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Growth hormone function in strains of mice selected for large and small size

Published online by Cambridge University Press:  14 April 2009

Heather G. Pidduck  and
D. S. Falconer
Heather G. Pidduck
Affiliation:
Institute of Animal Genetics, West Mains Road, Edinburgh EH9 3JN, Scotland
D. S. Falconer
Affiliation:
Institute of Animal Genetics, West Mains Road, Edinburgh EH9 3JN, Scotland

Summary

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The gene (dw) causing hypopituitary dwarfism was transferred by repeated backcrosses into strains of mice differing genetically in growth-rate through previous selection. The dwarf mice lack growth hormone, and the purpose was to find out if the differences in growth-rate between the strains were in any part due to differences in their growth hormone status – amount of hormone or tissue sensitivity. In the absence of growth hormone, i.e. in the dwarfs, the strains still grew at different rates, proving that growth hormone status was not the only cause of their differences. The effect of substituting the dw gene was, however, greater in the large strain than in the unselected control, and less in the small strain than in the control. The growth differences between the strains were therefore in part due to growth hormone. Tissue sensitivity in the three strains was compared by their responses to graded doses of exogenous growth hormone. The large and control strains did not differ, but the small strain had a lower sensitivity. The results suggest that the increased growth-rate of the large strain is partly due to an increased amount, or activity, of its circulating growth hormone, while the reduced growth-rate of the small strain is in part due to a reduced sensitivity of its target organs to growth hormone.

Type
Research Article
Information
Genetics Research , Volume 32 , Issue 2 , October 1978 , pp. 195 - 206
Copyright
Copyright © Cambridge University Press 1978

References

REFERENCES

Althen, T. G. & Gerrits, R. J. (1976). Pituitary and serum growth hormone levels in Duroc and Yorkshire swine genetically selected for high and low backfat. Journal of Animal Science 42, 14901497.CrossRefGoogle ScholarPubMed
Baird, D. M., Nalbandov, A. V. & Norton, H. W. (1952). Some physiological causes of genetically different rates of growth in swine. Journal of Animal Science 11, 292300.CrossRefGoogle Scholar
Bartke, A. (1965). The response of two types of dwarf mice to growth hormone, thyrotropin and throxine. General and Comparative Endocrinology 5, 418426.CrossRefGoogle Scholar
Falconer, D. S. (1960). The genetics of litter size in mice. Journal of Cellular and Comparative Physiology 56, Supp. 1), 153167.CrossRefGoogle Scholar
Falconer, D. S. (1973). Replicated selection for body weight in mice. Genetical Research, 2 291321.CrossRefGoogle Scholar
Garcia, J. F. & Geschwind, I. I. (1968). Investigation of growth hormone secretion in selected mammalian species. In Growth Hormone (ed. Pecile, and Muller, ), pp. 267291. Amsterdam: Excerpta Medica.Google Scholar
Lewis, U. J. (1967). Growth hormone of normal and dwarf mice. Memoirs Society for Endocrinology 15, 179191.Google Scholar
Martial, J. A., Seeburg, P. H., Guenzi, D., Goodman, H. M. & Baxter, J. D. (1977). Regulation of growth hormone gene expression: Synergistic effects of thyroid and glucocorticoid hormones. Proceedings of the National Academy of Sciences USA 74, 42934295.CrossRefGoogle ScholarPubMed
Seavey, B. K., Singh, R. N. P., Lewis, U. J. & Geschwind, I. I. (1971). Bovine growth hormone: evidence for two allelic forms. Biochemical and Biophysical Research Communications 43, 189195.CrossRefGoogle ScholarPubMed
Shire, J. G. M. (1976). The forms, uses and significance of genetic variation in endocrine systems. Biological Reviews 51, 105141.CrossRefGoogle ScholarPubMed
Sinha, Y. N., Salocks, C. B. & Vanderlaan, W. P. (1975). Prolactin and growth hormone levels in different inbred strains of mice: Patterns in association with estrous cycle, time of day, and perphenazine stimulation. Endocrinology 95, 11121122.CrossRefGoogle Scholar
Yanai, R. & Nagasawa, H. (1968). Age-, strain-, and sex-differences in the anterior pituitary growth hormone content of mice. Endocrinologica Japonica 15, 395402.CrossRefGoogle ScholarPubMed