Neuroendocrine alterations in the somatotropic and lactotropic axes in uremic men

doi:10.1530/eje.0.1310489

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Neuroendocrine alterations in the somatotropic and lactotropic axes in uremic men

Johannes D Veldhuis, Ali Iranmanesh, Michael J Wilkowski and Eugeniusz Samojlik

Veldhuis JD, Iranmanesh A, Wilkowski MJ, Samojlik E. Neuroendocrinealterations in the somatotropic and lactotropic axes in uremicmen. Eur J Endocrinol 1994;131:489–98. ISSN 0804–4643

To investigate the pathophysiology of altered growth hormone(GH) and prolactin secretion in endstage renal disease, we sampledblood at 10-min intervals for 24 h and applied deconvolutionanalysis to calculate hormone half-lives and pulsatile secretionrates. Two-site immunoradiometric assays were employed to quantitatepresumptively intact GH and prolactin in nine middle-aged menwith chronic renal failure and 14 gender-, age-, body weight-and community-matched controls. We observed that the half-livesof endogenous GH and prolactin were prolonged significantlyin uremia: for GH, control 17 ±1.4 versus uremia 21 ±1.3min (p < 0.05); for prolactin, control 66 ±9.3 versusuremia 112 ± 10 min (p < 0.01). Daily GH secretionrates exceeded sex-, age- and weight-predicted values in eightof nine uremic individuals, while values for prolactin werevariable but on average twofold higher in uremia. In both thesomatotropic and lactotropic axes, the frequency of secretorybursts was increased significantly (for GH, control 11 ±1.1 versus uremia 15 ± 0.84 secretory events/24 h; forprolactin, control 20 ± 0.90 versus uremia 27 ±1.3 pulses/24 h. p < 0.05). Although there were no significantalterations in the mean amplitude, duration or mass of GH secretorybursts, prolactin secretory burst amplitudes were elevated threefoldin uremia (p < 0.01). These distinctive mechanisms broughtabout higher 24-h mean serum concentrations of GH (0.70 ±0.17control versus 1.22 ± 0.32 µg/l uremia) and prolactin(7.3 ± 2.4 control versus 26 ± 6.1 µg/luremia, p < 0.05). Lastly, serum concentrations of estradiolwere increased but those of unconjugated estriol decreased inuremia. We conclude that hypersomatotropinemia and hyperprolactinemiain uremic men result from prolonged hormone half-lives combinedwith increased frequencies of secretory events driven by unknownstimuli within the respective axes, and/or by defects in theirnegative-feedback regulation. We postulate that the latter mayarise from partial tissue resistance to hormone action in hemodialyzedmen.

JD Veldhuis, Division of Endocrinology, Department of InternalMedicine, National Science Foundation Center for BiologicalTiming, University of Virginia Health Sciences Center, Charlottesville,VA 22908, USA

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