Effects of androgen administered to neonatal male rats on hypophyseal gonadotropin content, secretion and response to LHRH at adulthood

Supraphysiologic doses (1.75-3.50 mg) of testosterone propionate (TP) administered to male rats on the day of birth and 24 h later resulted in markedly reduced serum luteinizing hormone (LH) and follicle-stimulating hormone (FSH) levels in adult males castrated for 16 days. These effects diminished as androgen was injected on succeeding postnatal days. Since exogenous dihydrotestosterone and testosterone were similarly effective, aromatization to estrogen is not required to elicit these effects. No build-up of either gonadotropin occurred in the pituitaries of TP-treated animals; pituitary LH content was appreciably reduced, while FSH remained unchanged. These data imply that hypophyseal synthesis and secretion of gonadotropins are curtailed in adult castrated males who have been androgenized neonatally. Pituitaries of such neonatally treated animals, however, were capable of increased secretion of LH in response to a challenge of luteinizing hormone-releasing hormone. These findings are compatible with a model in which an androgen suppressible event occurs at a suprahypophyseal level, e.g., hypothalamus or higher brain centers, in the male rat during a restricted neonatal period, which is responsible for programming the development of mechanisms involved in accumulation and secretion of gonadotropins.     

Testicular binding of 125I-HCG in developing estrogenized and androgenized rats.

The present work describes changes seen in the binding of 125I-HCG by testis homogenates of rats injected at the age of three days with 400 microgram estradiol-17beta-dipropionate, or 250 microgram testosterone propionate. Estrogenized and androgenized male rats showed a marked decrease of gonadotropin binding in testis at the 30th, 45th and 60th postnatal day. These results show that delayed sexual maturation of male rats treated with estrogen and androgen in the neonatal period is also related to pubertal decrease of testicular gonadotropin receptors.     

Influence of androgen on the development of sexual behavior in the rat. II. Time and dosage of androgen administration during the neonatal period and masculine and feminine copulatory behavior in females

The objective of the present study was to delineate the period of sensitivity to a single androgen exposure during the initial neonatal hours on the development of masculine and feminine copulatory behavior in female rats. Female rats were injected once with either 500, 50, or 5 micrograms testosterone propionate (TP) at either 1 or 24 hr after birth. Following castration in adulthood and TP replacement, the females were tested four times at weekly intervals in prolonged sessions for masculine copulatory behavior. One month following the masculine copulatory tests the females were tested for 3 weeks for feminine copulatory behavior with weekly increasing levels of estradiol benzoate (2.5, 10, and 25 micrograms) and progesterone (200 micrograms). The results demonstrate that a single injection of TP administered at either 1 or 24 hr after birth can significantly increase the capacity of female rats to exhibit ejaculation patterns and that the amount of androgen that is administered is critical in determining the levels of ejaculatory responding. Similarly, the females given high doses (50 and 500 micrograms) of TP at either 1 or 24 hr neonatally were almost completely defeminized. In contrast, however, the females treated with 5 micrograms TP at 1 and 24 hr showed different levels of lordotic performance indicating a greater sensitivity to androgen immediately after birth than at 24 hr in female rats as has been shown in male rats.     

Sexual differentiation of the steroid feedback mechanism regulating follicle-stimulating hormone secretion in the Syrian hamster

The ability of gonadal steroid hormones to influence tonic follicle-stimulating hormone (FSH) secretion was investigated in Syrian hamsters. In Experiment 1, males were castrated as adults, and administered testosterone in 20-, 30-, 40-, and 50-mm silastic capsules (s.c.) at 67, 74, 81, and 88 days, respectively. Circulating FSH was reduced by testosterone in a dose-dependent manner. A similar FSH response to testosterone in adulthood was evident in neonatally androgenized hamsters given testosterone proprionate (TP) on Days 0 and 1 of life. By contrast, the absence of gonadal androgens during the neonatal period (females ovariectomized at 60 days of age and males orchidectomized at birth) resulted in only a partial suppression of circulating FSH by even the highest dose of testosterone during adulthood. Treatment with estradiol benzoate at birth failed to produce a masculine response to androgen in adulthood. In Experiment 2, using a similar protocol, the nonaromatizable androgen, dihydrotestosterone, produced a dose-dependent suppression in serum FSH in males castrated in adulthood (30-, 60-, 90-mm capsules). However, dihydrotestosterone failed to alter the hypersecretion of FSH produced by orchidectomy at birth in males or in females ovariectomized at 60 days of age and treated neonatally with either vehicle or TP. In Experiment 3, treatment with estradiol (10-, 20-, 30-mm capsules) decreased serum FSH in gonadectomized hamsters in a dose-dependent manner; males and females treated neonatally with TP were more responsive to estradiol as adults compared to neonatally orchidectomized males or females treated with vehicle at birth.(ABSTRACT TRUNCATED AT 250 WORDS)     

Sexual orientation, proceptivity, and receptivity in the male rat as a function of neonatal hormonal manipulation

The influence of neonatal androgen on the potential to exhibit feminine sexual behavior was investigated. Male rats castrated on Day 0 but not those castrated on Day 4 or later showed hop/darting, ear wiggling, and lordotic behavior in response to treatment with estrogen and progesterone in adulthood at a frequency equal to that of females. Neonatal treatment with testosterone propionate (1 mg/rat for 4 days) abolished the capacity to show these behaviors. In subsequent experiments, involving castration of male rats at 0 or 4 hr after cesarean delivery, the effect of the postnatal surge of testicular secretions on the expression of female sexual behavior was investigated. No differences were seen in the frequency of hop/darting, ear wiggling, and receptivity between males castrated immediately or 4 hr after delivery. In a preference test where the experimental male could choose between an estrous female and a sexually active male, the neonatally castrated males preferred the company of a male when treated with estrogen and progesterone. The implantation of testosterone resulted in a preference for an estrous female. It was concluded that testicular secretions in the newborn male influence adult sexual orientation and suppress the ability to show proceptive and receptive behaviors.     

Neonatal hormonal influences on the development of proceptive and receptive feminine sexual behavior in rats

The objective of this study was to examine the influence of androgen and of the inhibiting of aromatization of androgen to estrogen during the early neonatal period on the development of receptive (lordosis and acceptance of stimulus male mounting attempts) and proceptive (affiliation with and solicitation of stimulus males) feminine sexual behavior. Within 8 hr of birth, male rats were castrated or received subcutaneous implants of the aromatase inhibitor androst-1,4,6-triene-3, 17-dione (ATD) while females received injections of testosterone propionate (TP). At 90 days of age all treated animals and controls were tested for receptive and proceptive feminine sexual behavior. It was found that androgen present neonatally blocked proceptive as well as receptive behavior patterns in adult rats. The proceptive and receptive feminine sexual behavior patterns displayed by adult males deprived of the effects of androgen neonatally either by castration or by treatment with ATD were comparable to those of normal females.     

Postnatal thyroxine modifies effects of early androgen on lordosis

The sensitivity of female rats to the organizational effects of postnatal androgen was examined after néonatal manipulations known to affect the rate of brain development: thyroxine (T₄) administration and handling at birth. Testosterone propionate (TP) was injected subcutaneously in oil on postnatal day 6 to littermates that (i) had been undisturbed at birth; (ii) had received saline injections (S) and associated handling (H) on the day of birth (postnatal day 1) and the following day; and (iii) had received T₄ in saline (1 μg/g body wt) and H on postnatal days 1 and 2. Estrous cycles at 45 and 90 days of age, ovulation at Day 100 and sexual receptivity (lordosis score) at Days 115 and 125 were used to evaluate changes in TP effects. The majority of animals treated with 100 μg TP on postnatal day 6 exhibited persistent estrus (PE) at 45 and 90 days of age as expected. Neither T₄ nor S pretreatment on postnatal days 1 and 2 changed the incidence of PE. A reduction in ovarian weights and incidence of ovulation at 100 days of age supported cycle data in that only one out of 25 androgenized rats showed ovulation, compared with 16 of 22 controls. At approximately 115 days of age 2 μg of estradiol benzoate were administered for 3 days and 0.5 mg progesterone given on the 4th day 4 hr prior to placing females with sexually vigorous males. T₄-TP females exhibited higher (< .01) median lordosis scores than their S-TP littermates. The latter results were replicated in a second test conducted 10 days later (p = .002). In addition, the second test indicated that the S-TP group had lower (p = .005) lordosis scores than littermates given only TP neonatally. The results of these studies demonstrate that pretreatment with T₄ and handling, which are known, respectively, to hasten and retard the chronology of brain maturation, can exert differential effects on behavioral manifestations of postnatal TP without modifying androgen-induced sterility.     

Differentiation of mast cells during postnatal development of neonatally estrogen-treated rats

Summary The accumulation of mast cells in the testicular interstitium of neonatally estrogen-treated rats was studied from 15 to 90 days of age. The maturation of these cells was assessed by ultrastructural analysis and their histochemical properties were examined with the sequential alcian blue-safranin staining method. The first identifiable mast cells appeared in the testis at 17–20 days of age, as immature cells with proliferative capacity. The density of mast cells increased up to 45 days of age, showing a slight decrease from 45 to 90 days of age. Before 45 days of age, most mast cells showed alcian blue-stained granules, whereas at 45 days of age, most cells presented a mixture of alcian blue and safranin-stained granules. From this age onward, most cells were stained with safranin. These maturational changes were well-correlated with their ultrastructural features. Mast cells presented few and heterogeneous immature granules up to 45 days of age, and many uniform electron-dense granules at 90 days of age. These results indicate that the testicular interstitium of neonatally estrogen-treated rats provides an adventageous environment for the recruitment, proliferation and maturation of connective tissue mast cells.     

Effect of androgen pretreatments at adulthood on androgen-induced proliferative response of seminal vesicles in neonatally castrated mice

Male mice were castrated on days 0 and 60 after birth. The majority of the neonatally castrated mice were pretreated with androgen; the mice were given daily injections of testosterone propionate (TP; 4 or 8 micrograms/g body wt) for 20 or 30 days starting from day 60. Daily injections of TP (4 micrograms/g body wt) to examine androgen-induced proliferation were started from day 30 or 60 after the end of TP pretreatments or from day 60 after castration; on various days after starting TP injections, the weight and the incorporation of 5-[125I]iodo-2'-deoxyuridine into the whole seminal vesicles were determined as indices for proliferation. The seminal vesicles of neonatally castrated adult mice were characterized by long duration of androgen-induced proliferation (greater than 20 days) with a low peak (neonatal castration type), whereas the seminal vesicles of adult castrated mice were characterized by short duration of proliferation (10 days) with a high peak (adult castration type). In neonatally castrated adult mice, the neonatal castration type of androgen-induced proliferation was changed largely to the adult castration type when pretreatment with 8 micrograms/g body wt of TP had been given for 30 days. However, this effect gradually disappeared when the mice had been pretreated with decreasing amounts of TP for a shorter period. The present findings suggest that the defect in the androgen-induced proliferative response of mouse seminal vesicles induced by the absence of neonatal and prepubertal testicular androgens can be compensated by androgens given in adulthood, if enough androgen is given for a sufficiently long time.     

Steroid 5α-Reductase in Adult Rat Brain After Neonatal Dihydrotestosterone Administration

Testosterone (T) is known to play an important masculinizing role in the developing brain of rat, including the regulation of 5α-reductase (5α-R) isozymes. However, the effects of dihydrotesterone (DHT), a more potent androgen than T, have not been elucidated. In this study, DHT was administered from day 5 through day 20 of postnatal life (period of postnatal sexual differentiation of the central nervous system) at doses of: 12 mg/kg/d on days 5, 6, 7, 8, 19, and 20; 15 mg/kg/d on days 9, 10, 11, 12, 16, 17, and 18; and 18 mg/kg/d on days 13, 14, and 15. In adulthood, quantitative RT-PCR was used to measure mRNA levels of 5α-R1 and 5α-R2 isozymes in the prefrontal cortex (PFC) of male and female rats with varied androgenic status. Under our study conditions, neonatal DHT administration influenced on adult PFC 5α-R isozymes levels and their regulation pattern by androgens, and this pattern was the inverse of that reported in adult neonatally T-treated rats.     

Manipulation of neonatal gonadal steroid milieu and leptin secretion in later life in male and female rats

The mechanism underlying the gender-based difference in circulating leptin levels (females>males) is still uncertain, because the difference persists even after adjustment for fat mass and sex steroid concentrations. In this study, we tested the possibility that the neonatal sex steroid milieu, which is critical for the sexual differentiation of the brain, may permanently affect leptin secretion in rats of both sexes. Male rats were neonatally castrated (NC), and females were neonatally androgenized (NA) by testosterone (T). Two subsets of the NC males were given T on postnatal day 1 or 29. Appropriate controls for all these groups were prepared. The animals were sacrificed on postnatal day 57, and at this age, the percent body fat was similar among all the male and female groups. NC males had a two-fold, significantly higher level of leptin than intact males. This hyperleptinemia induced by NC was prevented by T when it was given neonatally, but not on the day 29. By contrast, NA for females was without effect on leptin titers in later life. These results suggest that neonatal T in male rats may, at least in part, mediate the sex-related difference in leptin secretion that becomes apparent in later life. However, as intact females still had significantly higher leptin titers than NC males, it is very likely that additional factors may also be responsible for the sexually dimorphic leptin secretion in rats.     

Androgen responsiveness of the liver of the developing rat

The activities of the hepatic microsomal 2alpha-, 2beta-, 7alpha- and 18-hydroxylase systems active on 5alpha-[4-(14)C]androstane-3alpha,17beta-diol were studied in male and female rats which had been castrated at birth and at the age of 7, 13, 21, 27, 34, 43 and 55 days, treated for 5 days with 2mg of testosterone propionate/kg body weight and killed 6 days after castration. The 7alpha-hydroxylase system was affected very little by androgen treatment at all stages during development. On the other hand it was found that the rat liver passed through three phases during development with respect to androgen responsiveness as judged by changes in the activities of the 2alpha, 2beta- and 18-hydroxylase systems: a first phase (from the neonatal period up to about 19 days of age) with a relative androgen unresponsiveness in both male and female rats, a second phase (from about 27 to about 33 days of age) when male and female rats responded equally well to androgens and a final phase (from about 40 days of age) with a successively decreasing androgen responsiveness in female rats but with a retained responsiveness in male rats. The hypothesis is presented that neonatal imprinting of the liver by testicular androgen(s) determines the development and degree of androgen responsiveness of liver tissue in the rat.     

Influence of the pineal gland on testicular function in offspring of pinealectomized rats

Female Sprague-Dawley rats exposed to a short (6L:18D) photoperiod from 21 days of age were mated when they reached 55 days of age. On Day 2 of gestation animals were pinealectomized or sham-operated. On Day 5 after birth male pups of the two groups of dams were either pinealectomized or sham-operated. They were killed at 42 and 49 days of age. In offspring born to sham-operated dams and in those born to pinealectomized mothers, neonatal pineal ablation resulted in increased testicular testosterone and androstenedione content. In sham-operated and neonatally pinealectomized rats removal of the maternal pineal gland induced a decrease in testicular testosterone and androstenedione content. In contrast, after maternal pinealectomy there was a decrease in plasma testosterone and dihydrotestosterone values and testicular dihydrotestosterone content in sham-operated rats but not in those neonatally pinealectomized. We conclude that (1) the pineal glands of the mother and offspring are required to maintain normal testicular testosterone and androstenedione content in the rat, and (2) the pineal of the offspring influences the inhibitory effects of maternal pinealectomy on testicular dihydrotestosterone content and on plasma testosterone and dihydrotestosterone concentration in the offspring.     

Activation and differentiation of sexual behavior and translocation of hypothalamic estrogen receptors in rats by 6α-fluorotestosterone

Androgens classified as nonaromatizable in placental assay systems typically do not mimic testosterone's effects on sexual behavior in rats. 6α-Fluorotestosterone is an exception. To pursue this challenge to the aromatization hypothesis, we compared several behavioral and neuroendocrine effects of 6α-fluorotestosterone propionate (6α-fluoro-TP) with those of testosterone propionate (TP). Even at a very low dose (6.25 μg/100 g/day), 6α-fluoro-TP maintained most aspects of male sexual behavior as well as TP. It was slightly less potent than TP for inhibiting gonadotropin secretion (testicular development) in prepubertal males. Given neonatally, these androgens were equally likely to induce anovulatory sterility. 6α-Fluoro-TP defeminized sexual development in females and neonatally castrated males half as effectively as TP based on lordosis:mount ratios following estrogen and progesterone therapy in adulthood. Neither androgen masculinized sexual behavior. The behavioral effects of 6α-fluoro-TP correspond to its ability to inhibit cell nuclear accumulation of 17β-[³H]estradiol in the hypothalamuspreoptic area. When injected on a schedule like that used to activate male sexual behavior, the two androgens reduced estrogen uptake equally. When injected into adult castrates on a schedule like that used to defeminize sexual development, 6α-fluoro-TP blocked estrogen uptake half as well as TP. 6α-Fluorotestosterone did not alter estrogen uptake when injected simultaneously with 17β-[³H]estradiol. These data suggest that 6α-fluorotestosterone activates male behavior and defeminizes development because it translocates estrogen receptors in the brain, probably via an aromatized metabolite. Hence androgen aromatizability in the placenta may not reflect neural metabolism and cannot predict the behavioral or neuroendocrine effects of androgens.     

Proestrous hormonal changes preceding the onset of ovulatory failure in lightly androgenized female rats

Proestrous hormonal profiles were characterized in lightly androgenized female rats prior to the onset of the delayed anovulatory syndrome (DAS). In these females, ovulatory failure and persistent vaginal estrus (PVE) occur at a very early age. Female Sprague-Dawley rats were injected with 10 micrograms testosterone propionate (TP) on postnatal Day 5. Control rats were untreated. All animals were weaned at 21 days of age, and following the onset of puberty, estrous cyclicity was monitored by vaginal smear. Rats showing regular 4-day cycles were used. Between 50-70 days of age, intra-atrial cannulae were implanted on a morning of proestrus (0700-0900 h) and blood was sampled at 2-h intervals from 1000 to 2000 h. Additional samples were taken at 0.5-h intervals from 1600 to 1800 h. Plasma was assayed for luteinizing hormone (LH), follicle-stimulating hormone (FSH) and progesterone (P) by radioimmunoassay (RIA). All animals were monitored for the onset of PVE or other alterations in estrous cyclicity. Females treated neonatally with TP that subsequently showed PVE by 150 days of age (PRE DAS) displayed a reduced peak amplitude (P less than 0.01) and delay in onset (1600 vs. 1400 h) of LH but not FSH secretion, when compared to controls. Females treated neonatally with TP that did not enter PVE by 150 days of age (No DAS) also showed a delayed rise in LH when compared to controls. However, the amplitude of LH secretion was not different from controls or PRE DAS females.(ABSTRACT TRUNCATED AT 250 WORDS)     

Early androgen treatment and male and female sexual behavior in mice

To investigate the role of neonatal androgen stimulation in the development of the potential for masculine and feminine sexual behavior in the mouse, different groups of mice were hormonally manipulated early in life. One group of female mice was administered testosterone propionate (TP) within 24 hr of birth; a second group of females was given a control injection of oil on the day of birth; a third group of females received an injection of TP on the 10th day after birth. A group of males received a control injection of oil on the day of birth. All mice were gonadectomized at about 30 days of age. At 60 days of age, mice were injected with estrogen and progesterone and tested for sexual receptivity; several weeks later all mice were injected with TP and tested for male sexual behavior. Female behavior: Females given oil at birth and females given TP on the 10th day after birth showed high levels of sexual receptivity as adults following estrogen-progesterone treatment. Females given TP on the day of birth, and male mice, rarely exhibited lordosis following estrogen-progesterone treatment. Male behavior: Most mice, regardless of genetic sex or neonatal treatment, mounted in adulthood following administration of exogenous androgen. There was little difference in mounting frequency between groups, suggesting that exogenous or endogenous androgen stimulation of the neonatal mouse does not facilitate adult mounting behavior. These data for the mouse are in essential agreement with existing data for the rat, and indicate that sexual behavioral differentiation induced by androgen stimulation in infancy is best characterized as an inhibition of the potential to display feminine sexual behavior in adulthood.     

Neonatal treatment of male rats with a gonadotropin-releasing hormone antagonist results in altered function of the pituitary-testicular axis in adult age

In most mammals, pituitary-testicular hormone secretion is very active during the perinatal period, but the physiological significance of this function for later pituitary-gonadal interactions and sexual maturation is largely unknown. Short-term neonatal treatment with gonadotropin-releasing hormone (GnRH) antagonist results in delayed sexual maturation and infertility in male rats. We have now extended our earlier findings and studied in more detail the pituitary-gonadal function in adult rats after such neonatal treatment. In this study, the pituitary-testicular activity of newborn male rats was temporarily blocked by treatment with a GnRH antagonist analogue (N-Ac-4-Cl-D-Phe1, 4-Cl-D-Phe2, D-Trp3, D-Phe6, des-Gly10-GnRH-D-alanylamide; Organon 30039; 2 mg/kg s.c. twice daily) on Days 1-5 of life. Timing of puberty was slightly delayed in the treated rats (average: 2 days, p less than 0.05), as determined by the age of the balano-preputial separation. In adult rats (90-110 days), only 3 of the 17 rats treated neonatally with GnRH antagonist were fertile (14 of 17 controls, p less than 0.01), despite normal circulating androgen levels. Pituitary and serum follicle-stimulating hormone (FSH) levels were slightly but consistently elevated (20-30%; p less than 0.05) in antagonist-treated animals, whereas luteinizing hormone (LH) levels (both immunoreactive and bioactive) were unaffected. The pituitary contents of GnRH receptors were increased in antagonist-treated animals 85 +/- 6.6 (mean +/- SEM, n = 19) vs. 58 +/- 4.1 fmol/gland in controls (n = 20; p less than 0.01).(ABSTRACT TRUNCATED AT 250 WORDS)     

Influence of androgen in the neonatal period on ejaculatory and postejaculatory behavior in the rat

The objective of the present report was to investigate the influence of androgen in the neonatal period on the development of ejaculatory and postejaculatory behavior. At birth, male rats were either castrated (neonatally castrated males), implanted with a Silastic tube of the aromatase inhibitor androsta-1,4,6-triene-3,17-dione for the first 10 days (ATD males), or left untreated (normal males). Female rats were either injected with 0.5 mg testosterone propionate (TP) on Days 1 (day of birth) and 2 (androgenized females) or left untreated (normal females). All gonadally intact animals were castrated at 60 days of age. Following TP administration, all animals were tested for ejaculatory and postejaculatory behavior under both shock and nonshock conditions. All animals were capable of showing the intromission pattern; however, the ejaculatory pattern was exhibited regularly only by those animals exposed to androgen at birth (normal males, androgenized females, and ATD males). The normal males required fewer intromissions to achieve ejaculation than the other two groups exhibiting this reflex. This result is discussed in terms of peripheral genital stimulation deficits and the differentiation of neural tissue responsible for masculine copulatory behavior. Androgenized females and ATD males displayed a refractory period, characterized by 22-kHz vocalizations, equal to or longer than that found in normal males. These results indicate that defeminization is not necessary for the display of normal ejaculatory and postejaculatory behavior.     

Ontogeny of an 8S androgen binding protein in rat liver cytosol

Studies were performed to elucidate the ontogeny of a single class of androgen binding protein in male rat liver cytosol which exhibits characteristics of a ligand specific, high affinity (Kd = 2.3 nM), 8S-receptor capable of nuclear translocation. Detectable levels of receptor first appear at 45 days of age in the male and reach maximum concentration at 65 days. Barely detectable levels are seen in females throughout the duration of study (80 days). Gonadectomy in both sexes (65 days) and androgen treatment of oophorectomized females do not alter the normal development of sexual differentiation of the high affinity androgen receptor. After neonatal castration (2 days) and DES replacement however, receptor sites do not undergo differentiation and adult males exhibit female levels. Conversely, neonatal androgen replacement in 2-day castrates partially restores the level of binding sites to control males values (TP, 71%; DHT, 51%). Neonatal castration without replacement retards but does not fully eliminate sexual differentiation of levels of receptor sites in adult males. Likewise, neonatal androgen treatment in females results in a partial masculinization of binding sites. Following hypophysectomy, levels of receptor sites in females are similar to intact or hypophysectomized males; sexual differences in the adult are abolished. These studies suggest that sexual differentiation of specific liver cytosol androgen binding sites in the adult may be partially programmed at birth by testicular androgen and furthermore, adult sexual dimorphism is maintained through an inhibitory influence of the pituitary in the female.     

Sexual behavior and penile reflexes of neonatally castrated male rats treated in infancy with estrogen and dihydrotestosterone

Male rats castrated neonatally and treated with a combination of 0.5 μg estradiol benzoate (EB) plus 50μg dihydrotestosterone propionate (DHTP) for the next 14 days displayed normal sexual behavior when injected with testosterone propionate (TP) in adulthood. Neither EB nor DHTP alone had this developmental effect inasmuch as only 20–25% of the neonatal castrates treated with just 0.1, 0.5, or 10 μg EB, or 50 μg DHTP, displayed ejaculatory responses. The periodic application of mildly painful electric shock, which has been previously shown to markedly facilitate ejaculatory responding in normal male rats, failed to improve sexual performance in these latter subjects. This was true even of the castrates treated neonatally with DHTP which frequently intromitted. Castrates treated with EB or DHTP alone neonatally were subjected to spinal transection (after testing of sexual behavior) for examination of penile reflexes. Those treated with DHTP showed normal reflexes, characterized by numerous erections and flips, indicating the presumably nonaromatizable DHTP has developmental effects on penile reflexes similar to those of testosterone. Subjects treated with EB, including four animals that had ejaculated at least once, displayed very few, if any, erections on reflex tests and no flips. These results show that sometimes intromissive and ejaculatory patterns can occur even though the animal appears to have little or no capacity for penile reflexes.