Growth hormone and prolactin synthesis in normal and homozygous Snell and Ames dwarf mice

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Growth hormone and prolactin synthesis in normal and homozygous Snell and Ames dwarf mice

MB Slabaugh, ME Lieberman, JJ Rutledge and J Gorski

The severe growth retardation and sterility characteristic of Snell and Ames dwarfs, two nonallelic, recessive mouse mutants, have been attributed to a deficiency in pituitary production of GH and PRL. We have investigated the synthesis of these hormones in normal and homozygous dwarf mice of both strains at various stage of development to determine whether the mutations prevent initial development of the pituitary capacity to produce these hormones. Synthesis of radiolabeled GH and PRL was assayed by two-dimensional electrophoresis and immunoprecipitation using goat antisera to mouse GH and PRL. Litters in which all pups were mutant were produced by mating adult dwarfs made fertile by implanting a normal pituitary under the kidney capsule. We found that GH and PRL synthesis was undetectable in Snell or Ames dwarfs at all stages of development examined, including the neonatal period when dwarf pups are indistinguishable from normal littermates. Furthermore, we detected no immunoprecipitable peptides which might represent mutant hormones in these animals. Assays of GH synthetic rates in heterozygous animals indicated that there may be a slight negative effect of the mutant gene on GH synthesis in Snell animals. It was concluded that in the homozygous condition, both types of dwarf alleles result in failure of the pituitary to initiate GH and PRL synthesis.

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Endocrinology	Endocrine Reviews	J. Clin. End. & Metab.
Molecular Endocrinology	Recent Prog. Horm. Res.	All Endocrine Journals

				Y. Hashimoto, M. Cisternino, and L. E. Cohen A Novel Nonsense Mutation in the Pit-1 Gene: Evidence for a Gene Dosage Effect J. Clin. Endocrinol. Metab., March 1, 2003; 88(3): 1241 - 1247. [Abstract] [Full Text] [PDF]

				T. C. Vieira, M. R. Dias da Silva, J. M. Cerutti, E. Brunner, M. Borges, L. T. Arnaldi, P. Kopp, and J. Abucham Familial Combined Pituitary Hormone Deficiency due to a Novel Mutation R99Q in the Hot Spot Region of Prophet of Pit-1 Presenting as Constitutional Growth Delay J. Clin. Endocrinol. Metab., January 1, 2003; 88(1): 38 - 44. [Abstract] [Full Text] [PDF]

				Heritable Disorders of Pituitary Development J. Clin. Endocrinol. Metab., December 1, 1999; 84(12): 4362 - 4370. [Abstract] [Full Text]

				C. J. Phelps and D. L. Hurley Pituitary Hormones as Neurotrophic Signals: Update on Hypothalamic Differentiation in Genetic Models of Altered Feedback Experimental Biology and Medicine, October 2, 1999; 222(1): 39 - 58. [Abstract] [Full Text]

				V. Chandrashekar, A. Bartke, K. T. Coschigano, and J. J. Kopchick Pituitary and Testicular Function in Growth Hormone Receptor Gene Knockout Mice Endocrinology, March 1, 1999; 140(3): 1082 - 1088. [Abstract] [Full Text]

				E. Svanberg, L. Powell-Braxton, C. Ohlsson, H. Zachrisson, and K. Lundholm The Role of the Growth Hormone/Insulin-Like Growth Factor I Axis in Stimulation of Protein Synthesis in Skeletal Muscles Following Oral Refeeding Endocrinology, December 1, 1998; 139(12): 4906 - 4910. [Abstract] [Full Text] [PDF]

				E Hermesz, S Mackem, and K. Mahon Rpx: a novel anterior-restricted homeobox gene progressively activated in the prechordal plate, anterior neural plate and Rathke's pouch of the mouse embryo Development, January 1, 1996; 122(1): 41 - 52. [Abstract] [PDF]

				P. Gage, M. Roller, T. Saunders, L. Scarlett, and S. Camper Anterior pituitary cells defective in the cell-autonomous factor, df, undergo cell lineage specification but not expansion Development, January 1, 1996; 122(1): 151 - 160. [Abstract] [PDF]

				S. Lin, S Li, D. Drolet, and M. Rosenfeld Pituitary ontogeny of the Snell dwarf mouse reveals Pit-1-independent and Pit-1-dependent origins of the thyrotrope Development, January 3, 1994; 120(3): 515 - 522. [Abstract] [PDF]

				R R Behringer, L S Mathews, R D Palmiter, and R L Brinster Dwarf mice produced by genetic ablation of growth hormone-expressing cells. Genes & Dev., April 1, 1988; 2(4): 453 - 461. [Abstract] [PDF]

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Growth hormone and prolactin synthesis in normal and homozygous Snell and Ames dwarf mice