Skeletal muscle afferent regulation of bioassayable growth hormone in the rat pituitary
Autor: | A. J. Bigbee, K. L. Gosselink, Roland R. Roy, Hui Zhong, Elena J. Grossman, Richard E. Grindeland, V. R. Edgerton |
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Rok vydání: | 1998 |
Předmět: |
Male
Pituitary gland medicine.medical_specialty Physiology Stimulation Hindlimb Biology Physiology (medical) Internal medicine medicine Animals Secretion Neurons Afferent Peripheral Nerves Muscle Skeletal Immunoassay Skeletal muscle Proprioception Electric Stimulation Rats medicine.anatomical_structure Endocrinology Peripheral nervous system Growth Hormone Pituitary Gland Biological Assay Endocrine gland Hormone |
Zdroj: | Journal of applied physiology (Bethesda, Md. : 1985). 84(4) |
ISSN: | 8750-7587 |
Popis: | There are forms of growth hormone (GH) in the plasma and pituitary of the rat and in the plasma of humans that are undetected by presently available immunoassays (iGH) but can be measured by bioassay (bGH). Although the regulation of iGH release is well documented, the mechanism(s) of bGH release is unclear. On the basis of changes in bGH and iGH secretion in rats that had been exposed to microgravity conditions, we hypothesized that neural afferents play a role in regulating the release of these hormones. To examine whether bGH secretion can be modulated by afferent input from skeletal muscle, the proximal or distal ends of severed hindlimb fast muscle nerves were stimulated ( approximately 2 times threshold) in anesthetized rats. Plasma bGH increased approximately 250%, and pituitary bGH decreased approximately 60% after proximal nerve trunk stimulation. The bGH response was independent of muscle mass or whether the muscles were flexors or extensors. Distal nerve stimulation had little or no effect on plasma or pituitary bGH. Plasma iGH concentrations were unchanged after proximal nerve stimulation. Although there may be multiple regulatory mechanisms of bGH, the present results demonstrate that the activation of low-threshold afferents from fast skeletal muscles can play a regulatory role in the release of bGH, but not iGH, from the pituitary in anesthetized rats. |
Databáze: | OpenAIRE |
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