Short-Term Modulation of the Androgen Milieu Alters Pulsatile, But Not Exercise- or Growth Hormone (GH)-Releasing Hormone-Stimulated GH Secretion in Healthy Men: Impact of Gonadal Steroid and GH Secretory Changes on Metabolic Outcomes<sup>1</sup>

Fryburg, David A.; Weltman, Arthur; Jahn, Linda; Weltman, Judy Y.; Samojlik, E.; Hintz, Raymond L.; Veldhuis, Johannes D.

doi:10.1210/jcem.82.11.4379

The Journal of Clinical Endocrinology & Metabolism

1997

DOI: 10.1210/jcem.82.11.4379

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Short-Term Modulation of the Androgen Milieu Alters Pulsatile, But Not Exercise- or Growth Hormone (GH)-Releasing Hormone-Stimulated GH Secretion in Healthy Men: Impact of Gonadal Steroid and GH Secretory Changes on Metabolic Outcomes¹

David A. Fryburg¹,

Arthur Weltman

Linda Jahn³

et al.

Abstract: Gonadal steroids are known to alter GH secretion as well as tissue metabolism. The present study was designed to examine the effects of short term (2- to 3-week) alterations in gonadal steroids on basal pulsatile (nonstimulated) and exercise- and GH-releasing hormone-stimulated GH secretion, urinary nitrogen excretion, and basal and exercise-stimulated oxygen consumption. Two protocols were conducted, which reflect a total of 18 separate studies. In the first paradigm, 5 healthy young men were each studied in … Show more

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Cited by 25 publications

References 62 publications

(47 reference statements)

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Elements in the pathophysiology of diminished growth hormone (GH) secretion in aging humans

Veldhuis

Iranmanesh

Weltman

1997

Endocr

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Remarkable decreases in growth hormone (GH) secretion accompany healthy aging. The pathophysiology of this hyposomatotropism is confounded by concurrent changes in body composition (with increased visceral fat), physiological declines in estrogen and androgen concentrations, differences in gender responses to aging, and alterations not only in the quantity of GH secreted, but also (as more recently evident) in the orderliness or regularity of the GH release process (e.g., as assessed by approximate entropy). In addition, physical fitness or aerobic capacity also positively modulates GH secretion. Lastly, confounding variables such as altered sleep patterns and nutritional state may contribute to overall regulation of the GH axis in aging. Despite confounding variables, available human experiments suggest partial growth hormone-releasing hormone (GHRH) deficiency in healthy older individuals, presumptively combined with somatostatin excess, and disruption of the moment-to-moment pattern of coordinated and orderly GH release. Here, the authors review these selected facets of recent experimental evaluation of the human GH insulin-like growth factor-I (GH-IGF-I) feedback axis in aging humans.

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Elements in the pathophysiology of diminished growth hormone (GH) secretion in aging humans

Veldhuis

Iranmanesh

Weltman

1997

Endocr

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GH-IGF-I axis in non-obese women with functional hyperandrogenism

Legan¹,

Kocijancic²,

Preželj³

et al. 2002

J Endocrinol Invest

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The study was conducted to assess the GH-IGF-I axis in non-obese women with functional hyperandrogenism (FH). Eighteen FH women aged 18-35 yr with a body weight within 20% of ideal body weight and 10 weight-matched controls were included in the study. Basal serum GH, GH-binding protein (GHBP), IGF-I, IGF-binding protein-3 (IGFBP-3) levels were determined as well as GH levels during GHRH stimulation. In addition, basal serum androgens [free T (FT), delta4 and DHEAS], insulin and glucose levels were determined. The group of non-obese patients with FH differed from controls in GHBP (1.21+/-0.37 vs 0.93+/-0.25 nmol/l; p<0.05) and androgen levels (FT: 8.0+/-3.2 vs 1.9+/-1.2 pmol/l, p<0.001; delta4: 10.5+/-3.2 vs 5.9+/-2.1 nmol/l, p<0.001; DHEAS: 9.3+/-3.0 vs 5.1+/-1.8 micromol/l, p<0.001). GH (r=0.365; p<0.05) and IGF-I (r=0.508, p<0.01) serum levels were significantly correlated to serum DHEAS levels in a combined group of patients and controls. Our results support the suggestion that the GH-IGF-I axis plays an important role in the evolution of hormonal and metabolic derangement in non-obese FH women.

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Human GH pulsatility: An ensemble property regulated by age and gender

Veldhuis

Bowers

2003

J Endocrinol Invest

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Age and gender impact the full repertoire of neurohormone systems, including most prominently the somatotropic, gonadotropic and lactotropic axes. For example, daily GH production is approximately 2-fold higher in young women than men and varies by 20-fold by sexual developmental status and age. Deconvolution estimates of 24-h GH secretion rates exceed 1200 microg/m2 in adolescents and fall below 60 microg/m2 in aged individuals. The present overview highlights plausible factors driving such lifetime variations in GH availability, i.e., estrogen, aromatizable androgen, hypothalamic peptides and negative feedback by GH and IGF-I. In view of the daunting complexity of potential neuromodulatory signals, we underline the utility of conceptualizing a simplified three-peptide regulatory ensemble of GHRH, GHRP (ghrelin) and somatostatin. The foregoing signals act as individual and conjoint mediators of adaptive GH control. Regulation is enforced at 3-fold complementary time scales, which embrace pulsatile (burst-like), entropic (orderly) and 24-h rhythmic (nycthemeral) modes of GH release. This unifying platform offers a convergent perspective of multivalent control of GH outflow.

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Short-Term Modulation of the Androgen Milieu Alters Pulsatile, But Not Exercise- or Growth Hormone (GH)-Releasing Hormone-Stimulated GH Secretion in Healthy Men: Impact of Gonadal Steroid and GH Secretory Changes on Metabolic Outcomes¹

Cited by 25 publications

References 62 publications

Elements in the pathophysiology of diminished growth hormone (GH) secretion in aging humans

Elements in the pathophysiology of diminished growth hormone (GH) secretion in aging humans

GH-IGF-I axis in non-obese women with functional hyperandrogenism

Human GH pulsatility: An ensemble property regulated by age and gender

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Short-Term Modulation of the Androgen Milieu Alters Pulsatile, But Not Exercise- or Growth Hormone (GH)-Releasing Hormone-Stimulated GH Secretion in Healthy Men: Impact of Gonadal Steroid and GH Secretory Changes on Metabolic Outcomes1

Cited by 25 publications

References 62 publications

Elements in the pathophysiology of diminished growth hormone (GH) secretion in aging humans

Elements in the pathophysiology of diminished growth hormone (GH) secretion in aging humans

GH-IGF-I axis in non-obese women with functional hyperandrogenism

Human GH pulsatility: An ensemble property regulated by age and gender

Contact Info

Product

Resources

About

Short-Term Modulation of the Androgen Milieu Alters Pulsatile, But Not Exercise- or Growth Hormone (GH)-Releasing Hormone-Stimulated GH Secretion in Healthy Men: Impact of Gonadal Steroid and GH Secretory Changes on Metabolic Outcomes¹