FGF8 coordinates tissue elongation and cell epithelialization during early kidney tubulogenesis.

When a tubular structure forms during early embryogenesis, tubular elongation and lumen formation (epithelialization) proceed simultaneously in a spatiotemporally coordinated manner. We here demonstrate, using the Wolffian duct (WD) of early chicken embryos, that this coordination is regulated by the expression of FGF8, which shifts posteriorly during body axis elongation. FGF8 acts as a chemoattractant on the leader cells of the elongating WD and prevents them from epithelialization, whereas static ('rear') cells that receive progressively less FGF8 undergo epithelialization to form a lumen. Thus, FGF8 acts as a binary switch that distinguishes tubular elongation from lumen formation. The posteriorly shifting FGF8 is also known to regulate somite segmentation, suggesting that multiple types of tissue morphogenesis are coordinately regulated by macroscopic changes in body growth.

Testosterone-induced "Virilization" of Mesonephric Duct Remnants and Cervical Squamous Epithelium in Female-to-Male Transgenders: A Report of 3 Cases.

Mesonephric ducts regress in genotypic females, leaving behind few remnants. These vestigial structures are often recognized in the mesosalpinx and paracervical regions. We report here 3 cases of female-to-male transgenders who underwent hysterectomy following testosterone treatment. Both female and male genital structures were identified on histologic examination. Although the morphologic appearances of the specimens were unremarkable, histologically 1 case revealed a well-formed fallopian tube as well as an epididymis and 2 cases showed prostate glands to be present in the cervical squamous epithelium.

Mesonephric adenocarcinoma of the vagina : Diagnosis and multimodal treatment of a rare tumor and analysis of worldwide experience.

BACKGROUND: Mesonephric adenocarcinoma of the vagina is an extremely rare tumor of the female genital tract, with only a few cases reported so far worldwide. Consequently, there is no established standard treatment and limited knowledge about the prognosis and biologic behavior of vaginal mesonephric adenocarcinoma. METHODS: This report documents a new case of vaginal mesonephric adenocarcinoma diagnosed in a 54-year-old woman, and analyzes this in the context of all previously published cases. RESULTS: MRI demonstrated that the 2.5 × 1.8 cm tumor of the vaginal wall was invading urethra and bladder. Following surgical excision, histologic analysis determined mesonephric adenocarcinoma of the vagina, stage pT2 R1. In order to avoid the mutilating extended surgery which would be required to reach R0 and considerable impairment of quality of life, adjuvant radiochemotherapy was administered with external radiation and brachytherapy, including 5 cycles of cisplatin (40 mg/m²) for radiosensitization. After 4 years of continuous oncologic follow-up, the patient is alive and clinically free of disease. CONCLUSION: In this case it was shown that adjuvant radiochemotherapy with radiation and brachytherapy was effective to manage the surgical R1 situation and maintain the patient's life quality. More published cases reports are needed to gradually substantiate optimal treatment strategies.

The critical time window for androgen-dependent development of the Wolffian duct in the rat.

Androgens are thought to separately regulate stabilization and differentiation of the Wolffian duct (WD), but the time windows for these effects are unclear. To address this, fetal rats were exposed to flutamide within either an early window (EW) [embryonic day 15.5 (E15.5) to E17.5], when the WD degenerates in the female, or a later window (LW) (E19.5-E21.5), when the WD morphologically differentiates in the male, or during the full window of WD development (FW) (E15.5-21.5). WDs were examined for abnormalities during fetal (E21.5) or postnatal life, and anogenital distance and prostate presence/absence were recorded. Exposure to FW- or EW-flutamide, but not to LW-flutamide, induced comparable abnormalities in the fetal WD at E21.5, namely reduced WD coiling, reduced cell proliferation, reduced epithelial cell height, altered epithelial vimentin expression, and reduced expression of smooth muscle actin in the WD inner stroma. Exposure to EW- or FW-flutamide, but not to LW-flutamide, resulted in incomplete/absent WDs in more than 50% of males by adulthood, although such abnormalities were infrequent in fetal life. These findings suggest that androgen action during the EW is sufficient to promote WD morphological differentiation several days later. Because the androgen receptor is expressed in the WD stroma but not in the epithelium during this EW, WD differentiation is likely to be dependent on androgen-mediated signaling from the stroma to the epithelium. In conclusion, the critical window for androgen action in regulating WD development in the rat is between E15.5 and E17.5. This window is also important for prostate formation and anogenital distance masculinization.

MSX2 promotes vaginal epithelial differentiation and wolffian duct regression and dampens the vaginal response to diethylstilbestrol.

In utero exposure to diethylstilbestrol (DES) leads to patterning defects in the female reproductive tract (FRT) and a propensity to the development of vaginal adenocarcinomas in humans. In the mouse, DES treatment similarly induces a plethora of FRT developmental defects, including stratification of uterine epithelium and presence of glandular tissue in cervix and vagina. Uterine abnormalities are associated with repression of the homeobox gene Msx2, and DES leads to an altered uterine response in Msx2 mutants including a dilated uterine lumen. Here we investigate the role of Msx2 in normal vaginal development and in FRT response to DES. During vaginal development, Msx2 is required for Tgfbeta2 and Tgfbeta3 expression and for proper vaginal epithelial differentiation. Moreover, Msx2 is involved in caudal Wolffian duct regression by promoting apoptosis. Consistently, neonatal DES exposure represses Msx2 expression in the Wolffian duct epithelium and inhibits its apoptosis and subsequent regression. Intriguingly, although DES treatment also represses Msx2 expression in the vaginal epithelium, a much more severe DES-induced vaginal phenotype was observed in Msx2 mutant mice, including a complete failure of Müllerian vaginal epithelial stratification and a severely dilated vaginal lumen, accompanied by loss of p63 and water channel protein expression. These results demonstrate a critical role for Msx2 in counteracting the effect of DES on FRT patterning and suggest that the response to DES may be highly variable depending on the genotype of an individual.

Novel androgen-induced activity of an antimicrobial ß-defensin: Regulation of Wolffian duct morphogenesis.

The Wolffian duct (WD) undergoes morphological changes induced by androgens to form the epididymis, which is an organ essential for sperm maturation. Androgen action in WD epithelium involves paracrine factors of mesenchymal origin that function by still poorly understood mechanisms. Here we studied the antimicrobial ß-defensin SPAG11C as a new player in duct morphogenesis, localized prenatally in the WD mesenchyme. Organotypic culture of rat WDs and tissues from Androgen Receptor (AR) knockout mice (ARKO) were used. Our results show that androgen/AR signaling differentially regulated SPAG11C expression at mRNA and protein levels in the developing WD. WDs incubated with recombinant human SPAG11C were shorter and less coiled as a result of reduced epithelial cell proliferation, but not increased apoptosis. Our results suggested ß-defensin SPAG11C as an androgen-target required for WD morphogenesis. This highlights the multifunctional repertoire of the ß-defensin protein family and their potential contribution to the in utero environment that determines male reproductive success.

Androgen-dependent mechanisms of Wolffian duct development and their perturbation by flutamide.

Androgens play a vital role in Wolffian duct (WD) development, but the mechanisms that underlie this are unknown. The present study used in utero exposure of pregnant rats to the androgen receptor antagonist flutamide (50 or 100 mg/kg) to explore possible mechanisms. Pregnant rats were treated from embryonic d 15.5 (E15.5), and WDs were isolated from fetuses from E17.5-E21.5 and from adults. WD morphology was evaluated, and total length of the duct lumen was determined in fetal samples. Fetal WDs were immunostained for androgen receptor and stromal (inner and outer) and/or epithelial-cell-specific markers and analyzed for cell proliferation and apoptosis. In adulthood, most flutamide-exposed males lacked proximal WD-derived tissues, whereas at E18.5-E19.5, a time when the WD has completely regressed in females, a complete normal WD was present in all flutamide-exposed animals. This suggests that flutamide, at doses of 50 or 100 mg/kg, interferes with WD differentiation, not stabilization. Consistent with this, WD elongation/coiling increased in controls by 204% between E19.5 and E21.5 but increased less significantly (103%) in flutamide-exposed animals. This was associated with reduced cell proliferation, but there was no increase in apoptosis or change in expression of androgen receptor mRNA or protein. Flutamide treatment impaired differentiation of inner stromal cells, shown by decreased expression of smooth muscle actin, before effects were noted in the epithelium, consistent with androgens driving WD development via stromal-epithelial interactions. In conclusion, WD differentiation is far more susceptible to blockade of androgen action than is its initial stabilization, and these effects may be mediated by disruption of stromal-epithelial interactions.

The partial female to male sex reversal in Wnt-4-deficient females involves induced expression of testosterone biosynthetic genes and testosterone production, and depends on androgen action.

Wnt-4 signaling has been implicated in female development, because its absence leads to partial female to male sex reversal in the mouse. Instead of Mullerian ducts, Wnt-4-deficient females have Wolffian ducts, suggesting a role for androgens in maintaining this single-sex duct type in females. We demonstrate here that testosterone is produced by the ovary of Wnt-4-deficient female embryos and is also detected in the embryonic plasma. Consistent with this, the expression of several genes encoding enzymes in the pathway leading to the synthesis of testosterone in the mouse is induced in the Wnt-4-deficient ovary, including Cyp11a, Cyp17, Hsd3b1, Hsd17b1, and Hsd17b3. Inhibition of androgen action with an antiandrogen, flutamide, during gestation leads to complete degeneration of the Wolffian ducts in 80% of the mutant females and degeneration of the cortical layer that resembles the tunica albuginea in the masculinized ovary. However, androgen action is not involved in the sexually dimorphic organization of endothelial cells in the Wnt-4 deficient ovary, because flutamide did not change the organization of the coelomic vessel. These data imply that Wnt-4 signaling normally acts to suppress testosterone biosynthesis in the female, and that testosterone is the putative mediator of the masculinization phenotype in Wnt-4-deficient females.

Altered gene expression during rat Wolffian duct development following di(n-butyl) phthalate exposure.

Di(n-butyl) phthalate (DBP) is a common plasticizer and solvent that disrupts androgen-dependent male reproductive development in rats. In utero exposure to 500 mg/kg/day DBP on gestation days (GD) 12 to 21 decreases androgen biosynthetic enzymes, resulting in decreased fetal testicular testosterone levels. One consequence of prenatal DBP exposure is malformed epididymides in adult rats. Reduced fetal testosterone levels may be responsible for the malformation, since testosterone is required for Wolffian duct stabilization and their development into epididymides. Currently, little is understood about the molecular mechanisms of Wolffian duct differentiation. The objective of this study was to identify changes in gene expression associated with altered morphology of the proximal Wolffian duct following in utero exposure to DBP. Pregnant Crl:CD(R) (SD) rats were gavaged with corn oil vehicle or 500 mg/kg/day DBP from GD 12 to GD 19 or 21. There were only small morphological differences between control and DBP-exposed Wolffian ducts on GD 19. On GD 21, 89% of male fetuses in the DBP dose group showed marked underdevelopment of Wolffian ducts, characterized by decreased coiling. RNA was isolated from Wolffian ducts on GD 19 and 21. Together with empirical information, cDNA microarrays were used to help identify candidate genes that could be associated with the morphological changes observed on GD 21. These candidate genes were analyzed by real-time RT-PCR. Changes in mRNA expression were observed in genes within the insulin-like growth factor (IGF) pathway, the matrix metalloproteinase (MMP) family, the extracellular matrix, and in other developmentally conserved signaling pathways. On GD 19, immunolocalization of IGF-1 receptor protein demonstrated an increase in cytoplasmic expression in the mesenchymal and epithelial cells. There was also a variable decrease in androgen receptor protein in ductal epithelial cells on GD 19. This study provides insight into the effects of antiandrogens on the molecular mechanisms involved in Wolffian duct development. The altered morphology and changes in gene expression following DBP exposure are suggestive of altered paracrine interactions between ductal epithelial cells and the surrounding mesenchyme during Wolffian duct differentiation due to lowered testosterone production.

In vitro androgen-induced growth and morphogenesis of the Wolffian duct within urogenital ridge.

Male mouse urogenital ridges (URs) at 15.5 days of gestation (vaginal plug = day 0) containing Wolffian (WDs) and Mullerian ducts were cultured for 4 days with or without gonads in serum-free medium (1:1 mixture of Dulbecco's modified Eagle's medium and Ham's F-12 supplemented with insulin, transferrin, cholera toxin, epidermal growth factor, and BSA). URs without gonads were grown in serum-free medium with testosterone (T, 10(-7) M), 5 alpha-dihydrotestosterone (DHT, 10(-8) M), T (10(-7) M) plus cyproterone acetate (antiandrogen, 10(-5) M), or T (10(-8) M) plus 390 MSD (17 beta-N, N-diisopropylcarbamoyl-4-aza-5 alpha- androstan-3-one, an inhibitor of 5 alpha-reductase, 10(-5) M). After 4 days of culture the number of epididymal curvatures that appeared in the upper portion of WDs were quantified. DNA content of URs grown in serum-free medium was also measured. Both T and DHT increased DNA contents in a dose- (T = 10(-8) to 10(-10) M, DHT = 10(-9) to 10(-11) M) and time-dependent manner. DHT was approximately 10-fold more effective than T in eliciting epididymal coiling and increasing DNA content of URs. The effects of T or DHT were mimicked by coculture with fetal testes. Epididymal coiling and an increase in DNA content occurred in URs grown in the presence of T plus 390 MSD. By contrast, URs cultured without androgens or with T plus cyproterone acetate failed to undergo epididymal coiling and to increase DNA content. The conversion rate per mg protein of [1 beta, 2 beta-3H]T into [3H]DHT was 0.30-fold lower in 15.5 day URs cultured over a 4-day period in comparison to urogenital sinuses whose development is known to be dependent upon DHT. These data suggest that T is an important hormone in the development of the upper portion of WDs, although it is not possible to exclude a role for DHT in the development of the epididymis.

5 alpha-dihydrotestosterone formation is necessary for embryogenesis of the rat prostate.

To determine the role of 5 alpha-dihydrotestosterone (DHT; 17 beta-hydroxy-5 alpha-androstan-3-one) in formation of the embryonic prostate, we quantitated prostatic development in urogenital tracts of control male newborn and offspring of rats treated with a specific 5 alpha-reductase inhibitor (L652,931; Merck, Sharp, and Dohme) during prostate morphogenesis. Treatment with the 5 alpha-reductase inhibitor (50 mg/kg.day) from days 14-22 of gestation impaired development of the prostate and virilization of the external genitalia in male offspring compared to those in control animals. However, virilization of the internal genitalia (seminal vesicles, epididymis) was unaffected. Simultaneous administration of DHT (50 mg/kg.day) with the 5 alpha-reductase inhibitor restored prostate development and anogenital distances of males to normal and virilized the external genitalia of females. We conclude that DHT is the active androgen responsible for prostatic development in the rat.

Luteinizing hormone-dependent activity and luteinizing hormone-independent differentiation of rat fetal Leydig cells.

Addition of 5x10(-2) U/ml recombinant luteinizing hormone (LH) to testes from fetuses at 16.5 day post conception (dpc) cultured for 5 days increased the number of Leydig cells by 34% and the acute LH-stimulated testosterone production by 600%. To determine whether these positive effects of LH in vitro are physiologically relevant in vivo, fetuses were decapitated on days 16.5 pc (before the onset of LH expression in the hypophysis) or 18.5 pc (before the surge of LH in the fetal plasma) and removed at 21.5 dpc. The number of fetal Leydig cells per testis and the acute LH-stimulated testosterone production by the testes ex vivo were unaltered by decapitation. Since, in all groups, the number of Leydig cells doubled between 16.5 and 18.5 dpc and between 18.5 and 21.5 dpc, these results suggest that neither the appearance of new fully differentiated fetal Leydig cells nor the maintenance of differentiated functions in existing fetal Leydig cells depend on LH during late fetal life, although this hormone is present in the plasma. Decapitation reduced the testosterone concentrations in the plasma (-56%) and in the testis in vivo (-67%) and the basal testosterone secretion of the testis ex vivo (-70%). This suggests that LH is required to maintain the physiological activity of the Leydig cell during late fetal life. However, the decrease of the in vivo testosterone production after decapitation was not sufficient to impair the growth of the Wolffian ducts and the lengthening of the anogenital distance. In conclusion, during late fetal life in the rat, Leydig cells are LH-independent for their functional differentiation and LH-dependent for their activity.

Anti-masculinizing action of estradiol and cyproterone acetate: regulation of a protein fraction with phospholipase-A2 stimulatory and masculinizing activities.

Recently we have identified a protein fraction (55-63 K) from male and testosterone-exposed female mouse genital tract, which stimulates phospholipase A2 (PLA2) and induces masculine differentiation in an undifferentiated mouse genital explant, suggesting a role of this protein in the action of testosterone. In the current study we have further investigated the role of this protein by determining whether anti-masculinizing agents, namely, estradiol and cyproterone acetate, have any effect on the production of this protein. The results described here indicate that a protein fraction containing PLA2 stimulatory activity was present in both control male and estradiol- or cyproterone acetate-exposed male fetal genital tract. However the specific activity of the PLA2-stimulatory protein was significantly higher in the control males than in the experimental males. We did not find any major difference in the behavior of this protein fraction in various chromatographic steps except that in CM-sepharose column; the PLA2-stimulatory activity from the male preparation was eluted in two overlapping peaks with 0.3 and 0.25 M NaCl and that from the treated males was eluted only with 0.25 M NaCl. The SDS-gel analysis of this protein fraction revealed a doublet band (55 and 63 K) in control samples and primarily a 63 K band in experimental samples. The protein fraction from all these sources showed a significant difference in their biological activity. The control male preparation induced Wolffian duct whereas the estradiol sample was completely ineffective and the cyproterone acetate sample was partially effective in inducing Wolffian duct. Thus, it appears that the protein fraction has a role in the masculinizing action of testosterone.

Gestational exposure to 2,3,7,8-tetrachlorodibenzo-p-dioxin induces developmental defects in the rat vagina.

At puberty, female rats exposed in utero to 2,3,7, 8-tetrachlorodibenzo-p-dioxin (TCDD) exhibit a persistent thread of mesenchymal tissue surrounded by keratinized epithelium that partially occludes the vaginal opening. Our objective was to determine the earliest time during fetal development that morphological signs of this vaginal canal malformation could be detected and to obtain greater insight into mechanisms involved in this effect. Pregnant rats were administered a single dose of vehicle (control) or TCDD (1.0 microg/kg, po) on gestation day (GD) 15 and were sacrificed on GD 18, 19, 20, and 21 for histological evaluation of female. Gestational exposure to TCDD affected vaginal morphogenesis as early as GD 19, 4 days after exposure of pregnant dams. In exposed fetuses, the thickness of mesenchymal tissue between the caudal Mullerian ducts was increased, which resulted in a failure of the Mullerian ducts to fuse, a process normally completed prior to parturition. In addition, TCDD exposure appeared to inhibit the regression of Wolffian ducts. Thus, TCDD interferes with vaginal development by impairing regression of the Wolffian ducts, by increasing the size of interductal mesenchyme, and by preventing fusion of the Mullerian ducts. Taken together, these effects appear to cause the persistent vaginal thread defect observed in rats following in utero and lactational TCDD exposure.

Region-specific inhibition of prostatic epithelial bud formation in the urogenital sinus of C57BL/6 mice exposed in utero to 2,3,7,8-tetrachlorodibenzo-p-dioxin.

In utero 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) exposure causes abnormal ventral, dorsolateral, and anterior prostate development in wild-type but not aryl hydrocarbon receptor (AhR) null mutant C57BL/6 mice. Experiments have now been conducted to test the hypothesis that TCDD causes an AhR-dependent inhibition of the earliest visible stage of prostate development, the formation of prostatic buds by urogenital sinus (UGS) epithelium. A novel method for viewing budding was developed that uses scanning electron microscopy of isolated UGS epithelium instead of three-dimensional reconstruction of serial histological sections of intact UGS. In the initial experiment, the time course for prostatic epithelial bud formation in vehicle- and TCDD-exposed wild-type C57BL/6J mice was determined. A single maternal dose of TCDD (5 mug/kg) on gestation day 13 delayed the appearance of dorsal, lateral, and anterior buds by about one day, reduced dorsolateral bud number, and prevented ventral buds from forming. No such effects were seen in TCDD-exposed AhR null mutant fetuses, while AhR null mutation, alone, had no detectable effect on budding. Treatment of wild-type dams with sufficient 5alpha-dihydrotestosterone (DHT) to masculinize female fetuses failed to protect against the inhibition of budding caused by TCDD. These results demonstrate that in utero TCDD exposure causes an AhR-dependent inhibition of prostatic epithelial bud formation commensurate with its inhibitory effects on ventral and dorsolateral prostate development, and that the inhibition of budding is not due to insufficient DHT. Inhibited bud formation appears to be the primary cause of abnormal prostate development in TCDD-exposed mice.

Altered gene expression during rat Wolffian duct development in response to in utero exposure to the antiandrogen linuron.

Linuron is an herbicide with weak androgen receptor (AR) antagonist activity. Exposure to linuron from gestation days (GD) 12 to 21 perturbs androgen-dependent male reproductive development. In utero exposure to 50-mg/kg/day linuron induces malformations of the epididymis and the vas deferens. The objective of this study was to identify alterations in gene expression within the testis and epididymis associated with abnormal Wolffian duct development and to correlate changes in gene expression with the gross morphology of the affected epididymides. Pregnant Sprague-Dawley rats were administered either corn oil vehicle or linuron (50 mg/kg/day) by gavage from GD 12 to 21 (n = 3-6 controls, n = 5-10 linuron-treated dams per time point). Changes in gene expression were evaluated in testes on GD 21 and in epididymides on GD 21 and postnatal day (PND) 7, using cDNA microarrays and confirmed by real-time reverse transcriptase polymerase chain reaction (RT-PCR) analyses. RNA was isolated from intact epididymides with reduced or no ductal coiling from the linuron groups, and epididymides with noncontiguous ducts were excluded. In the fetal testis, exposure to linuron did not result in reduced mRNA expression of the AR or that of several steroidogenic enzymes, supporting the hypothesis that linuron does not reduce fetal testosterone production. Linuron induced a significant decrease in AR mRNA expression in GD 21 epididymides. Significant changes in mRNA expression in GD 21 and PND 7 epididymides were also identified in the epidermal growth factor (EGF), insulin-like growth factor 1 (IGF-1), bone morphogenetic protein (BMP), fibroblast growth factor (FGF), and Notch signaling pathways. These pathways are involved in tissue morphogenesis. Changes in the expression of AR and IGF-1 receptors were detected by immunostaining in malformed epididymides from linuron-exposed rats. Linuron induced changes in epididymal gene expression suggestive of altered paracrine interactions between the mesenchyme and epithelial cells during development. The EGF, Notch, IGF-1, BMP4, and FGF signaling pathways may be involved in normal testosterone-mediated development of the Wolffian duct.

Effects of a 5 alpha-reductase inhibitor, finasteride, on the developing prostate and testis of a marsupial.

This study examines the role of dihydrotestosterone in virilization of the developing male tammar. The onset of prostate differentiation in this marsupial species normally occurs around 25 days postpartum, long after the onset of testicular testosterone production immediately after birth and the appearance of 5 alpha-reductase in the urogenital sinus before day 10. Males treated with the 5 alpha-reductase inhibitor Finasteride had reduced prostatic growth and development, and their testicular structure was disorganized. Exogenous testosterone in males enhanced the development of prostatic buds but also caused damage to the testis structure. Treatment of female tammars with testosterone between days 20-30 postpartum stimulated prostatic tissue formation and Wolffian duct development, confirming that prostatic differentiation is initiated by androgens and occurs over a relatively narrow window of time. Testosterone had a deleterious effect on the ovary, destroying the germ cells. Although treatment with testosterone damaged gonadal cellular structure in both male and female tammar young, dihydrotestosterone is apparently necessary for stability of the seminiferous tubules in the testis. Taken together, these results suggest that dihydrotostesterone initiates prostatic development between days 20 and 25 after birth in this marsupial.

The role of fibronectin and laminin in development and migration of the avian Wolffian duct with reference to somitogenesis.

It has been suggested that matrix molecules like fibronectin and laminin influence the differentiation and migration of embryonic cells. We investigated the role of these two glycoproteins in somitogenesis as well as in the differentiation and migration of the avian Wolffian (pronephric and mesonephric) duct. At first, we described essential steps in the development of these two organ anlagen by light microscopy, SEM and TEM. To localize fibronectin and laminin more exactly in the actual stages, we used the indirect immunoperoxidase reaction at the light microscopic level and the peroxidase-antiperoxidase technique at the ultrastructural level. Fibronectin was found at the surface of the unsegmented paraxial mesoderm, increasing in the cranial direction, and in the basal laminae of somites and Wolffian duct. The mesenchymal tip of the duct contains a moderate amount of fibronectin. In the two investigated organ anlagen, laminin was found mainly in the basal laminae. The role of fibronectin and laminin was investigated further by using synthetic peptides that mimic the main cell binding domain of either fibronectin or laminin, and that competitively inhibit their cell surface receptors. Thus, the pentapeptides GRGDS, YIGSR, and for control, SHLVE were micro-injected under the ectoderm of 2-day-old embryos. After treatment with GRDS, the Wolffian duct and the segmental plate are more compact. The rounded cells exhibit only short processes and narrow intercellular spaces. At the side of injection the duct shows a delay in migration. After treatment with YIGSR the Wolffian duct migrated laterally over the somatopleure. The basal laminae seem to be incomplete. SHLVE had no effect. Our results suggest that fibronectin is a prerequisite for the migration of the Wolffian duct, and that laminin probably plays a role in guiding the duct. The epithelialization during somitogenesis and differentiation of the duct is a more complex process involving also fibronectin and laminin.

Effects of in utero linuron exposure on rat Wolffian duct development.

Linuron is an herbicide that displays weak androgen receptor antagonist activity. Male offspring exposed in utero to 50 mg/kg/day linuron often exhibit malformations in Wolffian duct derivatives (i.e. the epididymis and vas deferens). The objectives of this study were to determine the point during the perinatal period that linuron-induced epididymal lesions can be identified, to characterize linuron-mediated perinatal testicular and epididymal pathology, and to determine whether male rat fetuses exposed prenatally to linuron exhibit decreased intratesticular and serum testosterone (T) levels. Pregnant rats were administered corn oil vehicle or linuron by gavage at 0 or 50 mg/kg/day (n = 3 controls, 5-11 linuron-treated dams per time point) from gestation days (GD) 12 to 21 or to termination. Male fetuses or offspring were necropsied on GD 17, 19, and 21, and postnatal days (PND) 7 and 14. Epididymal malformations were not observed in fetuses from linuron-treated dams but were seen in linuron-exposed male offspring on PND 7 and 14. No testicular lesions were observed at any time point. The growth and development of linuron-exposed fetuses were altered, as evidenced by slight decreases in fetal weight and increased levels of immunoreactive proliferating cell nuclear antigen (PCNA) on GD 21. Intratesticular and serum T levels were not decreased in linuron-exposed male fetuses. These findings indicate that the adversely altered adult phenotype following in utero exposure to linuron is very similar to that produced by the antiandrogens di-n-butyl phthalate (DBP) and di(2-ethylhexyl) phthalate (DEHP). However, the absence of testicular lesions or alterations in fetal testosterone levels would suggest that the effect of linuron on the developing Wolffian ducts is distinctly different from DBP or DEHP.

[Action of androgens and one anti-androgen on the genital ducts of young discoglosses. Early development of seminal vesicles and inhibition of mullerian ducts (author's transl)]. / Action d'androgènes et d'un antiandrogène sur le tractus génital de discoglosses juvéniles. Développement précoce des vésicules séminales et inhibition des ébauches mullériennes.

Young Discoglossus pictus Otth (Amphibian, Anura) received either male hormone (testosterone or testosterone propionate) or the anti-steroid anti-androgen cyproterone acetate. The male hormone had a masculinizing effect on the genital tract when observed four months later and, paradoxically, the anti-androgen had the same effect: -- Hypertrophy of the posterior segment of the Wolffian ducts yields seminal vesicles, whose wall is covered with a flat epithelium after androgen treatment. Cyproterone acetate treatment, however, results in the cytological differentiation of this epithelium. -- Müllerian ducts persist in a vestigial form. In this respect, the inhibitory action of cyproterone acetate is stronger than that of the male hormone.