Age-related changes of growth hormone secretory mechanisms in the rat pituitary gland

Insights into a role of GH secretagogues in reversing the age-related decline in the GH/IGF-I axis

Growth hormone (GH) secretion and serum insulin-like growth factor-I (IGF-I) decline with aging. This study addresses the role played by the hypothalamic regulators in the aging GH decline and investigates the mechanisms through which growth hormone secretagogues (GHS) activate GH secretion in the aging rats. Two groups of male Wistar rats were studied: young-adult (3 mo) and old (24 mo). Hypothalamic growth hormone-releasing hormone (GHRH) mRNA and immunoreactive (IR) GHRH dramatically decreased (P < 0.01 and P < 0.001) in the old rats, as did median eminence IR-GHRH. Decreases of hypothalamic IR-somatostatin (SS; P < 0.001) and SS mRNA (P < 0.01), and median eminence IR-SS were found in old rats as were GHS receptor and IGF-I mRNA (P < 0.01 and P < 0.05). Hypothalamic IGF-I receptor mRNA and protein were unmodified. Both young and old pituitary cells, cultured alone or cocultured with fetal hypothalamic cells, responded to ghrelin. Only in the presence of fetal hypothalamic cells did ghrelin elevate the age-related decrease of GH secretion to within normal adult range. In old rats, growth hormone-releasing peptide-6 returned the levels of GH and IGF-I secretion and liver IGF-I mRNA, and partially restored the lower pituitary IR-GH and GH mRNA levels to those of young untreated rats. These results suggest that the aging GH decline may result from decreased GHRH function rather than from increased SS action. The reduction of hypothalamic GHS-R gene expression might impair the action of ghrelin on GH release. The role of IGF-I is not altered. The aging GH/IGF-I axis decline could be rejuvenated by GHS treatment.

Pituitary alterations involved in the decline of growth hormone gene expression in the pituitary of aging rats

Growth hormone (GH) declines during aging. This study investigates whether pituitary constitutive alterations may be involved in the GH decline. Two groups of male Wistar rats were studied (young: 3-month-old; old: 24-month-old). The old rats showed lower pituitary GH messenger RNA (mRNA) levels, immunoreactive rat (IR)-GH content, and GH secretion with no difference in pituitary Pit-1 and cAMP-response element-binding protein (CREB) expression. Pituitary GH releasing hormone receptor (GHRH-R), GH secretagogue receptor (GHS-R), sstr2, and sstr5 mRNA levels were significantly reduced in old rats. The percentage of GH immunoreactive cells was similar in both groups. In vitro, pituitary IR-GH response to GHRH, forskolin (FK), ghrelin, and insulin-like growth factor I (IGF-I) was similar when compared with respective basal secretion and somatostatin-diminished GHRH- and ghrelin-induced IR-GH release in both groups. These results indicate that, as somatotrope function is maintained in aging, the changes observed in GH gene expression and secretion could be reversed by GHS.

Neuroendocrine facets of human puberty

The unfolding of pubertal growth and maturation entails multisystem collaboration. Most notably, the outflow of gonadotropins and growth hormone (GH) proceeds both independently and jointly. The current update highlights this unique dependency in the human.

Sexually dimorphic effects of aging on rat somatotroph cells. An immunohistochemical and ultrastructural study

Aging produces alterations in certain functions of the hypothalamo-pituitary axis that result in sexually dimorphic changes in the somatotrophs. Since quantitative morphological data on these age-associated alterations are scarce, we prompted to make a morphometric immunohistochemical assessment as well as undertake an ultrastructural study of the somatotrophic (GH) cell population in male and female rats of different ages. Young (3-month-old), old (20-month-old), and senescent (29-month-old) Sprague-Dawley rats of both sexes were sacrificed by rapid decapitation, their pituitaries immediately dissected out, and processed for both immunohistochemistry and electron microscopy. Analysis of different morphometric parameters revealed that surface density, volume density, and cell density significantly decreased in old and senescent rats as compared to young animals, with this reduction being clearly more marked in females. Both the GH-cell area and perimeter decreased in senescent male rats, while these parameters increased in senescent females. The ultrastructure of the GH cells from old and senescent animals of both sexes evinced changes suggestive of an immature state, with some somatotrophs having the appearance of cells undergoing an involutive process. We conclude that aging has a differential impact on the GH cells of male and female rats with respect to the immunohistochemical and ultrastructural features of that cell population.

Heterogeneity of growth hormone (GH)-producing cells in aging male rats: ultrastructure and GH gene expression in somatotrope subpopulations

Mammalian aging is characterized by a decline in the content and release of pituitary growth hormone (GH). However, few studies on the age-related changes in the population of GH-producing cells (somatotropes) have been carried out. We have investigated whether changes in number, ultrastructure and GH gene expression in subpopulations of somatotropes could explain the reduced GH release in aged rats. Three representative ages were studied: adult (5-month-old), old (19-month-old), and senescent (26-month-old) male rats. The total number of immunoreactive-GH cells per pituitary gland remained invariable to age. The separation of dispersed pituitary cells on a density gradient yielded two somatotrope subpopulations, of low density (LD) and high density (HD). Both subpopulations were equally represented in adults, whereas in old and senescent rats a predominance of LD-somatotropes was observed. Morphometric analysis showed that subpopulations exhibited storage and biosynthetic features inversely related. In LD-somatotropes, rough endoplasmic reticulum (RER) was more prominent but secretory granules (SG) were less abundant than in HD somatotropes. Concurrently, in situ hybridization for GH mRNA showed that GH gene expression was higher in LD-cells. Differences between subpopulations were essentially retained through the animals' lifespan, but small-sized SG, reduced RER, and low GH mRNA levels were inherent to aging both in LD- and in HD-somatotropes. The present findings demonstrate that the reduced content of pituitary GH in aged male rats is not due to a diminished number of GH-producing cells, but to the numerical predominance of scarcely granulated LD-somatotropes, combined with the decline in GH biosynthetic capacity observed in both subpopulations. In addition, age-related changes in ultrastructure and GH gene expression suggest a chronic inhibition of GH release and/or a weak stimulation of GH biosynthesis affecting both subpopulations.

Effects of aging on pituitary growth hormone-releasing factor receptor binding sites: in vitro mimicry by guanyl nucleotides and reducing agents

We have investigated the effect of 5'-guanylylimidodiphosphate (Gpp(NH)p) and two disulfide bond reducing agents, reduced glutathione (GSH) and dithiothreitol (DTT), on the modulation of [125I-Tyr10]hGRF(1-44)NH2 binding to GRF receptor binding sites, in pituitaries of young and aging rats. In pituitaries from 2-month-old rats, Gpp(NH)p (0.1-1.0 mM), GSH and DTT (1-50 mM) exhibited a partial but concentration-dependent inhibitory effect on GRF specific binding. These effects were associated with a conversion of the high affinity GRF binding sites to lower affinity sites and to a reduction of the apparent number of total binding sites (high and low). No potentiation of these effects was observed when Gpp(NH)p (1 mM) and DTT (1 mM) were combined. In pituitaries from 14-month-old rats, Gpp(NH)p (1 mM) was capable of modulating GRF binding parameters in a similar fashion to that in pituitaries from 2-month-old rats. In pituitaries from 18-month-old rats, the high affinity GRF binding sites were already blunted and neither Gpp(NH)p nor Gpp(NH)p plus DTT significantly altered GRF binding parameters. In addition, in 20-month-old rats, the affinity of hGRF(1-29)NH2 and that of the full antagonist N alpha-Ac-[D-Arg2,Ala15]rGRF(1-29)NH2 were respectively decreased 9.3- and 9.9-fold. Our results suggest that in aging, alterations of GRF receptor binding sites could involve disulfide bond reduction or other structural modifications leading to conformational changes, similar to those induced by GSH or DTT. Such structural changes may prevent an efficient coupling of the GRF receptor with its ligands and G-protein, leading to a loss of somatotroph responsiveness.

Alterations of adenylyl cyclase-coupled growth hormone-releasing hormone (GHRH) pituitary receptors in different conditions of GHRH deprivation

Previous studies have clearly shown that the progressive decrease of growth hormone (GH) secretion occurring during ageing is coupled with a reduced responsiveness of pituitary GHRH receptors both in terms of GH secretion and activation of the adenylyl cyclase (AC), in the presence of increased basal values of the enzyme. The mechanism(s) subserving the age-associated alterations of GHRH-sensitive AC is likely related to the progressive decrease of hypothalamic GHRH function occurring with ageing. In this context, in old male rats, short-term administration of GHRH decreased the high basal AC activity and enhanced the GHRH-stimulated AC activity. Along this line, we decided to investigate whether experimentally induced abrogation of GHRH function in adult rats would induce the same alterations of AC-coupled GHRH receptors present in aged rats. Passive immunization of male young-adult rats with supra-maximal doses of GHRH antiserum (Ab-GHRH) significantly reduced the AC responsiveness to GHRH, an effect already evident 5 days post-injection and still present at 10 days. At this time interval, the treatment also evoked a significant increase of basal AC levels and of Gs alpha protein in the pituitary and completely blocked the GH-releasing effect of a bolus injection of GHRH. Furthermore, mechanical disruption of brain-pituitary links by complete stereotaxical ablation of the mediobasal hypothalamus induced a significant increase of basal AC levels and Gs alpha protein in the pituitary and a strikingly lower AC responsiveness to GHRH.(ABSTRACT TRUNCATED AT 250 WORDS)

Impact of aging on the morphology and function of the somatotroph cell population in rats

There is little information regarding the impact of aging on pituitary somatotroph (STH) cell population in rats. We therefore undertook a quantitative immunocytochemical assessment of this cell type in young (3 months), old (20 months) and senescent (29 months) male rats. An attempt was also made to correlate morphological parameters with serum levels of growth hormone (GH). Since thyroid status is highly influential on somatotropic function, serum levels of thyroxine (T4) and triiodothyronine (T3) were also measured in the three age groups. We found a marked age-related reduction in STH cell number, volume density, and surface density, as well as a milder but significant decline in STH cell area and perimeter. Basal serum levels of GH remained unchanged with age, whereas the estimated number and amplitude of GH pulses declined from young to old animals. Thyroxine but not T3 levels also declined with age. We conclude that in rats, aging causes a marked reduction in somatotroph number and, to a lesser extent, cell size. These alterations do not affect trough levels of circulating GH. Our data also suggest that the progressive hypothyroidism associated with aging in this species may contribute to the promotion of the above changes. The present study emphasizes the convenience of combining hormone measurements with quantitative morphological analysis of cell populations for the study of pituitary function during aging.

Growth hormone response to GHRH during lifespan

Recent evidence has shown that growth hormone-releasing hormone (GHRH) enables investigation of the pathophysiology of GH secretion in a variety of different states, but it cannot be used as a test for probing pituitary somatotrophic function, due to the extreme inter- and intra-subject variability in normal subjects. This task is better accomplished when compounds which deprive the pituitary of inhibitory (somatostatinergic) influences, e.g. pyridostigmine, arginine, etc., are given in combination with GHRH. Administration of GHRH in both animals and humans reveals a state of GH hyperresponsiveness in the immediate postnatal period, which is likely to be due to a reduced pituitary sensitivity to somatostatin. GH responses to GHRH are relatively constant throughout the different stages of pubertal development, though further studies are needed to confirm these findings, and decline after the third-fourth decade in men, after menopause in women. It is apparent that during aging the releasable pool of GH is preserved and that impaired GH secretion is due to defective hypothalamic GHRH function and a relative predominance of somatostatinergic function.