Testosterone metabolism in neuroendocrine organs in male rats under atrazine and deethylatrazine influence

The inhibitory influence of atrazine and deethylatrazine on testosterone metabolism in male rat anterior pituitary and hypothalamus were studied under in vivo and in vitro experimental conditions. In vivo strong influence of atrazine (12 mg/100 g by wt. daily during 7 days) on 5 alpha-R, 3 alpha- and 17 beta-HSD activities was detected in the anterior pituitary. This dose provokes a significant increase in the weight of the pituitary gland, with hyperemia and hypertrophy of chromophobic cells with vacuolar degeneration. In vivo treatment of male rats with the same dose of deethylatrazine markedly inhibited 5 alpha-R activity in the anterior pituitary. The rate of 5 alpha-R activity inhibition in the anterior pituitary was the same after in vivo treatment with atrazine (37.3%) as with deethylatrazine (33.9%). This could suggest that the mechanism of inhibition of deethylatrazine is similar to that of atrazine. In vitro atrazine or deethylatrazine addition into the incubation medium significantly (P less than 0.01) inhibited 5 alpha-R, 3 alpha- and 17 beta-HSD activities in the anterior pituitary. The inhibition of 5 alpha-R activity was marked more by atrazine than deethylatrazine, while 3 alpha- and 17 beta-HSD activities were inhibited at the same rate. In vivo treatment with the same dose of atrazine or deethylatrazine (12 mg/100 g by wt daily 7 days) significantly inhibited (P less than 0.01) 5 alpha-R and 17 beta-HSD at the male rat hypothalamic level. 3 alpha-HSD activity inhibition was not significant for either compound. The in vitro addition of deethylatrazine was much more effective (P less than 0.01) in inhibiting 5 alpha-R, 3 alpha- and 17 beta-HSD in male rat hypothalamus than atrazine. In spite of this, deethylatrazine seems to be less toxic in in vivo experiments due to its higher polarity and faster biodegradation.     

Clinical, endocrine, and molecular genetic findings in patients with 17beta-hydroxysteroid dehydrogenase deficiency

Mutations in the 17beta-hydroxysteroid dehydrogenase (17beta-HSD) type 3 gene are associated with the clinical findings of 17beta-HSD deficiency. We investigated 5 patients of German descent with 46,XY karyotype and predominantly female phenotype. Androstenedione (A) and testosterone (T) levels in serum were determined before and after stimulation with human chorionic gonadotropin. DNA analysis of the whole coding region of the 17beta-HSD type 3 gene was performed by PCR, single-strand conformation analysis, and direct sequencing. In all patients we found highly variable A and T levels before and after stimulation. However, the A-to-T ratio was abnormal in all cases suggestive of 17beta-HSD deficiency. Molecular genetic analysis revealed mutations in all patients. We conclude that A and T levels may be highly variable in patients with 17beta-HSD deficiency. Molecular genetic analysis of the 17beta-HSD gene may support the diagnosis of this disorder.     

The novel mutant scl of the medaka fish, Oryzias latipes, shows no secondary sex characters

A new mutant that has neither male nor female secondary sex characters was found in the medaka, Oryzias latipes. Both XX and XY mature mutants had gonads with many spermatozoa, but spawning did not occur when the mutants were paired with normal males or normal females. F1 progeny were successfully obtained by artificial insemination using unfertilized eggs from wild-type females and spermatozoa of the XY mutant. The mutant phenotype did not occur in the F1 progeny from this cross. Incrossing among the F1 progeny produced 17 mutant offspring out of 68 progeny (25%), demonstrating that the mutant phenotype is caused by a single recessive mutation. This mutant was named scl (sex character-less). Because papillary processes, a male secondary sex character, were induced in the XY mutants by androgen administration, it seems that the androgen receptor is functioning normally. We found a loss-of-function type mutation in the P450c17 gene of the mutant; this gene encodes a steroidogenic enzyme required for the production of estrogen and androgen. The scl phenotype was completely linked to the mutant genotype of P450c17, strongly suggesting that mutation at the P450c17 locus is responsible for the scl mutant phenotype.     

Hormonal differentiation of sexual behavior in Japanese quail

The effect of hormones on the development of Japanese quail during the postembryonic period was examined. First, subcutaneous implants of estradiol monobenzoate (EB) and testosterone propionate (TP) were implanted 6–12 hr after hatching. EB and TP had no effect on the differentiation of sexual behavior in genetic males or females. However, EB had marked feminizing effects on plumage in genetic males. Second, the role of gonadal hormones during development was examined by gonadectomizing males and females 6–12 hr after hatching and treating them intramuscularly with EB or TP as adults. EB-treated adult females displayed sexual behavior typical of the genetic female and developed female plumage. A significant proportion of TP-treated females (57%) displayed male sexual behavior patterns. Cloacal gland development and male-type vocalizations were induced. EB-treated males displayed either male or female sexual patterns depending on the stimulus conditions. Third, to test whether bisexuality in gonadectomized males and females is maintained despite steroid treatment and expression of sexual behavior in adulthood, gonadectomized quail which were originally treated with EB received TP and vice versa. The results indicate that in the absence of gonadal hormones after hatching female quail remain bisexual until exposed to estrogen, whereas gonadectomized male quail retain behavioral bisexuality irrespective of prior estrogen or androgen exposure.     

Male pseudohermaphroditism due to nonsalt-losing 3 beta-hydroxysteroid dehydrogenase deficiency: gender role change and absence of gynecomastia at puberty

Adrenal and gonadal functions were evaluated on two adult cousins with male pseudohermaphroditism due to congenital 3 beta-hydroxysteroid dehydrogenase deficiency (3 beta-HSD) without clinical salt-losing. Both patients had been reared as females since birth. Case 1 presented at age 17 with perineal hypospadias virilization without gynecomastia and a female to male gender role change at puberty. Case 2 had previously undergone bilateral orchidectomy in childhood and presented "primary amenorrhea", absence of virilization and a female gender role at the age of 24. In the basal state, as well as after ACTH and hCG stimulation, 3 beta-hydroxy-5-ene-steroid levels were disproportionately elevated, resulting in abnormal 3 beta-hydroxy-5-ene: 3-oxi-4-ene steroids ratios. Normal basal serum cortisol with inadequate cortisol response to ACTH was observed in both patients. Elevated basal plasma renin activity (PRA) and normal basal serum aldosterone (ALDO) were present in both subjects. After ACTH stimulation serum ALDO rose adequately in Case 1 but subnormally in Case 2. Salt restriction resulted in an increase in serum ALDO and no salt loss in Case 1 whereas in Case 2 the substantial rise in PRA and serum ALDO were unable to prevent slight urinary sodium loss. Case 1 had normal basal serum testosterone with subnormal response to hCG stimulation. Incubation of testicular tissue in vitro with [3H]DHEA resulted in large Androstenediol production but diminished testosterone conversion confirming the 3 beta-HSD deficiency in the testes. We conclude that (1) absence of gynecomastia and a female to male gender role change may be observed in the male pubertal presentation of nonsalt-losing 3 beta-HSD deficiency and (2) the different functional behavior of zona glomerulosa in our patients suggests the presence of variable degrees of 3 beta-HSD deficiency in the zona glomerulosa of the nonsalt-losing form.     

Precise quantitation of 5alpha-reductase type 1 mRNA by RT-PCR in rat liver and its positive regulation by testosterone and dihydrotestosterone

The liver is a multifunctional organ responsible for steroid hormones catabolism. Thus, the enzymes responsible for steroid catabolism are located in the liver, including the steroid 5alpha-Reductase (5alpha-R) (EC 1.3.99.5) which catalyzes the conversion of compounds with Delta(4,5) double bonds such as testosterone (T) into their respective reduced derivatives such as dihydrotestosterone (DHT), which are more hydrosoluble, therefore facilitating their excretion. We present precise measurements of mRNA levels of steroid 5alpha-Reductase type 1 isozyme (5alpha-R1) in the liver of male rats with different androgen status, using a quantitative RT-PCR coupled to laser-induced fluorescence capillary electrophoresis (LIF-CE). By means of this technique, we demonstrate a high level of expression of the gene that encodes 5alpha-R1 isozyme in male rat liver, and both T and DHT exert a positive control on the genetic expression of liver 5alpha-R1 isozyme. Since DHT does not contain a Delta(4,5) double bond, our results raise the possibility that hepatic 5alpha-R type 1 not only participates in the catabolism of steroids with Delta(4,5) double bonds, but also in other physiological functions, perhaps in the masculinization of the external genitalia in males with 5alpha-R type 2 gene deficiency.     

Proliferative effect of androst-4-ene-3,17-dione and its metabolites in the androgen-sensitive LNCaP cell line

As a therapeutic approach for the treatment of androgen-sensitive diseases, it would be tempting to lower the level of the potent androgens testosterone (T) and dihydrotestosterone (DHT) by using inhibitors of type 3 and type 5 17beta-hydroxysteroid dehydrogenases (17beta-HSDs). However, the efficiency of such a strategy will be optimal only if androst-4-ene-3,17-dione (Delta4-dione), the precursor of T, does not possess per se agonist activity on the androgen receptor (AR). To determine if the proliferative effect previously observed on AR(+) cells for Delta4-dione originates from its direct (per se) action on AR or from its transformation into a metabolite, we started a series of experimentations using the human prostate cancer LNCaP cell line, which expresses a highly sensitive AR. By real-time RT-PCR analysis, we detected type 1 5alpha-reductase (5alpha-R), a small amount of type 5 17beta-HSD, but not type 2 5alpha-R nor type 3 17beta-HSD. We then studied the transformation of labeled Delta4-dione in LNCaP cells after 1-7 days and the most important metabolite detected was 5alpha-androstane-3,17-dione (A-dione), which is the product of 5alpha-R activity. We measured only low levels of androsterone (ADT) and epi-ADT. This result was next confirmed by using an inhibitor of 5alpha-R that completely inhibited the transformation of Delta4-dione into A-dione, and consequently into ADT and epi-ADT. The proliferative effect of Delta4-dione (carefully purified) on LNCaP (AR(+)) cells was next determined in presence or absence of the 5alpha-R inhibitor. Although the cells proliferate in the presence of Delta4-dione only, no cell proliferation was observed with a combination of Delta4-dione and 5alpha-R inhibitor, suggesting that Delta4-dione is not androgenic per se. We next determined that A-dione and epi-ADT stimulated cell growth with the same pattern and potency as Delta4-dione, whereas ADT had a 3.5-fold lower proliferative activity. In conclusion, Delta4-dione is not in itself an agonist steroid on LNCaP (AR(+)) cells, and its proliferative activity appears to be mediated by its transformation into A-dione and/or into epi-ADT.     

Syndromes of androgen resistance.

Androgen resistance can be divided into two broad categories: deficiency in 5 alpha-reductase and defects in the androgen receptor. Studies of these two disorders have provided insight into both the normal pathway of androgen action and into the pathogenesis of abnormal sexual development. 5 alpha-Reductase deficiency is a rare autosomal recessive disorder involving the 5 alpha-reductase 2 enzyme; affected males exhibit a defect in virilization most evident as impairment of the virilization of the external genitalia and urogenital sinus. Disorders of the androgen receptor in genetic males cause a spectrum of developmental abnormalities that vary from phenotypic females to men with mild defects in virilization. On functional grounds we have divided these defects into absence of receptor function, qualitatively abnormal receptors, quantitative defects in receptor amount, and apparently normal receptor. Cloning of the cDNA for the receptor and application of the polymerase chain reaction techniques for sequencing of mutants made it possible to analyze these defects at the molecular level. It is now apparent that the functional categorization underestimated the complexity of the mutations. Indeed, major gene deletions and/or rearrangements, single amino acid substitutions, and premature termination codons all can cause variably severe functional abnormalities.     

Molecular biology of disorders of sex differentiation.

Sexual ambiguity can be a difficult and sometimes confusing diagnostic problem in children. Recent developments in molecular biology have provided the opportunity to analyze the gene responsible for testicular determination, SRY, the androgen receptor gene and the gene encoding the cP450 enzyme specific for 21-hydroxylation, CYP21B, whose defects are responsible for congenital adrenal hyperplasia. Southern-blotting studies and PCR analyses of SRY, androgen receptor and CYP21B genes can be routinely used for the direct diagnosis of gonadal dysgenesis, androgen insensitivity syndromes and congenital adrenal hyperplasia, respectively. In sex-reversed XY females, several de novo mutations or deletions in the SRY gene have been reported. Defects in the human androgen receptor cause a spectrum of defects in male phenotypic sexual development associated with abnormalities in the receptor protein. Analyses of the androgen receptor gene structure have identified the causative mutation in some families: mutations that result in large-scale alterations of the structure of the androgen receptor, mRNA or gene mutations that alter the primary structure of the androgen receptor protein and mutations that alter the level of mRNA. The diversity of clinical phenotypes, apparent in 21-hydroxylase deficiency, is paralleled by a considerable degree of mutational heterogeneity in the CYP21 gene locus. Various changes causing severe 21-hydroxylase deficiency have been reported: point mutations, gene conversions and gene deletions. In conclusion, substantial progress has been made elucidating genetic defects causing sex reversal in XY females, the androgen insensitivity syndrome and congenital adrenal hyperplasia. Molecular genetics can also be applied for carrier identification and prenatal diagnosis.     

Effects of sex hormones and gender on attraction thresholds for volatile anal scent gland odors in ferrets

Body odors contribute to mate recognition and sexual partner preference in many mammals, including ferrets. We used a habituation/dishabituation procedure to test whether sex steroid hormones influence whether ferrets will approach and investigate different concentrations of volatile anal scent gland odors from male and female conspecifics. When tested with high concentrations of anal scent gland secretions in oil vehicle, gonadectomized male and female ferrets that received no sex steroids reliably discriminated anal scents from male and female conspecifics. This discrimination most likely reflects gender recognition rather than individual recognition because gonadectomized, sex steroid-treated ferrets discriminated between anal scents of males and females but not between anal scents of individual males or females. Treatment with either the estrogen receptor agonist, estradiol benzoate (EB), or the androgen receptor agonist, 5-alpha dihydrotestosterone proprionate (DHTP), increased investigation of low concentrations of anal scent by gonadectomized ferrets. These data suggest that ferrets could use anal scent gland secretions in mate recognition and that seasonal increases in circulating sex steroid hormones increase ferrets' responsiveness to low concentrations of these odors.     

Expression of aromatase and 17beta-hydroxysteroid dehydrogenase types 1, 7 and 12 in breast cancer. An immunocytochemical study

It is known that there is a local biosynthesis of estradiol (E2) in breast carcinoma. The steroidogenic enzymes involved in E2 formation are aromatase which transforms testosterone into E2 and androstenedione into estrone (E1) and reductive 17beta-hydroxysteroid dehydrogenases (17beta-HSDs) which convert E1 into E2. Using immunocytochemistry, we have studied the expression of aromatase and the three reductive 17beta-HSDs 17beta-HSD types 1, 7 and 12 in 41 specimens of female human breast carcinoma and adjacent non-malignant tissues. These results were correlated with the estrogen receptor alpha (ERalpha) and beta (ERbeta), progesterone receptor, androgen receptor, CDC47 and c-erb B-2 expressions and with the tumor stages. Aromatase was found in 58%, 17beta-HSD type 7 in 47% and 17beta-HSD type 12 in 83% of the breast cancer specimens. The 17beta-HSD type 1 could be detected in only one tumor. A significant correlation was observed between the aromatase, 17beta-HSD type 7 and 17beta-HSD type 12 expression, as well as between each of the two enzymes 17beta-types 7 and 12 and the ERbeta expression. The expression of 17beta-HSD type 12 was significantly higher in breast carcinoma specimens than in normal tissue. There was also a significant association of CDC 47 expression with ERbeta, AR and 17beta-HSD type 12. The results indicate that aromatase, 17beta-HSD type 7 and 17beta-HSD type 12, but not 17beta-HSD type 1, are commonly expressed in human breast cancer. Moreover, the high expression of both 17beta-HSD type 12 and ERbeta in breast carcinoma cells may play a role in the development and/or progression of breast cancer.     

Regulation of sexual odor preference by sex steroids in the posterodorsal medial amygdala in female rats

Our previous study in male rats demonstrated that bilateral administration of flutamide, an androgen receptor (AR) antagonist, into the posterodorsal medial amygdala (MePD) increased the time sniffing male odors to as high as that sniffing estrous odors, eliminating the preference for estrous odors over male odors. This made us speculate that under blockade of AR in the MePD, testosterone-derived estrogen acting on the same brain region arouses interest in male odors which is otherwise suppressed by concomitant action of androgen. In cyclic female rats, endogenous androgen has been thought to be involved in inhibitory regulation of estrogen-activated sexual behavior. Thus, in the present study, we investigated the possibility that in female rats the arousal of interest in male odors is also normally regulated by both estrogen and androgen acting on the MePD, as predicted by our previous study in male rats. Implantation of either the estrogen receptor blocker tamoxifen (TX) or a non-aromatizable androgen 5α-dihydrotestosterone (DHT) into the MePD of ovariectomized, estrogen-primed female rats eliminated preference for male odors over estrous odors by significantly decreasing the time sniffing male odors to as low as that sniffing estrous odors. The subsequent odor discrimination tests confirmed that the DHT and TX administration did not impair the ability to discriminate between male and estrous odors. These results suggest that in estrous female rats estrogen action in the MePD plays critical roles in the expression of the preference for male odors while androgen action in the same brain region interferes with the estrogen action.     

Androgen receptors are required for full masculinization of the ventromedial hypothalamus (VMH) in rats

The ventromedial hypothalamus (VMH) is one of several sexually dimorphic nuclei that regulate mating behavior, and is rich in steroid hormone receptors and aromatase activity. We looked at the contribution of the androgen receptor (AR) to the volume of the VMH in rats by measuring each of the four subdivisions of the VMH in 90 day old male, female, and XY male rats carrying a mutant AR allele (tfm), which renders animals largely unresponsive to androgens. Confirming published reports, total VMH volume was greater in wild-type males than in females (P<0.01). The mean total volume of the VMH in TFM males was intermediate, but not significantly different from either females or males (Ps>0.10). The sex difference in VMH volume was primarily accounted for by the ventrolateral subdivision (VMHvl), which in both females and TFM males was significantly smaller than in wild-type males (Ps<0.005). There was no significant sex difference in the volume of the other three subdivisions of the VMH. Neuronal somata were larger in males than females in VMHvl, central VMH (VMHc) and the dorsomedial VMH (VMHdm), with TFM males having feminine neuronal somata in the VMHdm and VMHc. These data suggest that AR plays a role during sexual differentiation of the VMH, imparting its greatest effect in the VMHvl. ARs may regulate aromatase expression or activity to affect estrogen receptor activation, or may act independently of estrogen receptors to influence VMH morphology.     

Studies of androgen metabolism and action in cultured hair and skin cells

In order to study the mechanism of action of androgen on pubic and scalp hair, we established these and skin epithelial cells in culture. Because 5 alpha-reductase has been suspected of playing a role in hair growth, we tested the possibility that these cells differ in their pattern of androgen metabolism. Furthermore, we tested the hypothesis that androgen exerts its distinctive effects on these hairs by differentially regulating keratin or DNA synthesis. Anagen hairs of men and women were plucked from the pubis or scalp vertex and were studied using an epithelial cell culture technique. DHT formation from [3H]T cultured skin cells increased in the following order: epidermal less than scalp less than pubic less than fibroblasts = 0.8:2.8:8.1:71%/mg DNA/min, respectively. Androstanediols were minor [3H]DHT metabolites of all these skin cell types. The only feature that distinguished among the cultured epithelial cells was the ratio of apparent 5 alpha-reductase (5 alpha-R) to 17 beta-hydroxysteroid dehydrogenase (17 beta-HSD) activity: this was significantly greater (P less than 0.05) in cultured pubic hair cells than in scalp hair or epidermal cells. Cultured scalp and pubic hair cells resembled freshly plucked hair follicle cells in their keratin pattern. 46, 50, 56 and 58 kdalton bands constituted 99% of the total keratins. This keratin pattern and the polygonal cell shape were also similar to that of cultured epidermal cells. However, this keratin pattern was distinctly different from that of hair shafts which have 53 and 63 kdalton keratins. Dihydrotestosterone did not affect the keratin pattern, pattern of incorporation of [35S]cysteine or [35S]methionine, or rates of protein synthesis or cell proliferation in cultured hair cells. Although the higher apparent 5 alpha-R/17 beta-HSD ratio of cultured pubic than of scalp hairs is compatible with modulation of hair development by androgen, these studies militate against the possibility that androgens directly affect hair cell proliferation or protein synthesis in pubic or scalp hair.     

Socially stimulated androgen surges in male hamsters: the roles of vaginal secretions, behavioral interactions, and housing conditions.

The sources of cues necessary for elicitation of androgen surges and sexual behavior in male golden hamsters (Mesocricetus auratus) were investigated. Circulating androgen levels were measured in males after interactions with other males or several types of estrous females: intact females, vaginectomized females, or vaginectomized females scented with vaginal secretions. All groups of males that interacted with estrous females demonstrated significant elevations in androgens whereas those that interacted with other males did not. Thus, the presence of vaginal secretions is not necessary for the elicitation of androgen surges in sexually experienced male hamsters. Individual differences in sexual performance were not correlated with the degree of change in androgen levels, suggesting that such hormonal responses are not graded but are all-or-none. Housing males in isolation from females did not alter either baseline androgen levels or the magnitude of androgen responses caused by interactions with females.     

Aggression and arginine vasopressin immunoreactivity regulation by androgen receptor and estrogen receptor alpha

In the following study, we asked which steroid receptors regulate aggression and arginine vasopressin (AVP) immunoreactivity (– ir) in several limbic regions. Using spontaneous mutant and knockout mice, we generated a novel cross of mice whose offspring lacked estrogen receptor α (ERα), androgen receptor (AR) or both ERα and AR. The wild-type (WT) males and females were compared with ERα knockout (ERαKO) male, mutated AR (Tfm) male and ERαKO/Tfm (double knockout; DKO) male littermates. Animals were gonadectomized and treated with 17β-estradiol (E2) prior to resident-intruder aggression tests. WT and Tfm males showed aggression whereas WT females, ERαKO and DKO males did not. In the lateral septum, WT and Tfm male brains had significantly denser AVP-ir as compared with WT females and DKO males. ERαKO male brains were intermediate in the amount of AVP-ir present. In the medial amygdala, brains from all genotypes had equivalent AVP-ir, except DKO males, which had significantly less AVP-ir. Overall, the expression of aggressive behavior coincided with AVP-ir in WT, Tfm and DKO males. However, in ERαKO males and WT females, the amount of AVP-ir was not associated with resident-intruder aggression. In sum we have shown that E2 acts via ERα to regulate aggression in male mice. In contrast both ERα and AR contribute to AVP-ir in limbic brain regions.     

Differential effects of the anti-estrogen MER-25 and of three 5alpha-reduced androgens on mounting and lordosis behavior in the rat.

Four experiments were performed in order to evaluate further the hypothesis that androgen must be aromatized to estrogen for the activation of masculine sexual behavior in the male rat. In Experiment 1 it was found that the anti-estrogen MER-25 failed to disrupt mounting behavior in castrated males which simultaneously received testosterone propionate (TP). However, in Experiment 2 it was found that MER-25 as weil as 3β-androstanediol effectively activated masculine behavior in castrated males treated simultaneously with dihydrotestosterone propionate. Both MER-25 and 3β-androstanediol had previously been shown to display an affinity for cytoplasmic estradiol-17β receptors present in male rat anterior hypothalamus. In Experiments 3 and 4, performed with ovariectomized females, it was found that whereas MER-25 antagonized the stimulatory effect of estradiol benzoate (EB) on lordosis behavior, 3β-androstanediol did not. In addition, 5α-dihydrotestosterone and 3α-androstanediol, two compounds which had previously been shown to have almost no affinity for estradiol-17β receptors in the hypothalamus, both inhibited the stimulatory effect of EB on lordosis. It is concluded that the fact that anti-estrogens suppress lordosis induced in females with either EB or TP, but fail to disrupt TP-induced mounting behavior in male rats does not argue against the aromatization hypothesis for masculine sexual behavior.     

Expression of adult female patterns of sexual behavior by male, female, and pseudohermaphroditic female rhesus monkeys

Gonadally intact pseudohermaphroditic female and normal female and neonatally castrated male rhesus monkeys were given estrogen treatment as adults and evaluated for attractivity, proceptivity, and receptivity during tests with a tethered stud male. Pseudohermaphrodites were produced by injecting their mothers during pregnancy with either testosterone propionate (TP) or dihydrotestosterone propionate (DHTP). Castrated males had reliably lower attractivity than normal females on all indicator responses shown by the tethered males. Additionally, castrated males showed reliably fewer proceptive responses on 4 of 5 measures than normal females. Receptivity could not be assessed in this situation for castrated males, because tethered males never contacted them unless the castrated males were displaying presentation. No reliable differences were observed between pseudohermaphrodites produced by prenatal treatments with TP or DHTP. Pseudohermaphrodites generally showed reliably less attractivity and proceptivity than normal females and reliably more of these traits than castrated males. Attractivity scores for pseudohermaphrodites were not different from those for normal females until proximity to the tethered male was established. Receptivity was not different in pseudohermaphrodites compared with normal females. Results indicate prenatal androgenization and its developmental sequelae lead to a defeminization in adulthood which, in this testing situation, was principally manifested by a deficiency in the performance of proceptive behaviors. Additionally, defeminization in rhesus monkeys, unlike that demonstrated in rodents, does not depend upon actions of an aromatizable androgen.     

Steroid metabolism in testes of patients with incomplete masculinization due to androgen insensitivity or 17 beta-hydroxysteroid dehydrogenase deficiency and normally differentiated males

For purposes of establishing suitable controls in studies of patients with a suspected enzyme deficiency, activities of enzymes involved in the biosynthesis of testosterone were compared in testes of patients with androgen insensitivity syndrome (AIS) and normally differentiated males with carcinoma of the prostate (Ca prostate) or testis (Ca testis). Activities of 17,20-desmolase and of 3 beta-hydroxysteroid dehydrogenase (3 beta-HSD) were higher in the testes of pre-, peri- or postpubertal patients with AIS than in elderly men (58-80 yr) with Ca prostate. Activities of 17 beta-HSD (reductive direction) and 3 beta-HSD tended to be higher in peri- or postpubertal than in prepubertal patients with AIS. Activity of 3 beta-HSD was low in the patient with Ca testis. In a peripubertal (12 yr) patient with incomplete masculinization due to a severe deficiency of 17 beta-HSD, reductive activity of 17 beta-HSD was very low compared with that of patients with Ca prostate, Ca testis or AIS. In contrast, in testes from the younger sibling (4 yr), in whom the deficiency of 17 beta-HSD was less severe, 17 beta-HSD reduction of dehydroepiandrosterone was as high as that of men with Ca prostate, yet deficient in comparison with that of more closely age-matched patients with AIS. This emphasizes the desirability of using age-matched tissue for control purposes in enzyme studies.