Novel molecular events associated with altered steroidogenesis induced by exposure to atrazine in the intact and castrate male rat

Toxicology is increasingly focused on molecular events comprising adverse outcome pathways. Atrazine activates the hypothalamic-pituitary adrenal axis, but relationships to gonadal alterations are unknown. We characterized hormone profiles and adrenal (intact and castrate) and testis (intact) proteomes in rats after 3 days of exposure. The adrenal accounted for most of the serum progesterone and all of the corticosterone increases in intact and castrated males. Serum luteinizing hormone, androstenedione, and testosterone in intact males shared a non-monotonic response suggesting transition from an acute stimulatory to a latent inhibitory response to exposure. Eight adrenal proteins were significantly altered with dose. There were unique proteomic changes between the adrenals of intact and castrated males. Six testis proteins in intact males had non-monotonic responses that significantly correlated with serum testosterone. Different dose–response curves for steroids and proteins in the adrenal and testis reveal novel adverse outcome pathways in intact and castrated male rats.     

Possible androgenic/anti-androgenic activity of the insecticide fenitrothion

To date, within the field of endocrine disruption, much focus has been placed on chemicals that mimic oestrogens (so-called xenoestrogens), and the number of such chemicals apparently detected continues to grow steadily. Less effort has been expended on investigating chemicals that mimic, or antagonize, other hormones. Nevertheless, a number of chemicals have been reported to have a weak affinity for the androgen receptor, all of which have, to date, been found to have anti-androgenic activity in vivo. In this report, we present evidence that the insecticide fenitrothion can interact with the androgen, but not with the oestrogen, receptor. Using recombinant yeast expressing the human androgen receptor, we found that fenitrothion behaved as an androgen agonist in vitro when tested alone, and that it could antagonize the androgen DHT when both chemicals competed for the androgen receptor in vitro. In vivo studies using both intact and castrated male rats showed no conclusive androgenic or anti-androgenic responses. Changes in organ weights suggestive of anti-androgenic effects were mitigated against by the reduced body weights of fenitrothion-treated rats. The toxicity of the compound precluded the use of higher dose levels to substantiate any tentative findings. Interestingly, fenitrothion (and related insecticides) is structurally similar to flutamide, an anti-androgen used clinically that gives clearly positive responses in both intact and castrated rats.     

Testosterone facilitates the baroreceptor control of reflex bradycardia: role of cardiac sympathetic and parasympathetic components

Reported clinical and experimental findings have shown that baroreflex control of heart rate is attenuated in women compared with men. This study investigated whether the sexual dimorphism in baroreflex function relates to the ability of the male hormone testosterone to facilitate baroreflex responsiveness. Relative contributions of the vagal and sympathetic autonomic components to testosterone modulation of baroreflex function were also investigated. Baroreflex curves relating changes in heart rate to increases or decreases in blood pressure evoked by phenylephrine and sodium nitroprusside, respectively, were constructed in sham-operated rats and castrated rats with and without testosterone replacement. Slope of the curves was taken as an index of baroreflex sensitivity (BRS PE and BRS NP ). Castration (for 10 days) significantly reduced plasma testosterone levels and attenuated reflex bradycardia, as indicated by significantly smaller BRS PE in castrated rats compared with values in sham-operated rats (-0.85 +/- 0.07 vs. -1.51 +/- 0.10 beats/min per mm Hg). Testosterone replacement in castrated rats restored plasma testosterone and BRS PE to levels similar to those of sham-operated rats. Muscarinic blockade by atropine caused 55% reduction in BRS PE in sham-operated rats, an effect that was significantly (p < 0.05) attenuated in castrated rats and restored to intact levels after testosterone supplementation. beta-Adrenergic blockade by propranolol caused slight and insignificant decreases in BRS PE. Castration and testosterone supplementation had no effect on BRS NP, ruling out a modulatory effect of testosterone on reflex tachycardia. These data provide the first experimental evidence of a favorable role for testosterone in baroreceptor control of reflex bradycardia. Further, baroreflex modulation by testosterone appears to be autonomically mediated and involves an enhancement of cardiomotor vagal activity.     

Sex and age differences in the effect of verapamil on rat cardiac function

The author reports that a relatively high dose of verapamil produces sex-related cardiac effects, especially on the conducting system in adult rats. A single dose of verapamil (0.5-1 mg/kg, i.v.) caused a marked AV block and a reduction in heart rate to 50-60% in adult males, but not in females. There was no sex difference in the hypotensive effect of verapamil. At 3, 5 or 7 weeks of age, verapamil (1 mg/kg, i.v.) induced a 10-20% reduction of the heart rate without AV block in both male and female rats. In 8-week-old male rats, the reduction in the heart rate became apparent, and AV block appeared following a single i.v. injection of verapamil. The adult pattern in cardiac response to verapamil was observed at 11 weeks of age and afterward. Castration in adult male and female rats resulted in an intermediate pattern of the response to verapamil in intact male and female rats. Acute treatment with testosterone (20 mg/kg, s.c.) in castrated male and female rats induced a decrease in the basal heart rate and increased the cardiac responsiveness to verapamil in castrated female rats. Estradiol-17 beta failed to alter the responsiveness of castrated rats to verapamil. These results suggest that testosterone may play a role in the sex difference of the cardiac responses to verapamil in rats.     

Effects of castration on cannabinoid cb receptor expression and on the biological actions of cannabinoid in the parotid gland

In the present study, we examined whether cannabinoid receptor expression and the effects of receptor stimulation vary as a function of gonadal status in a peripheral tissue, namely the male rat parotid gland. Four groups of male rats were studied: gonadal intact, castrated, castrated testosterone (1 mg/100 g bodyweight) treated and gonadal intact testosterone treated. 2. The results showed that the density of CB(1) receptors decreased after castration and that receptor density was restored to control values after testosterone treatment. This decrement was associated with a decrease of anandamide (10(-10) to 10(-5) mol/L)-induced cAMP accumulation and amylase release without changes in the anandamide-induced inhibition of Na(+)/K(+)-ATPase activity. 3. Castration did not modify either the subtype of cannabinoid receptor involved in the actions of anandamide or drug affinity for the receptor. 4. The mechanism underlying anandamide-induced cAMP accumulation, amylase release and inhibition of Na(+)/K(+)-ATPase activity, namely through the activation of adenylyl cyclase, was the same in control and castrated rats. 5. Basal cAMP accumulation, amylase release and Na(+)/K(+)-ATPase activity were not altered by castration. 6. Castration had no effect on the concentration of total protein. 7. It can be concluded that CB(1) cannabinoid receptor expression is regulated by testosterone in male rat parotid gland and this has functional implications for cAMP accumulation and amylase release.     

Effect of steroid hormone treatment on aryl hydrocarbon hydroxylase activity in the Syrian hamster kidney

Aryl hydrocarbon hydroxylase (AHH) activity was determined in castrate and intact male Syrian hamster kidney and liver microsomes following in vivo treatment with either diethylstilbestrol (DES) or 17β-estradiol as well as other steroid hormones. After 1 month of estrogen treatment, there was a 5-fold decline in AHH activity in castrated hamster kidneys compared with untreated castrate levels. the amount of AHH activity in the kidney was depressed more than 75% of untreated castrate levels even after the estrogen had been withdrawn for 6 days. Consistent with a nearly 2.5-fold higher renal AHH activity observed in intact male hamsters compared to castrates was the finding of a 1.7-fold elevation in the activity of this enzyme after treatment of castrated animals with androgen[5α-dihydrotestrosterone (5α-DHT)] for 1 month. Moreover, following withdrawal of estrogen from intact hamsters, the increase in AHH activity in the kidney essentially paralleled the rise in serum testosterone levels. In castrated animals, the depression of AHH activity by estrogen was partially reversed by concomitant 5α-DHT treatment. However, no appreciable changes were seen in liver AHH activity with androgen treatment in the presence or absence of estrogen. Similarly, the level of AHH activity, which was nearly 7- and 14-fold higher than intact and castrate kidney levels, respectively, was not altered by estrogen treatment. Neither progesterone nor cortisone had any effect on the levels of AHH activity in either the kidney or liver. Therefore, AHH activity in the male hamster kidney, but not the liver, is responsive to both estrogens and androgenic hormone.     

鹿茸益肾胶囊治疗肾阳虚证阳痿的药效学研究

目的：研究鹿茸益肾胶囊治疗肾阳虚证阳痿的药效学机制。方法：观察鹿茸益肾胶囊对去势雄性大鼠阴茎勃起潜伏期的影响,对去势雄性大鼠附性器官和垂体、肾上腺、胸腺、脾脏质量系数的影响,对去势雄性大鼠性腺内分泌激素血清含量的影响,对氢化可的松致阳虚模型小鼠的影响。结果：鹿茸益肾胶囊能够提高去势雄性大鼠阴茎对刺激的兴奋性,显著缩短勃起潜伏期,提高去势雄性大鼠附性器官的质量系数;提高去势雄性大鼠垂体、肾上腺质量系数;降低去势雄性大鼠胸腺、脾脏质量系数;显著升高大鼠血清睾酮（T）、皮质醇（F）含量、显著降低血清促黄体生成素（LH）、促卵泡刺激素（FSH）含量;显著改善阳虚小鼠的阳虚症状,增强生命力。结论：鹿茸益肾胶囊具有温阳益肾的作用,可用于治疗肾阳虚证阳痿、性功能减退。     

Facilitation of copulatory performance in male rats by naloxone: Effects of hypophysectomy, 17 α-estradiol,and luteinizing hormone releasing hormone

Three experiments were performed to explore the mechanism whereby systemic administration of the opiate receptor antagonist, naloxone hydrochloride (20 mg/kg) causes reductions in the frequency of intromissions preceding ejaculation and latency to ejaculation in sexually experienced male rats. Administration of naloxone to male rats which were hypophysectomized in addition to being castrated and implanted SC with 30 mm silastic capsules containing testosterone caused such behavioral changes, suggesting that these behavioral effects of naloxone do not result from interference with the binding of endorphin of pituitary origin. Surprisingly, a significant facilitatory effect of naloxone on sexual performance was absent in castrated controls bearing 30 mm testosterone implants. Recent evidence suggests that 17α-hydroxylated estrogens, which may be produced in gonadally intact males, possess appreciable affinity for opioid receptors. However, daily administration of 17α-estradiol (50 μg) to castrated, testosterone-implanted males failed to make them as behaviorally responsive to naloxone as gonadally intact animals. Administration of LHRH (1 μg given SC 1.5 hr prior to testing) caused a significant reduction in ejaculation latency in gonadally intact males but not in castrated males bearing 30 mm testosterone implants. It is suggested that the facilitatory effect of naloxone on masculine sexual performance results, in part, from a drug-induced release of LHRH.     

Androgen deprivation, estrogen treatment and vascular function in male rat aorta

The beneficial effects of estrogen on arterial function in women are well established, whereas studies concerning the vascular role of androgens have produced conflicting results. In the present study, we examined the effects of androgen deprivation and of estrogen treatment on vascular responses in male rats. Vascular reactivity was studied in aortic rings excised from intact and castrated rats, which had been implanted with capsules containing either 17beta-estradiol (E2) or its vehicle for 5 days. Contractile responses to noradrenaline were potentiated by castration and by E2 treatment. Concentration-response curves for N-methyl-L-arginine and superoxide dismutase indicated that the tone-related release of NO increased in tissues from castrated, compared with intact rats, but was not affected by E2 treatment. Endothelium-dependent relaxation elicited by carbachol and histamine were not altered by castration and were attenuated by E2 in preparations from intact, but not from castrated rats. Moreover, aortic prostacyclin release dropped by about 40% after E2 treatment in tissues from both intact and castrated animals. Similarly, smooth muscle sensitivity to NO significantly decreased following castration and E2 treatment, as assessed by responses to sodium nitroprusside. Finally, no differences among groups were detected in platelet thromboxane A2 production. Thus, vascular responses in male rats were not improved by androgen deprivation alone or by E2 treatment, whose effects differed in the presence or absence of androgens. These findings provide evidence for the gender specificity of the vascular effects of estrogen and may be consistent with a beneficial role of physiologic levels of male sex hormones in arterial function.     

Altered regulation of pituitary gonadotropin-releasing hormone (GnRH) receptor number and pituitary responsiveness to GnRH in 2,3,7,8-tetrachlorodibenzo-p-dioxin-treated male rats

2,3,7,8-Tetrachlorodibenzo-p-dioxin (TCDD) increases the potency of androgens as feedback inhibitors of luteinizing hormone (LH) secretion. Our objectives were to determine if this increase is due to pituitary or hypothalamic dysfunction (or both), and to investigate the mechanism by which TCDD produces this effect. Seven days after dosing, TCDD inhibited the compensatory increases in (i) pituitary gonadotropin-releasing hormone (GnRH) receptor number, (ii) LH secretory responsiveness of the pituitary to GnRH, and (iii) plasma LH concentrations which should have occurred in response to TCDD-induced decreases in plasma testosterone concentrations. TCDD did not inhibit these compensatory responses in the absence of testicular hormones, while treatment of castrated rats with testosterone restored the ability of TCDD to prevent these increases. These findings demonstrate that TCDD alters the androgenic regulation of pituitary GnRH receptor number and pituitary responsiveness to GnRH stimulation. The pituitary is therefore a target organ for TCDD; whether a hypothalamic defect is also involved in the altered regulation of LH secretion was not resolved. The compensatory increases in pituitary GnRH receptor number and plasma LH concentration elicited by low plasma testosterone concentrations were inhibited by similar doses of TCDD (ED50 20 micrograms TCDD/kg for both responses). We concluded that TCDD increases the potency of androgens as feedback inhibitors of LH secretion by increasing their potency as regulators of both pituitary GnRH receptor number and GnRH responsiveness. This is the first demonstration that TCDD treatment (i) affects pituitary responsiveness to a hormone secreted by a peripheral organ (testosterone), and (ii) alters the regulation of pituitary responsiveness to a hypothalamic hormone (GnRH).     

Effects of perinatal exposure to flutamide on sex hormone responsiveness in F1 male rats

Pregnant rats were administered flutamide (0 and 10 mg/kg, p.o.) from gestation Day 14 to post-parturition Day 3 and effects on responsiveness to androgens (testosterone propionate, TP; dihydrotestosterone, DHT) in male offspring were examined with a Hershberger assay. Male pups of each group were assigned to 6 subgroups as follows: Group 1, castration and euthanized at postnatal Day 46 (PND 46); Group 2, castration + vehicle; Group 3, castration + TP; Group 4, castration + DHT; Group 5, vehicle; Group 6, DHT. After castrations were conducted at PND 36, animals were treated with TP (2 mg/kg in corn oil, s.c.) or DHT (1.25 mg/kg in corn oil, s.c.) once a day for 10 days, beginning at PND 46. At PND 56, the following organs/tissues were removed and weighed: ventral prostate, dorso-lateral prostate, seminal vesicles with coagulating glands, levator ani muscle plus bulbocavernosus muscle, Cowper's gland, and glands penis. Analysis of serum testosterone, LH and FSH in Groups 2, 3, 4, 5 and 6, and RT-PCR using prostate tissue from Groups 2, 3 and 4 were carried out. Perinatal exposure to flutamide caused decreased weights of androgen-dependent organs. Responses to androgens were recognized in organs of all castrated groups, with increased organ weights, especially in animals administered TP where values were essentially equal to or greater than those of intact animals in both the control and the 10 mg/kg group. On the other hand, the degree of weight increase of the ventral prostate and seminal vesicles with TP or DHT treatment in castrated animals was smaller in the flutamide administration group than in the controls. In hormone assays, castrated + vehicle animals showed higher serum LH than the other groups. Serum FSH was high in the castrated groups (Group 2>Group 4>Group 3), while in the noncastrated group a constant level was noted, with or without flutamide. No effect of flutamide administration was observed regarding sex hormone. RT-PCR using ventral prostate tissue revealed no significant differences in expression of AR, C3, VEGF, TGF-beta1, beta2, KGF and CK8 mRNA after androgen treatment between the control and flutamide treatment groups. C3 mRNA was increased in androgen-treated animals, whereas AR, TGF-beta and KGF mRNAs were decreased. Perinatal exposure to anti-androgen causes irreversible abnormalities in male pups. Concerning the responsiveness to TP and DHT, the degrees of weight changes in ventral prostate and seminal vesicles in castrated animals were decreased. However, the other organ weights, the sex hormone levels and androgen-reactive gene expression in the ventral prostate were not influenced by perinatal flutamide treatment in the present study.     

The influence of sex hormones on vascular responses in the aorta of streptozotocin-diabetic male rats

Diabetes mellitus reduces gender-related differences in the prevalence of cardiovascular disease by fading the vascular protective effects afforded by estrogen in females. However, the impact of estrogen treatment on and the contribution of androgens to vascular function in vessels from male diabetics are largely unknown. We investigated the effects of androgen deficiency and in vivo estrogen treatment by assessing the responsiveness to a number of vasoactive agents and the formation of eicosanoid mediators in aortic rings from intact and castrated streptozotocin-diabetic rats which had been implanted with 17beta-estradiol (E2) or its vehicle for 5 days. Castration was found to attenuate contractility to noradrenaline, to enhance tone-related release of NO, as shown by curves for N-methyl-L-arginine and superoxide dismutase (SOD), and to increase endothelium-dependent relaxation to carbachol and histamine, compared with intact animals. Smooth muscle sensitivity to exogenous NO and platelet thromboxane A2 production were unchanged but prostacyclin release by aortic tissue dropped by about 40% following castration. Treatment with E2 to intact animals still attenuated contractility to noradrenaline and potentiated relaxation to SOD and histamine but affected no other parameters. In contrast, when E2 was administered to castrated animals, responses to SOD, carbachol and histamine were significantly impaired. Thus, androgen deprivation appears to improve vascular function in male diabetic rats, whereas E2 treatment exerts some beneficial effects in intact, but not in castrated animals. Our findings therefore provide new insights into the role of sex hormones in the development of diabetic vascular complications.     

Effects of pantothenic acid supplementation on adrenal steroid secretion from male rats

The effects of pantothenic acid-supplementation on the adrenal secretion of corticosterone and progesterone in male rats were investigated using an in vitro cell culture system. Male rats at 21 d of age were given 0.03% pantothenic acid in their drinking water for 9 weeks. After 9 weeks of treatment, the animals were decapitated, and adrenal cells were cultured in the absence or presence of rat adrenocorticotropic hormone (ACTH; 10(-15) to 10(-10) M) and/or ovine prolactin (oPRL; 10(-9) to 10(-7) M) for 4 h. Adrenal cells in pantothenic acid-treated rats exhibited higher basal levels of corticosterone and progesterone than control rats. The response of ACTH and/or PRL on corticosterone and progesterone release was higher in the pantothenic acid-treated rats than in the control rats. In addition, PRL increased the stimulatory effect of ACTH-induced corticosterone secretion in both normal and pantothenic acid-treated rats. These results clearly demonstrated that pantothenic acid supplementation stimulates the ability of adrenal cells in male rats to secrete corticosterone and progesterone. Additionally, these results also showed that pantothenic acid supplementation induced adrenal hyperresponsiveness to ACTH stimulation, and PRL further stimulated adrenal sensitivity to ACTH.     

Testosterone depletion contributes to cyclosporine-induced chronic impairment of acetylcholine renovascular relaxations

The immunosuppressant drug cyclosporine causes nephrotoxicity mainly via alterations of renovascular reactivity. This study investigated whether this effect of cyclosporine is modulated by the male gonadal hormone testosterone. The endothelium-dependent and -independent relaxations evoked by acetylcholine and sodium nitroprusside, respectively, were evaluated in phenylephrine-preconstricted isolated perfused kidneys obtained from sham-operated, castrated, and testosterone-replaced castrated (CAS+T) male rats in the absence and presence of cyclosporine. Compared with sham-operated values, short-term (10 days) castration or cyclosporine treatment caused significant and equivalent reductions in plasma testosterone levels and vasorelaxant responses to acetylcholine. Treatment of castrated rats with cyclosporine caused no further attenuation of acetylcholine relaxations. Testosterone replacement of castrated (CAS+T) or cyclosporine-treated castrated (CAS+CyA+T) rats restored plasma testosterone and acetylcholine relaxations to near-sham-operated levels. On the other hand, castration caused significant increases in nitroprusside relaxations versus no effect for cyclosporine. The relaxant responses to nitroprusside in castrated rats were restored to sham-operated levels after testosterone replacement. Plasma urea and creatinine were not affected by castration but were significantly increased by cyclosporine. These findings suggest that testosterone exerts directionally opposite modulatory effects on endothelium-dependent and -independent renal relaxations. Further, the results demonstrate that testosterone depletion may contribute, at least partly, to the inhibitory effect of cyclosporine on renovascular endothelial function. These data are clinically important because endothelial dysfunction contributes to vascular abnormalities associating cyclosporine therapy.     

7,12-Dimethylbenz[a]anthracene inhibition of steroid production in MA-10 mouse Leydig tumor cells is not directly linked to induction of CYP1B1

Testosterone, which is essential for spermatogenesis, is synthesized in the Leydig cells of the testis. This study addresses whether male reproductive toxicity from exposure to polycyclic or polychlorinated aromatic hydrocarbons, such as 7,12-dimethylbenz[a]anthracene (DMBA) or 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD), may be due to direct effects on Leydig cell function. Using a cell-based assay, the effects of TCDD, benz[a]anthracene (BA), and DMBA on steroid production and cytochrome P4501B1 (CYP1B1) expression in treated MA-10 mouse Leydig tumor cells or primary cultures of rat Leydig cells was determined. (Bu)(2)cAMP-stimulated steroid production was inhibited approximately 25% and approximately 80% by DMBA treatment of MA-10 cells and rat Leydig cells, respectively, while BA or TCDD were without effect. Conversely, male Sprague-Dawley rats treated with TCDD displayed a 75% decrease in serum testosterone levels, while DMBA-treated rats had circulating testosterone levels comparable to control rats. Injection of human chorionic gonadotropin (hCG) 1 h prior to euthanasia restored testosterone levels in TCDD-treated rats to 79% of the hCG-stimulated levels in control rats. Steady-state levels of CYP1B1 mRNA, as detected by RT-PCR, are present in the MA-10 cells and treatment with TCDD, BA, DMBA, or the cAMP analog (Bu)(2)cAMP induced CYP1B1 mRNA expression levels. CYP1B1 was constitutively expressed in rat testis, adrenal, liver, and kidney tissues while CYP1A1 was undetectable. TCDD treatment induced CYP1B1 expression in the adrenal and liver and CYP1A1 in the kidney and liver. DMBA treatment induced only CYP1A1 levels in kidney and liver. In sum, DMBA or a reactive DMBA metabolite, but not TCDD, has a direct effect on steroidogenesis in isolated Leydig cells. CYP1B1 expression levels, however, cannot be directly correlated to potential in vitro or in vivo toxic effects of TCDD or DMBA.     

Further studies on the persistence of neonatal androgen imprinting on sex-specific cytochrome P-450, testosterone and drug oxidations

Neonatal castration completely suppressed the expression of P-450-male and expressed P-450-female; and testosterone treatment in a neonatal period partially reversed the effect of castration, i.e., neonatal imprinting (Kamataki et al., 1984; Waxman et al., 1985). In the present communication, we investigate the reversibility and persistency of neonatal imprinting on the expression of P-450-male and P-450-female. To our surprise, testosterone treatment at adulthood (8 weeks old) caused full expression of P-450-male and restored the activities of 2 alpha- and 16 alpha-testosterone hydroxylases in neonatally castrated rats. The levels of ethylmorphine N-demethylation, propoxycoumarin O-depropylation and benzo(a)pyrene hydroxylation were increased to the levels of adult male rats by adult testosterone-treatment. Moreover, treatment with testosterone of neonatally castrated rats at the age of 19 weeks did not cause a complete recovery of P-450-male content and drug-metabolizing activities. Testosterone administration into neonatal female rats did not significantly alter the contents of sex-dependent cytochrome P-450 and drug and steroid metabolizing activities in adulthood. Additional testosterone treatment in adulthood only slightly affected these parameters. All these results indicate that neonatal androgen imprinting on sex-dependent cytochrome P-450 and drug and steroid metabolizing activities in rat liver microsomes is not a permanent programming process and is modified by the presence and absence of sex-steroid hormones.     

Changes in ovarian steroidogenesis in insulin-resistant, type 2 diabetic Goto-Kakizaki rats after thyroidectomy and gonadotropin treatment

The present study used thyroidectomized insulin-resistant, type 2 diabetic Goto-Kakizaki (GK) rats to assess whether insulin resistance and hypothyroidism modulate ovarian physiology. Animals were treated with daily injections of 5 IU equine chorionic gonadotropin for 5 days starting 1 week after thyroidectomy. Control groups included rats of GK and control (Wistar) strains treated only with equine chorionic gonadotropin or thyroidectomy, or with no treatment (intact). In Wistar rats, equine chorionic gonadotropin injections tended to increase the serum concentrations of luteinizing hormone (LH) and testosterone more in the thyroidectomy group than in intact rats. Similar changes in LH and testosterone were observed in the thyroidectomy + equine chorionic gonadotropin and equine chorionic gonadotropin groups of GK rats, but the LH and testosterone levels in the thyroidectomy + equine chorionic gonadotropin group were significantly higher in GK rats. Expression of ovarian LH receptor messenger RNA (mRNA) was enhanced by thyroidectomy. The LH receptor mRNA levels were significantly higher in the thyroidectomy+equine chorionic gonadotropin group of GK rats than in the corresponding group of control rats. These results indicate that hypothyroidism in animals with insulin resistance and type 2 diabetes promotes LH and testosterone secretions, and suggests that the enhanced-testosterone levels is partially mediated by the enhancement of LH receptor expression and an increase in the serum level of LH.