The cysteine-rich domain of the macrophage mannose receptor is a multispecific lectin that recognizes chondroitin sulfates A and B and sulfated oligosaccharides of blood group Lewis(a) and Lewis(x) types in addition to the sulfated N-glycans of lutropin.

The mannose receptor (MR) is an endocytic protein on macrophages and dendritic cells, as well as on hepatic endothelial, kidney mesangial, tracheal smooth muscle, and retinal pigment epithelial cells. The extracellular portion contains two types of carbohydrate-recognition domain (CRD): eight membrane-proximal C-type CRDs and a membrane-distal cysteine-rich domain (Cys-MR). The former bind mannose-, N-acetylglucosamine-, and fucose-terminating oligosaccharides, and may be important in innate immunity towards microbial pathogens, and in antigen trapping for processing and presentation in adaptive immunity. Cys-MR binds to the sulfated carbohydrate chains of pituitary hormones and may have a role in hormonal clearance. A second feature of Cys-MR is binding to macrophages in marginal zones of the spleen, and to B cell areas in germinal centers which may help direct MR-bearing cells toward germinal centers during the immune response. Here we describe two novel classes of carbohydrate ligand for Cys-MR: chondroitin-4 sulfate chains of the type found on proteoglycans produced by cells of the immune system, and sulfated blood group chains. We further demonstrate that Cys-MR interacts with cells in the spleen via the binding site for sulfated carbohydrates. Our data suggest that the three classes of sulfated carbohydrate ligands may variously regulate the trafficking and function of MR-bearing cells.

Induction of pituitary lactotrope differentiation by luteinizing hormone alpha subunit.

Addition of gonadotropin releasing hormone to cultures of fetal rat pituitary induced differentiation of lactotropes as revealed by immunocytochemistry. Antiserum to luteinizing hormone (LH) (recognizing native LH), but not antiserum to LH-beta (recognizing both native LH and its beta subunit), inhibited this induction. Further addition of highly purified LH-alpha subunit in culture medium also induced lactotrope differentiation. Thus, the alpha subunit may have a specific biological activity of its own with probable practical use in clinical investigations.

Role of sialic acid residues in the in vitro superactivity of human choriogonadotropin (hCG) in rat Leydig cells.

The binding activity (B) of porcine Luteinizing Hormone (pLH) to rat LH receptor as well as its stimulating activity (S) of testosterone secretion by rat Leydig cells in vitro are similar to those of the homologous hormone rat LH (S/B = 1). By contrast, the human Chorionic Gonadotropin (CG) and hLH exhibit stimulating activities relative to rat LH that are considerably higher than their relative binding activities (S/B > 100) indicating that they have an abnormally high transducing efficiency (superactivity) after receptor binding. The heterologous hybrid alpha pLH x beta hCG is as superactive as native hCG and recombined alpha hCG x beta hCG whereas alpha hCG x beta pLH exhibits no superactivity, like native pLH and alpha pLH x beta pLH demonstrating that hCG superactivity is due to its beta-subunit. The removal of sialic acid residues with neuraminidase dramatically diminished hCG stimulating activity without impairing its receptor binding activity but the S/B ratio for asialo-hCG never reached values lower than 1. Similar treatments had no effect on the S/B ratios of non-superactive gonadotropins, pLH and equine CG. Sialic acid residues in the Asn beta 30 carbohydrate chains of hLH and hCG appear to be responsible for their superactivity in the in vitro stimulation of testosterone secretion by rat Leydig cells.

Study of the superactivity of equine follicle-stimulating hormone in in vitro stimulation of rat Sertoli cells.

We have previously shown that equine follicle-stimulating hormone (FSH) stimulates plasminogen activator secretion in Sertoli cells at much lower concentrations than would be expected from its relative binding activity. We have introduced the term 'superactivity' to designate this particular behavior. In the present study, we show that equine FSH triggers a long-lasting (20 h) plasminogen activator secretion, whereas rat, porcine and ovine FSH as well as equine LH and equine choriogonadotropin (CG) provoke a short-term response (2.5 h). Moreover, equine FSH was also shown to be superactive in the stimulation of estradiol secretion and cyclic AMP production. This indicates that the step responsible for the long-term stimulation by equine FSH is not located beyond cAMP accumulation. Equine and porcine FSH were found to be equally stable during incubation with the cells demonstrating that equine FSH superactivity was not due to higher stability. Besides, phosphodiesterase inhibition led to a similar increase in the responses to both hormones. This rules out the possibility that equine FSH superactivity is due to less stimulation of phosphodiesterase activity. All these data strongly suggest that equine FSH exhibits superactivity in rat Sertoli cells by stimulating adenylate cyclase activity for a much longer period of time than do all other gonadotropins. The molecular mechanism of this outstanding behavior remains to be elucidated.

Physico-chemical properties of pregnant mare serum gonadotropin.

Pregnant mare serum gonadotropin exhibits a dissociation at acid pH as shown by the drop of s20,w values from 3.52 S at pH 8.1 to 2.52 S at pH 2.0. The dissociation is accompanied by an absorbance change with a maximum at 287 nm and a parallel loss of both follicle-stimulating hormone (FSH) and luteinizing hormone (LH) activities as followed by radioreceptor assays. The apparent pKa of the acid transition is 3.45 with an extremely slow and temperature-dependent rate at pH 2.0 (1.8 . 10(-4) s-1 at 37 degrees C). By gel filtration the molecular weight of the active hormone is estimated to be 45 000 (rather than the previously reported 53 000-64 000). The active conformation of the hormone includes beta sheet structure (34%) as for other gonadotropin hormones with a minor but significative amount of alpha-helix. Four tyrosine residues were titrated, two of pKa = 10.3 and two of pKa = 11 out of a total of seven tyrosines. The parallel changes in FSH and LH activities during the preparation and the acid transition suggest that the two biological activities are intrinsic properties of the same molecular entity.

Determination of the primary and secondary structures of the dromedary (Camelus dromedarius) prolactin and comparison with prolactins from other species.

A non-glycosylated form of camel prolactin (camPRL), isolated from one-humped camel (Camelus dromedarius) pituitaries, was totally sequenced. A glycosylated form, separated by affinity chromatography on ConA-Sepharose, was partially sequenced. The comparison of the N-terminal amino acid sequences of the glycosylated and non-glycosylated forms showed that the only putative site of N-glycosylation (Asn-31) was indeed glycosylated. The far ultraviolet (UV) circular dichroism (CD) spectra of the two isohormones were identical, suggesting that the carbohydrate moiety had no effect on the global camPRL secondary structure. The far UV circular dichroism spectra of the two isohormones were analyzed in order to determine their relative proportions of periodic secondary structure, 60% of which was found to be in alpha-helix, as in prolactins of other species. The dromedary sequence was compared to those of other species and interpreted in term of evolutionary process. As already found for gonadotropins, the closest species to the dromedary was found to be the pig.

Immunochemical study of equine chorionic gonadotropin (eCG/PMSG): antigenic determinants on alpha- and beta-subunits.

In the present study we have established an immunochemical mapping of equine Chorionic Gonadotropin (eCG/PMSG) using three monoclonal antibodies (mAbs), namely the antibodies ECG01, E10 and D7, raised against the native hormone. These antibodies do not bind to reduced, alkylated hormone, suggesting that they recognize discontinuous rather than continuous epitopes. We have also assessed the reactivity of mAbs towards human CG, and ovine, porcine, equine and bovine LH and FSH. The antigenic determinant recognized by ECG01 is localized on the alpha-subunit of equine gonadotropins and of human CG and LH. The epitopes recognized by E10 and D7 mAbs appear to be very similar and are present on the beta-subunit of eCG and of LHs from all species tested, except hLH, as well as on porcine and equine FSHs. Attempts to specify the amino-acid residues involved in these epitopes suggest that ECG01 mAb might preferentially bind to residues around position 70 whereas the region around disulfide bridges Cys-88-Cys-90 might be involved in the epitopes recognized by D7 and E10 mAbs. Topographical relationships of epitopes show that ECG01 mAb never binds to eCG simultaneously with either D7 or E10 mAbs. Furthermore, simultaneous binding of D7 and E10 mAbs on eCG could not be achieved. Thus, these three epitopes appear to be closely located on the surface of eCG. Finally, ECG01 mAb inhibits eCG binding to LH and FSH receptors, suggesting that its antigenic site is closely related to hormone-receptor interaction site(s).

Involvement of G protein-coupled receptor kinases and arrestins in desensitization to follicle-stimulating hormone action.

FSH rapidly desensitizes the FSH-receptor (FSH-R) upon binding. Very little information is available concerning the regulatory proteins involved in this process. In the present study, we investigated whether G protein-coupled receptor kinases (GRKs) and arrestins have a role in FSH-R desensitization, using a mouse Ltk 7/12 cell line stably overexpressing the rat FSH-R as a model. We found that these cells, which express GRK2, GRK3, GRK5, and GRK6 as well as beta-arrestins 1 and 2 as detected by RT-PCR and by Western blotting, were rapidly desensitized in the presence of FSH. Overexpression of GRKs and/or beta-arrestins in Ltk 7/12 cells allowed us to demonstrate 1) that GRK2, -3, -5, -6a, and -6b inhibit the FSH-R-mediated signaling (from 71% to 96% of maximal inhibition depending on the kinase, P < 0.001); 2) that beta-arrestins 1 or 2 also decrease the FSH action when overexpressed (80% of maximal inhibition, P < 0.01) whereas dominant negative beta-arrestin 2 [319-418] potentiates it 8-fold (P < 0.001); 3) that beta-arrestins and GRKs (except GRK6a) exert additive inhibition on FSH-induced response; and 4) that FSH-R desensitization depends upon the endogenous expression of GRKs, since there is potentiation of the FSH response (2- to 3-fold, P < 0.05) with antisenses cDNAs for GRK2, -5, and -6, but not GRK3. Our results show that the desensitization of the FSH-induced response involves the GRK/arrestin system.

The release of plasminogen activator by rat granulosa cells is highly specific for FSH activity.

The release of plasminogen activator by rat granulosa cells in vitro has been shown to be dependent on the concentration of FSH, and it has thus been proposed as a good assay for this hormone. However, it has been recently claimed that relaxin was also able to trigger the release of plasminogen activator by the same cells. In order to check the specificity of the assay, we studied the behavior of a large number of hormones and we found that it was strictly specific for FSH activity.

Comparison of in vitro follicle-stimulating hormone (FSH) activity of equine gonadotropins (luteinizing hormone, FSH, and chorionic gonadotropin) in male and female rats.

Not only equine FSH (eFSH) but also equine LH (eLH) and equine CG (eCG/PMSG) exhibit FSH activity in the rat. The concomitant loss of LH and FSH activities upon dissociation at acidic pH of eLH demonstrates that its FSH activity is intrinsic to the molecule and not due to contamination by FSH. Indeed, this latter hormone dissociates at a much higher pH. The binding activity as well as the in vitro biological activity of the equine gonadotropins were determined on rat gonadal cells from both male and female rats using the homologous hormone rat FSH as a reference. In the female, the biological activity of all of the gonadotropins is strictly related to their binding activity. In the male, this is true for all hormones except eFSH. Indeed, the biological activity of eFSH on rat Sertoli cells is higher than expected from its binding activity. Moreover, the FSH from other species (rat, ovine, and porcine) as well as eLH and eCG inhibit the response elicited by a submaximal dose of eFSH. These data indicate that eFSH acts as a superagonist of rat FSH in rat Sertoli cells, since it triggers cell activation at a much lower concentration than expected from its relative binding activity.

Rapid in vitro desensitization of the testosterone response in rat Leydig cells by sub-active concentrations of porcine luteinizing hormone.

We have studied in rat Leydig cells, the effect of sub-active concentrations of porcine LH on the subsequent stimulation of the cAMP and testosterone production by a sub-maximal concentration of pLH or hCG. We found that extremely low concentrations of pLH (0.01-2.0 ng/ml) were able to induce rapidly a partial but highly significative desensitization of the testosterone response without affecting the cyclic AMP response. These data indicate that desensitization of the steroidogenic response might be due to some lesion beyond cAMP formation or at the level of one discrete compartment of cyclic AMP, directly involved in the control of steroidogenesis. Moreover, our data strongly suggest that the basal circulating concentrations of LH can exert an inhibitory control on the testosterone response to LH pulses in vivo.

Protein kinases and protein synthesis are involved in desensitization of the plasminogen activator response of rat Sertoli cells by follicle-stimulating hormone.

Tissue-type plasminogen activator (tPA) secretion is a specific response of Sertoli cells to follicle-stimulating hormone (FSH), which is lower after preincubation of the cells with low FSH concentrations because of FSH receptor/Gs protein uncoupling. In this report, we present evidence that this desensitization induced by the lowest FSH concentrations is suppressed by specific peptidic inhibitors of endogenous PKA and PKC in permeabilized Sertoli cells. In contrast, desensitization promoted by slightly higher FSH concentrations is not mediated through PKA or PKC activation but is dependent on protein neosynthesis.

Purification and characterization of luteinizing hormone from the dromedary (Camelus dromedarius).

Luteinizing hormone (LH) has been purified from 150 dromedary pituitaries and its partial physicochemical, biological and immunological characterization has been achieved. Purification of the hormone was monitored by a porcine LH radioreceptor assay (RRA). In this system, the final camLH preparation exhibited an activity 0.6-fold that of highly purified porcine LH. The acid half-dissociation of camLH at equilibrium was observed at pH 4.2. A homologous camLH RRA was developed using the testicular plasma membrane fraction from prepubertal camels and radioiodinated, highly-purified camLH. Pituitary and chorionic gonadotropins (CG) from several mammalian species were compared to camLH in this system. The equine gonadotropins eLH and eCG were shown to be 6 times less potent in the camel RRA than in the porcine RRA, whereas the LH from other species exhibited similar activities in both systems. This particularity of camel LH receptors offers a new tool for the study of structural features of gonatropin interactions with their receptors.

Cloning, sequencing and in vitro functional expression of recombinant donkey follicle-stimulating hormone receptor: a new insight into the binding specificity of gonadotrophin receptors.

Among all mammalian FSH receptors (FSH-R; including donkey (dk) FSH-R), only horse (hs) FSH-R does not bind hsLH/chorionic gonadotrophin (CG). In order to delineate the structural origin of hsFSH-R specificity precisely, we have cloned dkFSH-R cDNA from donkey testis mRNA by RT-PCR. Transiently expressed dkFSH-R endowed COS-7 cells with both hsLH/CG- and FSH-binding activity, as well as FSH-induced cAMP production. The deduced dkFSH-R amino acid sequence shares 96% identity with the hsFSH-R: notably, in the hormone-binding domain, the specificity of hsFSH-R may be ascribed to only four divergent amino acids: Thr 173, Asp 202, Asn 268 and Pro 322. Interestingly, hsAsn 268 could bear an additional N-glycosylation. According to receptor negative specificity, these amino acids could be implicated in preventing LH/CG binding to FSH-R.

Two free isoforms of ovine glycoprotein hormone alpha-subunit strongly differ in their ability to stimulate prolactin release from foetal pituitaries.

alpha-Subunit dissociated from glycoprotein hormones has been previously shown to stimulate rat pituitary lactotroph differentiation and proliferation. However, whether the free form of the alpha-subunit (free alpha) can also play such a role is not known. To test whether free alpha may act on prolactin (PRL) release from ovine foetal pituitaries, this molecule was purified and two major isoforms, alphaA and alphaB were isolated. Free alphaA was found to be more acidic and more hydrophobic than both free alphaB and ovine LH alpha-subunit (oLHalpha). Free alphaA and oLHalpha exhibited a molecular mass of 14 kDa as determined by mass spectrometry, whereas free alphaB displayed a molecular mass of only 13.5 kDa because of its truncated N-terminus. All three alpha molecules bear mature-type N-linked saccharide chains including Nacetyl galactosamine residues but none of them contains O-linked oligosaccharide. The free alphaA isoform, more than the oLHalpha, was able to stimulate PRL release from ovine foetal pituitary explants in culture, whereas the free alphaB isoform displayed no activity. Moreover, the free alphaA and alphaB isoforms were able to recombine with the ovine LH beta-subunit (oLHbeta). The free alphaB/oLHbeta, and the oLHalpha/oLHbeta dimer were 4-fold more active than the free alphaA/oLHbeta dimer in a specific LH radioreceptor assay and in the stimulation of testosterone release from rat Leydig cells. The present study demonstrates that the two free alpha isoforms of ovine glycoprotein hormones exhibit distinct efficiencies in stimulating PRL release from ovine foetal pituitaries. Moreover, despite their identical ability to recombine with the oLHbeta, the free alpha isoform, which is the most efficient on PRL release, is the least efficient in conferring LH activity on the alpha/beta dimer.

beta-Subunit 102-104 residues are crucial to confer FSH activity to equine LH/CG but are not sufficient to confer FSH activity to human CG.

Horse LH/CG (eLH/CG) and donkey LH/CG (dkLH/CG) are strictly LH-specific in their respective homologous species. However, both bind to the FSH receptors from non-equid species, whereas the zebra hormone (zbLH/CG) does not. The FSH/LH ratio of eLH/CG and of the alphadkbetae hybrid is about tenfold higher than that of dkLH/CG and of the alphaebetadk hybrid, showing that the betae subunit contains the structural features responsible for the high FSH activity of eLH/CG. Only six amino acid positions (51, 94, 95, 102, 103 and 106) are unique to the betae subunit when compared with the betadk and betazb subunits. The Gly-Pro and Val-Phe sequences in positions 102-103 of betadk and betae respectively were swapped by site-directed mutations and the mutated beta-subunits cDNAs were cotransfected in COS cells with either alphae or alphadk subunit cDNA. Other mutations were also introduced in 102-103 dkLH/CG beta-subunit: Ala-Ala, Gly-Ala or Ala-Pro. These mutations with Ala-Ala, Gly-Ala or Ala-Pro in the 102-103 betadkLH/CG subunit did not change the FSH/LH ratio of dkLH/CG but the Gly(102)-Pro(103)-->Val(102)-Phe(103) mutation promoted a marked increase in the FSH/LH activity ratio. This was observed with the two heterodimers containing alphae or alphadk. Conversely, the Val(102)-Phe(103) mutation in betae led to a dramatic drop in FSH/LH activity ratio of eLH/CG, to a level similar to that of dkLH/CG. Since all FSHs possess a Gly residue at position 104, we introduced the Gly(102)-Pro(103)-Arg(104)-->Val(102)-Phe(103)-Gly(104) mutation in betadk with the expectation that the increase in FSH activity observed with the Gly(102)-Pro(103)-->Val(102)-Phe(103) mutation could be potentiated. In fact, the additional Arg(104)-->Gly(104) mutation was found to abolish the increase in FSH activity observed with Gly(102)-Pro(103)-->Val(102)-Phe(103). Mutations Gly(102)-Pro(103)-->Val(102)-Arg(103) or Gly(102)-Pro(103)-Lys(104)--> Val(102)-Arg(103)-Gly(104) were also introduced in human CGbeta (hCGbeta) to compare the impact of these amino acid changes in the well-studied gonadotrophin hCG. The betahCG mutants obtained, co-expressed either with the human or the horse alpha-subunit, did not display any FSH activity. In conclusion, the 102-104 sequence in eLH/CG beta-subunits appears to be of utmost importance for their binding to FSH receptors. However, these results obtained with equid beta-subunits are not transposable to other gonadotrophins as similar mutations in hCGbeta did not lead to any increase in FSH activity.

Expression of an in vitro biologically active equine LH/CG without C-terminal peptide (CTP) and/or beta26-110 disulphide bridge.

The C-terminal region of the beta subunit of the human chorionic gonadotrophin (hCG) is implied in heterodimer stability (beta26-110 disulphide bridge), in vitro LH bioactivity (region beta102-110) and in in vivo LH bioactivity (beta CTP). Like the hCG beta, the equine eLH and eCG beta subunits, also possess a C-terminal extension (CTP). But, in contrast to hCG, eLH and eCG bind to both LH and FSH receptors in species other than the horse. This allows investigation of the roles of the beta subunit C-terminal region of a eLH/CG recombinant molecule on both LH and FSH activities. To do so, the CTP was deleted and/or the beta26-110 disulphide bond was mutated and the resulting mutated beta subunits were transiently co-expressed with common alpha subunit in COS7 cells. These regions were also deleted in a betaalphaeLH/CG single chain also expressed in COS7 cells. The hormones produced were characterized by different ELISAs and in vitro LH and FSH bioassays. Mutation of the 26-110 disulphide bond and deletion of the betaCTP led to a decrease in eLH/CG heterodimer production. Double mutation promoted an additive effect on production of the heterodimer and of the corresponding tethered eLH/CG. The elimination of the beta26-110 disulphide bond in the betaalpha single chain had no effect on its production. However, neither the 26-110 disulphide bond nor the CTP mutations affected dimer stability and bioactivities of the secreted heterodimers and/or single chain molecules. Therefore, in contrast to hCG, the 26-110 S-S bond of the recombinant eLH/CG beta subunit does not seem to be essential for eLH/CG dimer stability upon secretion and expressing LH and FSH bioactivities.

Expression of horse and donkey LH in COS-7 cells: evidence for low FSH activity in donkey LH compared with horse LH.

Horse (Equus caballus) luteinizing hormone (eLH) and chorionic gonadotrophin (eCG), which have the same amino acid sequence, are unusual in that, although they express only LH activity in equids, they express dual LH and FSH activities in all other species tested. Donkey (Equus asinus) LH (dkLH) and CG (dkCG), which also share an identical peptide backbone, have been less well characterized and conflicting results concerning their FSH activity in heterologous species have appeared in the literature. In order to assess and compare the intrinsic LH and FSH activities of the horse and donkey LHs in heterologous species, recombinant eLH (r.eLH/CG) and recombinant dkLH (r.dkLH/CG) were expressed, for the first time, in COS-7 cells. Their LH activities were assessed in a rat Leydig cell bioassay, and their FSH activities were estimated in a bioassay using Y1 cells stably expressing the human FSH receptor. Human CG (hCG) was expressed (r.hCG) and analysed in the same system. The results showed that, whereas r.dkLH/CG was about twice as active as r.eLH/CG in the LH bioassay, it was five times less active than r.eLH/CG in the FSH bioassay; r.hCG was about three times less active than r.eLH/CG in the LH bioassay but was completely inactive in the FSH bioassay. These results confirm that dkLH/CG possesses significant FSH activity in heterologous species that is not attributable to contamination with FSH.

Evidence that the alpha-subunit influences the specificity of receptor binding of the equine gonadotrophins.

Horse LH/chorionic gonadotrophin (eLH/CG) exhibits, in addition to its normal LH activity, a high FSH activity in all other species tested. Donkey LH/CG (dkLH/CG) also exhibits FSH activity in other species, but about ten times less than the horse hormone. In order to understand the molecular basis of these dual gonadotrophic activities of eLH/CG and dkLH/CG better, we expressed, in COS-7 cells, hybrids between horse and donkey subunits, between horse or donkey alpha-subunit and human CG beta (hCG beta), and also between the porcine alpha-subunit and horse or donkey LH/CG beta. The resultant recombinant hybrid hormones were measured using specific FSH and LH in vitro bioassays which give an accurate measure of receptor binding specificity and activation. Results showed that it is the beta-subunit that determines the level of FSH activity, in agreement with the belief that it is the beta-subunit which determines the specificity of action of the gonadotrophins. However, donkey LH/CG beta combined with a porcine alpha-subunit exhibited no FSH activity although it showed full LH activity. Moreover, the hybrid between horse or donkey alpha-subunit and hCG beta also exhibited only LH activity. Thus, the low FSH activity of dkLH/CG requires an equine (donkey or horse) alpha-subunit combined with dkLH/CG beta. These results provide the first evidence that an alpha-subunit can influence the specificity of action of a gonadotrophic hormone.

Beta2 adrenergic receptors mediate cAMP, tissue-type plasminogen activator and transferrin production in rat Sertoli cells.

FSH is the main regulator of Sertoli cell function. Nevertheless, several other effectors such as catecholamines can also stimulate these cells through the adenylyl cyclase transduction pathway. However, the expression of beta adrenergic receptors in Sertoli cells is a subject of controversy. The aim of the present study was to determine if there are physiologically functional beta adrenergic receptors in Sertoli cells and to which subtype(s) they belong. In freshly isolated Sertoli cells, isoproterenol, a non selective beta-adrenergic agonist, was found to stimulate cAMP production and tissue-type plasminogen activator secretion. Specific transcripts for the beta1 and beta2, but not beta3, subtypes were detected by RT-PCR analysis. Beta2 transcripts were the form expressed predominantly in Sertoli cells. Binding experiments carried out on freshly isolated and on cytospined Sertoli cells indicated that in both conditions, [125I]iodocyanopindolol binding was inhibited by a non-selective and a 2 selective antagonist, whereas a beta1 selective antagonist had no effect. Scatchard analysis of beta2 specific inhibition revealed a dissociation constant of 0.3 nM and a receptor density of 14000 sites per cell. In freshly isolated Sertoli cells, we observed that cAMP and tissue-type plasminogen activator were stimulated by isoproterenol and a beta2 selective agonist, but not by beta1 or beta3 selective agonists. Accordingly, the isoproterenol-stimulated tissue-type plasminogen activator responses were abolished by the beta2 selective antagonist only. In cultured Sertoli cells, the trend was the same: tissue-type plasminogen activator and transferrin secretions were increased by isoproterenol and beta2 but not by beta1 or beta3 selective agonists. We conclude that freshly isolated Sertoli cells express beta2 adrenergic receptors which are functionally coupled to adenylyl cyclase and that these characteristics are preserved in cell culture. For the tested parameters, catecholamines and FSH effects were similar, but response magnitudes were systematically lower with beta agonists than with FSH. As norepinephrine is normally present in physiologically-relevant amounts in the interstitial fluid, it can be suspected to play a role in the regulation of Sertoli cell function.