depleted of peritubular cells. Initial rates of ABP production by purified Sertoli cell-enriched aggregates were also sustained when preparations were cultured in MEM supplemented with conditioned medium in which peritubular cells had been previously maintained. We interpret data presented to indicate that the stimulatory effects of peritubular cells on functions of Sertoli cells in co-culture, specifically sustained rates of ABP production, are mediated at least partially by component(s) synthesized by peritubular cells and secreted into the medium. We offer the hypothesis that androgens may influence Sertoli cells at two levels: (1) a direct action on Sertoli cells; (2) and indirect influence on Sertoli cells mediated by a direct action on peritubular cells, resulting in the formation of product(s) which modulate the rates of ABP synthesis.

Testicular peritubular cells secrete a protein under androgen control that modulates Sertoli cell functions

Peritubular cells of the seminiferous tubule synthesize component(s) that stimulate Sertoli cells in culture to increase the production of androgen-binding protein and testicular transferrin. The active peritubular cell component(s) are trypsin-sensitive, heat-sensitive, acid-stable molecule(s) having a molecular weight between 50,000 and 100,000. These specific factors(s) are referred to as P Mod-S to designate protein(s), produced by peritubular cells (P), that modulate the functions of Sertoli cells (S). The degree of stimulation by P Mod-S is comparable to that obtained by maximal hormonal stimulation of the synthesis of ABP and transferrin by Sertoli cells. Levels of P Mod-S secreted into the medium by primary cultures of peritubular cells are increased in the presence of testosterone. Comparable concentrations of 17 beta-estradiol do not stimulate peritubular cells to synthesize P Mod-S. Data are interpreted to indicate that androgens act on testicular peritubular cells to increase the formation of P Mod-S and that P Mod-S may modulate the properties of adjacent Sertoli cells. Findings are discussed in relation to the nature of mesenchymal-epithelial cell interactions in the seminiferous tubule and to the possible role of P Mod-S as a mediator of androgen actions of Sertoli cells.

Isoelectric forms of clusterin isolated from ram rete testis fluid and from secretions of primary cultures of ram and rat Sertoli-cell-enriched preparations

Clusterin, a cell aggregating factor isolated from ram rete testis fluid (RTF), is shown to contain 14.7% hexoses, 13.6% glucosamine, and 7.9% sialic acid. The isoelectric point (pI) of the predominant electrophoretic form of clusterin from ram RTF is 3.7. After treatment with neuraminidase, the pI values become more basic, with the majority of the material being eluted from a chromatofocusing column at pH values between 4.9 and 5.1. Intact clusterin binds quantitatively to wheat germ agglutinin - Sepharose 6 MB, but after treatment with neuraminidase only 49% specifically binds. Clusterin isolated from proteins secreted by primary cultures of ram Sertoli-cell-enriched preparations was shown to have properties similar to those of intact clusterin isolated from ram RTF. In contrast, clusterin isolated from proteins secreted by primary cultures of rat Sertoli- or granulosa-cell-enriched preparations has isoelectric forms which more closely resemble those of neuraminidase-treated ram clusterin.