Effect of Neonatal Androgen on the Activity of Peptidases in the Rat Brain Inactivating Luteinizing Hormone-Releasing Hormone

Griffiths, E.C.; Hooper, K. C.; Jeffcoate, S. L.; Holland, Diane T.

doi:10.1159/000178743

Cited by 12 publications

(6 citation statements)

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“…Such lesions might occur at various levels of neural organization, e.g. : (1) 'chemo-lesions', such as those involved in synthesis or degradation of neurotransmit ters [16] or LHRH (indeed, elevated activity of an LHRH inactivating peptidase occurs following neonatal androgenization in fe males [19]); (2) 'organizational lesions' re sulting in abnormal neuronal connections at critical sites [20,21], such as the arcuate nucleus of the medial basal hypothalamus or regions which project LHRH fibers to the arcuate nucleus [22], Such lesions in LHRH pulse generation, with consequent inade quate induction of pituitary LHRH recep tors [10,11], would ultimately result in de creased capacities for accumulation and se cretion of gonadotropins, as observed in this study, and suppression of testicular matura tion, as previously reported [1]. Indeed, rats receiving LHRH antiserum postnatally [23] and the mutant LHRH-deficient mouse [24] manifest deficient testicular maturation, similar to that observed following neonatal androgenization [1],…”

Section: Discussionmentioning

confidence: 99%

Effects of Androgen Administered to Neonatal Male Rats on Hypophyseal Gonadotropin Content, Secretion and Response to LHRH at Adulthood

Feigelson

Linkie

1987

Horm Res

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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.

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Section: Discussionmentioning

confidence: 99%

Effects of Androgen Administered to Neonatal Male Rats on Hypophyseal Gonadotropin Content, Secretion and Response to LHRH at Adulthood

Feigelson

Linkie

1987

Horm Res

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“…The ventrolateral subdivision (VMHv1) is a major neural target for estrogen (Pfaff and Keiner, 1973) and estrogen implants in the VMHvl are sufficient to restore lordosis behavior in female rats made nonreceptive by ovariectomy (Rubin and Barfield, 1980). Estrogen activates lordosis through both genomic and nongenomic mechanisms (McEwen et al, 1990) and some of the gene products that may be relevant to lordosis include peptides (Harlan, 19881, receptors (Akesson et al, 1987;O'Connor et al, 1988;Coirini et al, 1989) and enzymes involved in inactivation of transmitters and neuromodulators (Griffiths et al, 1976;Luine and Rhodes, 1983).…”

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confidence: 99%

Gonadal steroids regulate immunoreactive tachykinin in the ventromedial nucleus of the rat hypothalamus

Akesson

1994

J of Comparative Neurology

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The ventromedial nucleus of the hypothalamus (VMH) is an important site in the mediation of female receptive behavior (lordosis); however, the sequence of events that eventually facilitate this estrogen-dependent behavior is only partially understood. Here, evidence is presented, suggesting that an interaction between gonadal steroids and tachykinin peptides is involved. Tachykinin-immunoreactive (TACir) neurons were distributed throughout the anterior (VMHa), dorsomedial (VMHdm), central (VMHc), and ventrolateral (VMHvl) subdivisions in the adult male and female rat. Numbers of cells in the VMH of intact males and males that had been castrated for three weeks were similar. Among females, numbers of TACir cells in the VMHvl were significantly increased over numbers seen in ovariectomized females by a two day (1.5 x) and by a two week (1.6 x) exposure to estrogen. In the VMHa, numbers of TACir cells were also significantly higher in females that received replacement estrogen compared to ovariectomized females. Since estrogen concentration by TACir neurons is common in the VMHvl and rare in the VMHa, estrogen may have both direct and indirect effects on tachykinin synthesis. In the caudal pole of the VMH, staining intensity of TACir fibers varied with endocrine state. In intact males, castrated males, and ovariectomized females, fibers were lightly stained. In females exposed to estrogen for two days, fibers were moderately intense, and in females exposed to estrogen for two weeks, they formed a darkly stained plexus. These responses to estrogen suggest that production of tachykinin peptides in the VMH is involved in facilitation of female typical sexual behavior.

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“…To our knowledge, developing PEP activity has not been studied so far in females. The GnRH-degrading system is known to be under sex steroid control [43,44,45] and neonatal female rats treated with androgen show higher peptidase activity inactivating mGnRH than normal animals [46]. This control mechanism may be of physiological interest in male rats, in which the plasma testosterone level increases just before birth and during the first postnatal days [47].…”

Section: Discussionmentioning

confidence: 99%

Molecular Polymorphism of Native Gonadotropin-Releasing Hormone (GnRH) Is Restricted to Mammalian GnRH and [Hydroxyproline<sup>9</sup>] GnRH in the Developing Rat Brain

Gautron

Gras²,

Enjalbert³

2005

Neuroendocrinology

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Although chicken gonadotropin-releasing hormone (GnRH)-II is thought to occur in most animal species, its presence and that of two other variants (lamprey GnRH-III, salmon GnRH) is questionable in rodents. Here we report on the GnRH peptides present in the hypothalamus and the remaining brain of rat of both sexes during development. No immunoreactivity was detected in the elution zone of either native or hydroxylated forms of the above three variants in any of brain extracts chromatographed. The main peptides detected were mammalian GnRH (mGnRH) and m[hydroxyproline⁹]GnRH (mHypGnRH). In the hypothalamus, these peptides were associated with their free acid and precursor forms. N-terminal fragments from both native decapeptides ([1–5]GnRH) and mGnRH ([1–9]GnRH) were observed only in the hypothalamus. C-terminal fragments were detected in both tissues. The relative proportions of mGnRH and mHypGnRH showed no developmental changes in the remaining brain. The hypothalamic proportions of mHypGnRH were high on day 5, and decreased from day 15 onwards. The [Gly¹¹]-precursor to mHypGnRH molar ratio was twofold lower than with the non-hydroxylated peptides. The mGnRH to [1–9]GnRH molar ratio increased in males but decreased in females during development. No sex-related differences were observed in the native decapeptide to [1–5]GnRH molar ratio. It was concluded that (1) chicken GnRH-II is not present in all mammals, (2) mGnRH and mHypGnRH are the main GnRH isoforms present in the rat brain, (3) the processing of [Gly¹¹]-precursor into mHypGnRH occurs at a higher rate than that of mGnRH, and (4) the catabolism does not interfere with the developmental changes undergone by the mGnRH and mHypGnRH brain contents.

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Effect of Neonatal Androgen on the Activity of Peptidases in the Rat Brain Inactivating Luteinizing Hormone-Releasing Hormone

Cited by 12 publications

References 12 publications

Effects of Androgen Administered to Neonatal Male Rats on Hypophyseal Gonadotropin Content, Secretion and Response to LHRH at Adulthood

Effects of Androgen Administered to Neonatal Male Rats on Hypophyseal Gonadotropin Content, Secretion and Response to LHRH at Adulthood

Gonadal steroids regulate immunoreactive tachykinin in the ventromedial nucleus of the rat hypothalamus

Molecular Polymorphism of Native Gonadotropin-Releasing Hormone (GnRH) Is Restricted to Mammalian GnRH and [Hydroxyproline<sup>9</sup>] GnRH in the Developing Rat Brain

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