Reportedly, most acromegalics are refractory to the growth hormone (GH)-releasing effect of central nervous system-acting stimuli. For instance, the synthetic analogue of met-enkephalin (Enk) viz. FK 33-824 fails to alter the high circulating GH levels of acromegalics. The most likely interpretation of such finding is that circulating GH disrupts, for a negative feedback effect, hypothalamic opioid function and/or GH-releasing hormone (GHRH) producing neurons, through which opioids exert their action. To address this issue, we have evaluated in intact and hypophysectomized male rats the effect of a high-dose GH regimen on the hypothalamic stores of endogenous opioid peptides, β-endorphin (β-EP) and met-enkephalin (met-enk). Moreover we have evaluated in intact male rats the effect of exogenous GH on median eminence (ME) GHRH stores and the ability of FK 33-824 to stimulate GH and prolactin (PRL) secretion and of exogenous GHRH to induce GH secretion. Human GH (25 and 250 μg bid for 4 days) administered to hypophysectomized rats strikingly reduced β-EP and met-enk-like immunoreactivity (LI) in the medial basal hypothalamus, the effect being already maximal with the lower hGH dose. The higher dose of hGH diminished, though to a lower extent, hypothalamic βEP-LI content also in intact rats, and reduced GHRH-LI content in the ME. Despite these profound biochemical alterations, the GH responsiveness to GHRH and FK 33-824 administration was preserved, while the latter drug induced a lower PRL rise in GH-treated than in control rats. These results indicate that a) administration of GH alters profoundly hypothalamic concentrations of opioid peptides and GHRH but adaptive changes intervene in the neuroendocrine mechanisms for GH control; 2) similar biochemical alterations are likely occurring in the hypothalamus of some acromegalics, however, 3) in the latter, sustained elevations in circulating GH levels would finally result in disruption of the GHRH synthesizing neurons.
Feed-back effect of growth hormone on hypothalamic opioid and somatocrinin producing neurons / I. Ganzetti, F. Petraglia, I. Capuano, F. Rosi, W.B. Wehrenberg, E.E. Muller, D. Cocchi. - In: JOURNAL OF ENDOCRINOLOGICAL INVESTIGATION. - ISSN 0391-4097. - 10:3(1987), pp. 241-246. [10.1007/BF03348122]
Feed-back effect of growth hormone on hypothalamic opioid and somatocrinin producing neurons
F. RosiInvestigation
;E.E. Muller
Conceptualization
;
1987
Abstract
Reportedly, most acromegalics are refractory to the growth hormone (GH)-releasing effect of central nervous system-acting stimuli. For instance, the synthetic analogue of met-enkephalin (Enk) viz. FK 33-824 fails to alter the high circulating GH levels of acromegalics. The most likely interpretation of such finding is that circulating GH disrupts, for a negative feedback effect, hypothalamic opioid function and/or GH-releasing hormone (GHRH) producing neurons, through which opioids exert their action. To address this issue, we have evaluated in intact and hypophysectomized male rats the effect of a high-dose GH regimen on the hypothalamic stores of endogenous opioid peptides, β-endorphin (β-EP) and met-enkephalin (met-enk). Moreover we have evaluated in intact male rats the effect of exogenous GH on median eminence (ME) GHRH stores and the ability of FK 33-824 to stimulate GH and prolactin (PRL) secretion and of exogenous GHRH to induce GH secretion. Human GH (25 and 250 μg bid for 4 days) administered to hypophysectomized rats strikingly reduced β-EP and met-enk-like immunoreactivity (LI) in the medial basal hypothalamus, the effect being already maximal with the lower hGH dose. The higher dose of hGH diminished, though to a lower extent, hypothalamic βEP-LI content also in intact rats, and reduced GHRH-LI content in the ME. Despite these profound biochemical alterations, the GH responsiveness to GHRH and FK 33-824 administration was preserved, while the latter drug induced a lower PRL rise in GH-treated than in control rats. These results indicate that a) administration of GH alters profoundly hypothalamic concentrations of opioid peptides and GHRH but adaptive changes intervene in the neuroendocrine mechanisms for GH control; 2) similar biochemical alterations are likely occurring in the hypothalamus of some acromegalics, however, 3) in the latter, sustained elevations in circulating GH levels would finally result in disruption of the GHRH synthesizing neurons.
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