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.     

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.     

Laminin-induced capping and receptor expression at cell surface in a rat rhabdomyosarcoma cell line: Involvement in cell adhesion and migration on laminin substrates

The present study reveals the dynamic distribution of membrane laminin receptors induced by laminin binding in a rat rhabdomyosarcoma cell line RMS S4. The treatment of the cells with soluble laminin did not modify cell adhesion to laminin-coated substrates in in vitro attachment assays. Fluorescent labeling of membrane-bound laminin revealed that occupied receptors were induced to cluster and cap. New free membrane binding sites were made evident after capping of bound laminin by a double labeling technique. Cytochalasin D (CD) treatment prevented the capping process. The adhesion of CD-treated cells to laminin-coated substrates was inhibited by cell preincubation with soluble laminin. Cycloheximide treatment had no effect on the ability of RMS S4 cells to adhere to adsorbed laminin after preincubation in the presence of soluble laminin. These results taken as a whole suggest that free receptors may arise from an intracellular pool that could be maintained by membrane receptor recycling. Since capping and motility seem related events, migration of RMS S4 cells on laminin was studied in the agarose drop assay. Immobilized laminin stimulated basic cell motility by more than 200%. E8 laminin fragment retained partially the motility stimulating property of laminin while P1 pepsinic fragment had no effect. The presence of constantly available receptors at the cell surface could be determinant in the ability of cells to migrate on laminin substrates.     

Differential expression of extracellular matrix components in rat Sertoli cells.

We studied expression of laminin, fibronectin, and Type IV collagen in the testis by means of immunofluorescence and immunoblot analysis and also examined gene expression of fibronectin using the ribonuclease protection assay. By immunofluorescence on sections from 20-day-old rats, laminin, fibronectin, and Type IV collagen were found in the basement membrane of the seminiferous tubules and in the interstitial regions of the testis. No localization of any extracellular matrix components was found inside the sectioned cells. However, when Sertoli cells were cultured on glass coverslips, laminin and Type IV collagen were both found inside the cells, suggesting new synthesis. In cultured peritubular cells, Type IV collagen, laminin, and fibronectin were found within the cells. When examined by immunoblot analysis, freshly isolated Sertoli and peritubular cells from 20-day-old rats did not demonstrate production of laminin or fibronectin. After 5 days in culture, peritubular cells produced both laminin and fibronectin, whereas cultured Sertoli cells produced only laminin. In contrast, freshly isolated and cultured Sertoli and peritubular cells all produced Type IV collagen. Moreover, the ribonuclease protection assay indicated that the bulk of fibronectin gene expression occurs within the first 10 days of postnatal development, with lower maintenance levels occurring thereafter. These results indicate that in the testis the highest levels of expression of laminin and fibronectin occur during development and in primary cell culture, whereas expression of Type IV collagen is higher at later stages.     

Laminin ultrastructural immunolocalization in rat testis during ontogenesis

Summary The synthesis of one of the main glycoproteins of the basement membrane, the laminin, was demonstrated by ultrastructural immunolocalization during rat foetal (16th day to 20th day of gestation) and postnatal development of the testis. The lamina densa, part of seminiferous tubular basement membrane, is labeled uniformly at all studied stages. The lamina lucida is not well defined before the postnatal stages, at which times discrete immunostaining extends from the lamina densa to the adjacent seminiferous epithelial cells (spermatogonia and Sertoli cells). The extracellular matrix around the peritubular cells is not labeled before birth. Intracellular immunostaining was detected as early as the 16th day of gestation in both Sertoli cells and cells around the seminiferous tubules which will transform later into peritubular cells. It was located in rough endoplasmic reticulum (RER) cisternae and secretory vesicles. After 18–20 days of postnatal life, the immunostaining faints progressively. Some positive material is seen in the RER of the gonocytes at all studied stages.Sertoli cells and peritubular cells are the main producing cells of laminin after the 16th of gestation. The laminin secreted by gonocytes may play an important role in adhesion of gonocytes to the lamina densa and adjacent Sertoli cells before their transition from basal compartment to adluminal compartment.     

Laminin ultrastructural immunolocalization in rat testis during ontogenesis

The synthesis of one of the main glycoproteins of the basement membrane, the laminin, was demonstrated by ultrastructural immunolocalization during rat foetal (16th day to 20th day of gestation) and postnatal development of the testis. The lamina densa, part of seminiferous tubular basement membrane, is labeled uniformly at all studied stages. The lamina lucida is not well defined before the postnatal stages, at which times discrete immunostaining extends from the lamina densa to the adjacent seminiferous epithelial cells (spermatogonia and Sertoli cells). The extracellular matrix around the peritubular cells is not labeled before birth. Intracellular immunostaining was detected as early as the 16th day of gestation in both Sertoli cells and cells around the seminiferous tubules which will transform later into peritubular cells. It was located in rough endoplasmic reticulum (RER) cisternae and secretory vesicles. After 18-20 days of postnatal life, the immunostaining faints progressively. Some positive material is seen in the RER of the gonocytes at all studied stages. Sertoli cells and peritubular cells are the main producing cells of laminin after the 16th of gestation. The laminin secreted by gonocytes may play an important role in adhesion of gonocytes to the lamina densa and adjacent Sertoli cells before their transition from basal compartment to adluminal compartment.     

Identification and partial characterization of laminin binding proteins in immature rat Sertoli cells

Laminin, a major component of basement membrane extracellular matrices, promotes differentiation in a number of cell types, including Sertoli cells. We have identified and characterized Sertoli cells. We have identified and characterized Sertoli cell surface molecules which interact with laminin. Using laminin-Sepharose affinity chromatography and [125I]laminin binding to Sertoli cell plasma membranes, binding proteins have been identified with the Mr 110,000, 67,000, 55,000, 45,000, 36,000, and 25,000. In addition, the Mr 110,000 and 67,000 laminin binding proteins were phosphorylated. The 67,000, 45,000, and 36,000 react with antibodies to the previously characterized laminin receptor and these antibodies stain the basolateral surface of Sertoli cells in vivo. Cultured Sertoli cells stain for laminin receptor both on the cell surface and within the cells. Antiserum to the 32,000 and 67,000 laminin binding proteins partially inhibited spreading of Sertoli cells on a laminin-coated culture dish, suggesting a functional importance of those proteins in Sertoli cell differentiation. The 25,000 and 45,000 laminin binding proteins reacted with integrin antibodies, but no high-molecular-weight forms could be detected. Integrin was localized to the cell surface and intracellularly but antibodies did not block Sertoli cell spreading on laminin. This work represents the first identification and characterization of extracellular matrix binding proteins in an endocrine organ and suggests an important role for the nonintegrin 32/67 laminin binding proteins.     

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.     

Mesenchymal entactin-1 (nidogen-1) is required for adhesion of peritubular cells of the rat testis in vitro

Epithelial-like Sertoli cells isolated from immature rat testis aggregate to form tubule-like structures when cultured on a monolayer of mesenchyme-derived peritubular cells. At the end of this morphogenetic process both cell types are separated by a basement membrane. In this study the gene expression of monocultures and direct cocultures of peritubular cells and Sertoli cells was examined using DD-RT-PCR. One of the isolated cDNA clones showed high homology to the cDNA encoding the basement membrane component entactin-1 (nidogen-1). Even though the entactin-1 (nidogen-1) gene is transcribed in peritubular cells, Sertoli cells, and in direct cocultures, the mRNA is translated only by the peritubular cells. No entactin-1 (nidogen-1) was detected in the Sertoli cells by Western blotting. Moreover, peritubular cell monocultures and cocultures showed the presence of one single band at 152 kDa in the supernatant, whereas in cell lysates two bands were detectable at 152 kDa and 150 kDa. Perturbation experiments using monoclonal antibodies directed against entactin-1 (nidogen-1) were performed with peritubular cells and Sertoli cells, respectively, and demonstrated loss of cell adhesion of the peritubular cells, while the Sertoli cells remained adherent. From these data we conclude that entactin-1 is exclusively produced and secreted by mesenchymal peritubular cells, and affects adhesion of peritubular cells in an autocrine manner.     

Effects of laminin, fibronectin and type IV collagen on liver cell cultures

The effects on mouse liver cells of laminin, fibronectin and type IV collagen, all of which are the main matrix of the basement membrane, were studied. Laminin, a glycoprotein isolated from cultures of rat yolk sac carcinoma cells, promoted the attachment of mouse fetal liver cells to laminin-coated dishes, but did not have a strong influence upon the attachment of normal adult liver cells. On the other hand, fibronectin which was purified from mouse plasma promoted the attachment of adult liver cells but not that of fetal liver cells. The number of neonatal liver cells attached to the surfaces coated was intermediate between those of fetal and adult liver cells in each matrix. DNA synthesis and cell proliferation during the culture of full-term fetal liver cells in laminin-coated dishes were higher than those in fibronectin- or type IV collagen-coated dishes. The amount of alpha-fetoprotein secreted in the laminin-coated dishes was more than in other groups. No differences in secretion of albumin into media, however, were observed in either group. These results suggest that laminin may be necessary for cell growth, tissue organization and cell differentiation during the normal development of liver in vivo.     

Endothelial cells use alpha 2 beta 1 integrin as a laminin receptor

Human umbilical vein endothelial cells attach and spread on laminin-coated substrates. Affinity chromatography was used to identify the attachment receptor. Fractionation of extracts from surface-iodinated endothelial cells on human laminin-Sepharose yielded a heterodimeric complex, the subunits of which migrated with molecular sizes corresponding to 160/120 kD and 160/140 kD under nonreducing and reducing conditions, respectively. The purified receptor bound to laminin and slightly less to fibronectin and type IV collagen in a radioreceptor assay. This endothelial cell laminin receptor was classified as an alpha 2 beta 1 integrin because monoclonal and polyclonal antibodies directed against the alpha 2 and bet 1 subunits immunoprecipitated the receptor. Cytofluorometric analysis and immunoprecipitation showed that the alpha 2 subunit is an abundant integrin alpha subunit in the endothelial cells and that the alpha subunits associated with laminin binding in other types of cells are expressed in these cells only at low levels. The alpha 2 beta 1 integrin appears to be a major receptor for laminin in the endothelial cells, because an anti-alpha 2 monoclonal antibody inhibited the attachment of the endothelial cells to human laminin. These results define a new role for the alpha 2 subunit in laminin binding and suggest that the ligand specificity of the alpha 2 beta 1 integrin, which is known as a collagen receptor in other types of cells, can be modulated by cell type-specific factors to include laminin binding.     

Identification of type IV collagenase in rat testicular cell culture: influence of peritubular-Sertoli cell interactions

In the testis, interactions between peritubular cells (mesenchyme) and Sertoli cells (epithelium), together with proteolytic remodeling of the extracellular matrix, may play a central role in testicular development, morphogenesis, and spermatogenesis. In this study we demonstrate that a metalloproteinase of 72 kDa present in rat Sertoli cell and Sertoli-peritubular cell coculture medium is activated by p-aminophenylmercuric acetate (p-APMA) to a lower molecular mass form, indicating that it is likely to be a latent collagenase. Immunoblots using antibodies to three different domains of type IV collagenase show that the 72-kDa protease and a 76-kDa protease are type IV pro-collagenases. Sertoli cells cultured alone produce basal levels of type IV collagenase that can be immunolocalized in the cytoplasm of cultured cells. Peritubular cells cultured alone produce much less type IV collagenase. However, Sertoli and peritubular cells in coculture do produce type IV pro-collagenase, and in cultures consisting predominantly of peritubular cells, the activated form of type IV collagenase was detected by both zymography and immunoblotting. Cells growing during the transitional phase (from cell attachment to confluence) secrete more metalloproteinases than during the confluent phase. In contrast, plasminogen activator levels are unaffected by time in culture. These results show that rat testicular cells in culture produce and secrete type IV collagenase, and that the secretion and activation of this enzyme and other metalloproteases is regulated by the ratio of mesenchymal cells to epithelial cells and time in culture.     

Preadipocyte Screening by Laminin in Porcine Stromal Vascular Cell Cultures

Objective : To determine if subpopulations of cells in stromal vascular (S-V) cultures could be segregated and separated based on affinity for laminin substratum. Research Methods and Procedures : S-V cells were seeded and allowed to attach for various times; 4 hours was found to be optimal for cell attachment. Cultures were rinsed after 4 hours of seeding, and S-V cells were divided into three subpopulations based on affinity for laminin: (1) cells that did not attach to laminin; (2) cells that had a low affinity for laminin; and (3) cells that had a high affinity for laminin. After 24 hours, cultures were either stained for the AD-3 antigen (a marker for preadipocytes), C/EBP-α (a terminal differentiation marker), or C/EBP-8 (an early preadipocyte marker). Companion cultures were treated with various media for 9 days and stained with oil red-O. Results : Cells with a high affinity for laminin had the highest proportion of AD-3 and C/EBP-α positive cells and the highest proportion of fat cells after treatment with insulin ± dexamethasone. Cells with a low affinity for laminin had the1 highest proportion of C/EBP-8 cells and the highest proportion of fat cells after treatment with fetal bovine serum+dexamethasone, followed by insulin. Discussion : These results indicate that differentiating preadipocytes adhere to laminin to a much greater degree than do non-preadipocytes. Therefore, laminin-coated dishes can be used to screen S-V cells to produce preadipocyte or fibroblast-enriched S-V cultures.     

The anti-invasive flavonoid (+)-catechin binds to laminin and abrogates the effect of laminin on cell morphology and adhesion

To study the effect of the flavonoid (+)-catechin on cell-matrix interactions two cell types with a different morphology on and adhesion to laminin were used. MO4 virally transformed fetal mouse cells adhere and spread when cultured on top of laminin-coated coverslips or on human amnion basement membrane. M5076 mouse reticulum cell sarcoma cells poorly adhere to these substrates and remain round. Both cell types are invasive in confronting cultures with embryonic chick heart fragments. (+)-Catechin binds to laminin in a pH-dependent way. Pretreatment of laminin-coated coverslips or amnion basement membrane with 0.5 mM (+)-catechin abrogates the effect of laminin on cell morphology and adhesion. MO4 cells do not adhere to the pretreated substrates and remain round, while M5076 cells now adhere and spread. (+)-Catechin inhibits the invasion of MO4 cells but not of M5076 cells into embryonic chick heart in vitro. We speculate that the anti-invasive activity of the flavonoid to MO4 cells is the result of its interference with MO4 cell adhesion to laminin. Invasion of M5076 cells does not imply adhesion to and spreading on laminin.     

Cell interactions with laminin and its proteolytic fragments during outgrowth of mouse primary trophoblast cells.

Mouse blastocysts in serum-free culture for 24-48 h become attachment-competent, adhere to fibronectin- or laminin-coated surfaces, and subsequently form trophoblast outgrowths. The blastocyst laminin receptor was characterized in outgrowth studies using modified laminin. Trophoblast cells interacted with the peptide portion of laminin, but not the oligosaccharide moiety since its adhesive activity was reduced by boiling or trypsin treatment, but not by treatments that removed or modified its carbohydrate. Laminin outgrowth-promoting activity was further localized within its structural domains by use of the well-characterized proteolytic fragments of laminin, E1-4, and E8, and a synthetic peptide, CDPGYIGSR. The E1-4 fragment of laminin did not promote embryo outgrowth. However, the E8 fragment, which contains a heparin-binding domain as well as sites recognized during cell adhesion and neurite outgrowth, vigorously promoted outgrowth in both the presence and absence of heparin, heparan sulfate, or heparinase. Consistent with these results, outgrowth on intact laminin was not inhibited by CDPGYIGSR, a sequence within the E1-4 fragment that is known to mediate the adhesion of some cell types. It is concluded from these results that early trophoblast cells adhere to peptide in the E8 domain of laminin using a mechanism that is independent of the one used for adhesion to fibronectin.     

Laminin responsiveness is associated with changes in fibroblast morphology,motility, and anchorage-independent growth: Cell system for examining the interaction between laminin and EGF signaling pathways

Laminin can influence the adhesion, differentiation, and motility of motility of several cell types, including epithelial and neural cells. In addition, laminin, which contains an epidermal growth factor (EGF)-like motif, can stimulate DNA synthesis in fibroblasts possessing the EGF receptor, but laminin does not compete for EGF binding. To further investigate laminin action in fibroblasts, and the relationship between laminin and EGF receptor function, we have developed a system wherein cells containing laminin-binding activity were cloned from a mouse fibroblast cell line (B82L-wt) that cannot adhere to laminin but that have been transfected with the wild-type human EGF receptor. Although only the isolated clones can efficiently attach to laminin-coated plates, all the cells can adhere to plastic, fibronectin, and collagen I, and all exhibit comparable levels of cell surface-associated laminin. Ligand-binding assays showed that the cells with laminin attachement activity possess high-affinity EGF binding (Kd ～ 0.4 nM), and all express a similar level of the human EGF receptor. However, when compared to the B82L-wt cells, the cells with laminin-binding activity exhibit altered morphology, anchorage-independent growth, and motility. Specifically, the morphology of the fibroblasts possessing laminin binding activity appears more elongated and they spread more-extensively on plastic plates. Analysis of their growth in soft agar revealed that the clones have a 2-5-fold increase in colony formation in comparison to the B82L-wt cells. The cells possessing laminin attachment ability also exhibit laminin-induced motility, and this movement is directional (chemotaxis) rather than random (chemokinesis), indicating functional laminin receptors and signaling pathways. To examine the specific laminin receptors involved in these effects, the influence of anti-integrin subunit antibodies on cell adhesion and migration was evaluated. These studies showed that an anti-α₆ integrin antibody can completely inhibit the clonal cells' attachment and migration to laminin, and anti-α₆ immunoblots revealed that only the clones express measurable levels of α₆. These data indicate that α₆-containing integrins contribute to the lamininmediated attachment and motility of these clones and that this system may also influence the morphology and anchorage-independent growth of these fibroblasts. In addition, these cells provide a unique system for examining the interaction between EGF and laminin receptor action. © 1995 Wiley-Liss, Inc.     

Macrophage interactions with laminin: PMA selectively induces the adherence and spreading of mouse macrophages on a laminin substratum

The ability of thioglycollate (TG)-elicited mouse peritoneal macrophages to adhere to a laminin substratum has been studied. These cells do not adhere to laminin-coated (20 micrograms/ml) surfaces, but the addition of phorbol myristate acetate (PMA; 50 ng/ml) results in their rapid adherence and spreading on this substratum. TG-elicited and PMA-activated macrophages, however, can bind soluble laminin. Macrophages adhere to fibronectin-coated surfaces and tissue culture plastic without PMA stimulation, and PMA does not increase the number of cells that adhere to these surfaces. The predominant surface proteins that bind specifically to laminin-Sepharose exhibit an Mr of 67 and 36 kD, but the expression of these proteins does not increase after PMA stimulation. Laminin receptor antibodies immunoprecipitate the 67-kD protein from radiolabled surface lysates and are capable of blocking macrophage adherence to a laminin substratum. Indirect immunofluorescence microscopy indicates that PMA stimulation does not increase receptor expression, but that it may induce the aggregation of the receptor on the cell surface. PMA stimulation also promotes macrophage spreading and induces a reorganization of the actin cytoskeleton. Taken together, these data indicate the mechanism by which PMA promotes macrophage adherence to laminin does not involve increased 67-kD receptor surface expression, but that it is related to the changes in cytoskeletal and receptor surface organization that occur in response to PMA stimulation.     

Transforming growth factor beta gene expression and action in the seminiferous tubule: peritubular cell-Sertoli cell interactions

The potential role of transforming growth factor beta (TGF beta) as a mediator of cell-cell interactions within the seminiferous tubule was investigated through an examination of the local production and action of TGF beta. Sertoli cells and peritubular (myoid) cells were isolated and cultured under serum-free conditions. Secreted proteins from Sertoli cells and peritubular cells were found to contain a component that bound to TGF beta receptors in RRA. Reverse-phase chromatography of Sertoli cell and peritubular cell secreted proteins fractionated a protein with similar biochemical properties as TGF beta 1. This fractionated protein also contained TGF beta bioactivity in its ability to inhibit growth of an epidermal growth factor-dependent cell line. Both peritubular cells and Sertoli cells contained a 2.4 kilobase mRNA species that hybridized in a Northern blot analysis with a TGF beta 1 cDNA probe. TGF beta 1 gene expression was not detected in freshly isolated germ cells. TGF beta 1 alone was not found to influence Sertoli cell nor peritubular cell proliferation with cells isolated from a midpubertal stage of development. The effects of hormones and TGF beta on Sertoli cell differentiation and function were assessed through an examination of transferrin production by Sertoli cells. TGF beta 1 had no effect on transferrin production nor the ability of hormones to influence transferrin production. The presence of peritubular cells in a coculture with Sertoli cells also did not affect the inability of TGF beta 1 to act on Sertoli cells. Although Sertoli cell function did not appear to be influenced by TGF beta 1, peritubular cells responded to TGF beta 1 through an increase in the production of a number of radiolabeled secreted proteins. TGF beta 1 also had relatively rapid effects on peritubular cell migration and the promotion of colony formation in culture. Cocultures of Sertoli cells and peritubular cells responded to TGF beta 1 by the formation of large cell clusters with ball-like structures. Data indicate that TGF beta may have an important role in influencing the differentiation and migration of peritubular cells. Observations demonstrate the local production of TGF beta within the seminiferous tubule by Sertoli cells and peritubular cells and suggest that TGF beta may have a role as a paracrine-autocrine factor involved in the maintenance of testicular function.     

Dhh signaling pathway regulates reconstruction of seminiferous tubule-like structure

The reconstruction of a tubule-like structure in vitro has provided a promising system to analyze factors that drive morphogenesis and the underlying mechanisms. In this study, we took advantage of the inhibitor cyclopamine and a smoothened agonist to detect the role of the Dhh signaling pathway in the reconstructed tubule-like structure. Sertoli cells did not show polarity, rounded peritubular myoid cells and scattered Leydig cells were observed, combined with less laminin and lower proliferation of Leydig, peritubular myoid, germ, and Sertoli cells. However, in the presence of SAG, elongated peritubular myoid cells gathered at the bottom of polarized Sertoli cells, and most of the Leydig cells gathered at the outer part of the elongated peritubular myoid cells. Moreover, SAG promoted the secretion of laminin, assisting in the formation of the basal membrane and promoting the proliferation of Leydig, peritubular myoid, and germ cells. The level of Gli1 was significantly downregulated when treated with cyclopamine, whereas it was significantly upregulated when treated with SAG. These results indicate that the Dhh signaling pathway regulates the reconstruction of tubule-like structures by regulating the expression of Gli1.     

Cytochemical and biochemical characterization of testicular peritubular myoid cells

Testicular peritubular myoid cells secrete a paracrine factor that is a potent modulator of Sertoli cell functions involved in the maintenance of spermatogenesis. These cells also play an integral role in maintaining the structural integrity of the seminiferous tubule. To better understand this important testicular cell type, studies were initiated to characterize cultured peritubular cells using biochemical and histochemical techniques. The electrophoretic pattern of radiolabeled secreted proteins was similar for primary and subcultured peritubular cells and was unique from that of Sertoli cells. Morphologic differences between Sertoli cells and peritubular cells were noted and extended with histochemical staining techniques. Desmin cytoskeletal filaments were demonstrated immunocytochemically in peritubular cells, both in culture and in tissue sections, but were not detected in Sertoli cells. Desmin is proposed to be a marker for peritubular cell differentiation as well as a marker for peritubular cell contamination in Sertoli cell cultures. Peritubular cells and Sertoli cells were also stained histochemically for the presence of alkaline phosphatase. Staining for the alkaline phosphatase enzyme was associated with peritubular cells but not with Sertoli cells. Alkaline phosphatase is therefore an additional histochemical marker for peritubular cells. Biochemical characterization of peritubular cells relied on cell-specific enzymatic activities. Creatine phosphokinase activity, a marker for contractile cells, was found to be associated with peritubular cells, while negligible activity was associated with Sertoli cells. Alkaline phosphatase activity assayed spectrophotometrically was found to be a useful biochemical marker for peritubular cell function and was utilized to determine the responsiveness of primary and subcultured cells to regulatory agents. Testosterone stimulated alkaline phosphatase activity associated with primary cultures of peritubular cells, thus supporting the observation that peritubular cells provide a site of androgen action in the testis. Retinol increased alkaline phosphatase activity in subcultured peritubular cells. Alkaline phosphatase activity increased in response to dibutyryl cyclic adenosine monophosphate (AMP) in both primary and subcultured peritubular cell cultures. Observations indicate that the ability of androgens and retinoids to regulate testicular function may be mediated, in part, through their effects on peritubular cells. This provides additional support for the proposal that the mesenchymal-epithelial cell interactions between peritubular cells and Sertoli cells are important for the maintenance and control of testicular function. Results imply that the endocrine regulation of tissue function may be mediated in part through alterations in mesenchymal-epithelial cell interactions.