In a previous work, we reported that passive immunization with anti-growth hormone-releasing hormone (GHRH) antibodies (GHRH-Ab) in neonatal rats caused disruption of somatotropic function that was still present 60 d posttreatment. We studied the reversibility of this condition by growth hormone (GH) replacement therapy. Neonatal rats received GHRH-Ab (50 microL/rat, s.c.) or normal rabbit serum every second day from birth up to postnatal d 10 and received hGH (0.4 microgram/g body weight, s.c., b.i.d.) or vehicle in a 2 x 2 factorial design. Animals were studied on d 11 of age. In GHRH-Ab-treated rats, GH therapy 1) counteracted the reduced body weight and low plasma IGF-I levels; 2) failed to modify the reduced pituitary weight and GH content; 3) further reduced the low plasma GH levels; 4) partially restored the defective GH responsiveness to GHRH; 5) failed to modify the reduced hypothalamic somatostatin and increased GHRH gene expression in the hypothalamus; and 6) reverted the decreased pituitary somatostatin binding. Morphologic and morphometric evaluation of the pituitary gland from GHRH-AB+GH pups showed that the number of GH-labeled structures was lower than in normal rat serum-GH-treated pups, whereas the total GH immunoreactivity per unit surface, an index of intracellular hormone concentration, was slightly higher than in vehicle-GH or GHRH-Ab pups. As determined by electron microscopy, somatotropes from GHRH-Ab+GH pups had morphologic features of high cellular activity. It appears that in GHRH-deprived pups GH replacement therapy can normalize most but not all altered indices of the somatotropic function.(ABSTRACT TRUNCATED AT 250 WORDS)

Somatotropic dysfunction in growth hormone-releasing hormone-deprived neonatal rats: effect of growth hormone replacement therapy / S.G. Cella, V. De Gennaro Colonna, V. Locatelli, G.E. Bestetti, G.L. Rossi, A. Torsello, W.B. Wehrenberg, E.E. Müller. - In: PEDIATRIC RESEARCH. - ISSN 0031-3998. - 36:3(1994 Sep), pp. 315-322.

Somatotropic dysfunction in growth hormone-releasing hormone-deprived neonatal rats: effect of growth hormone replacement therapy

S.G. Cella;V. De Gennaro Colonna;
1994

Abstract

In a previous work, we reported that passive immunization with anti-growth hormone-releasing hormone (GHRH) antibodies (GHRH-Ab) in neonatal rats caused disruption of somatotropic function that was still present 60 d posttreatment. We studied the reversibility of this condition by growth hormone (GH) replacement therapy. Neonatal rats received GHRH-Ab (50 microL/rat, s.c.) or normal rabbit serum every second day from birth up to postnatal d 10 and received hGH (0.4 microgram/g body weight, s.c., b.i.d.) or vehicle in a 2 x 2 factorial design. Animals were studied on d 11 of age. In GHRH-Ab-treated rats, GH therapy 1) counteracted the reduced body weight and low plasma IGF-I levels; 2) failed to modify the reduced pituitary weight and GH content; 3) further reduced the low plasma GH levels; 4) partially restored the defective GH responsiveness to GHRH; 5) failed to modify the reduced hypothalamic somatostatin and increased GHRH gene expression in the hypothalamus; and 6) reverted the decreased pituitary somatostatin binding. Morphologic and morphometric evaluation of the pituitary gland from GHRH-AB+GH pups showed that the number of GH-labeled structures was lower than in normal rat serum-GH-treated pups, whereas the total GH immunoreactivity per unit surface, an index of intracellular hormone concentration, was slightly higher than in vehicle-GH or GHRH-Ab pups. As determined by electron microscopy, somatotropes from GHRH-Ab+GH pups had morphologic features of high cellular activity. It appears that in GHRH-deprived pups GH replacement therapy can normalize most but not all altered indices of the somatotropic function.(ABSTRACT TRUNCATED AT 250 WORDS)
Animals ; Pituitary Gland ; Random Allocation ; Gene Expression ; Organ Size ; Rats ; Evaluation Studies as Topic ; Animals, Newborn ; Rats, Sprague-Dawley ; Growth Disorders ; Microscopy, Electron ; Growth Hormone-Releasing Hormone ; Immunohistochemistry ; Densitometry ; Growth Hormone
Settore BIO/14 - Farmacologia
Settore MED/13 - Endocrinologia
set-1994
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2434/206097
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