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Thyroidectomy of the dogfish, Scyllium canicula (L.), and the effect of dogfish thyroid upon the oxygen consumption of rats

Published online by Cambridge University Press:  11 May 2009

A. J. Matty
A. J. Matty
Affiliation:
Department of Zoology, University of Nottingham
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Summary

Surgical thyroidectomy has been successfully performed on the dogfish, Scyllium canicula, and has been shown to have no signficant effect on the animal's oxygen consumption over a period of 6 weeks.

The injection of extracts of dogfish thyroid into adult male white rats results in an increase in the animal's oxygen consumption of the same order as that produced by mammalian thyroid preparations.

The significance of these results is discussed in the light of recent investigations of thyroid function in fish.

Type
Research Article
Information
Journal of the Marine Biological Association of the United Kingdom , Volume 33 , Issue 3 , October 1954 , pp. 689 - 697
Copyright
Copyright © Marine Biological Association of the United Kingdom 1954

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References

REFERENCES

Barrett, H. W. & Gassner, F. X., 1951. Effect of 5-halogeno-2-thiouracil and of 6-methyl-5-iodo-2-thiouracil on oxygen consumption in rats. Endocrinology, Vol. 48, pp. 197204.CrossRefGoogle Scholar
Barrington, E. J. W. & Matty, A. J., 1952. Influence of thiourea on reproduction in the minnow. Nature, Lond., Vol. 170, pp. 105–6.Google Scholar
Etkin, W., Root, R. W. & Mofshin, B. P., 1940. The effect of thyroid feeding and oxygen consumption of the goldfish. Physiol. Zoöl., Vol. 13, pp. 415–29.CrossRefGoogle Scholar
Fortune, P. Y., 1953. Thyroid activity in teleosts. Nature, Lond., Vol. 171, p. 483.CrossRefGoogle ScholarPubMed
Giguère, P. A. & Lauzier, L., 1945. Le dosage polarographique de l'oxygene dissous dans l'eau de mer. Canad. J. Res., Vol. 23, Sect. B, pp. 7683.Google Scholar
Goldsmith, E. D., 1949. Phylogeny of the thyroid. Ann. N.Y. Acad. Sci., Vol. 50, Art. 5, pp. 283316.Google Scholar
Goldsmith, E. D., Nigrelli, R. F., Gordon, A. S., Charipper, H. A. & Gordon, M., 1944. Effect of thiourea upon fish development. Endocrinology, Vol. 35, pp. 132–4.Google Scholar
Gorbman, A., Lissitzky, S., Michel, R. & Roche, J., 1952. Thyroid metabolism of iodine in the shark Scyliorhinus (Scyllium) canicula. Endocrinology, Vol. 51, pp. 311–21.CrossRefGoogle ScholarPubMed
Grad, B., 1952. A simple method for the measurement of the oxygen consumption and heart rate of rats. Endocrinology, Vol. 50, pp. 94–9.Google Scholar
Guariglia, G., 1937. Tiroide e ciclo sessuale nei selaci ovipari. Boll. Soc. ital. Biol. sper., Vol. 15, pp. 690–2.Google Scholar
Hall, F. G., 1929. The influence of varying oxygen tensions upon the rate of oxygen consumption in marine fishes. Amer. J. Physiol., Vol. 88, pp. 212–8.Google Scholar
Hasler, A. D. & Meyer, R. K., 1942. Respiratory response of normal and castrated goldfish to teleost and mammalian hormones. J. exp. Zool, Vol. 91, pp. 391403.Google Scholar
Hoar, W. S., 1951. Hormones in fish. Univ. Toronto Stud, biol., Vol. 59, pp. 134. (Publication of the Ontario Fisheries Research Laboratories, No. 71).Google Scholar
Hopper, A. F., 1952. Growth and maturation response of Lebistes reticulatus to treatment with mammalian thyroid powder and thiouracil. J. exp. Zool., Vol. 119, p. 205–17.CrossRefGoogle Scholar
Leblond, C. P. & Eartly, H., 1952. An attempt to produce complete thyroxine deficiency in the rat. Endocrinology, Vol. 51, pp. 2641.Google Scholar
Matthews, S. A. & Smith, D. C, 1947a. Concentration of I131 by the thyroid gland of the Bermuda parrot fish. Anat. Rec, Vol. 99, p. 592. (Abstr. 77.)Google ScholarPubMed
Matthews, S. A. & Smith, D. C, 1947b. The effect of thiourea on the oxygen consumption of Fundulus. Physiol. Zoöl., Vol. 20, pp. 161–4.Google Scholar
Milton, R. F. & Waters, W. A., 1949. Methods of Quantitative Micro-analysis. 599 pp. London: Arnold.Google Scholar
Nigrelli, R. F., Goldsmith, E. D. & Charipper, H. A., 1946. Effects of mammalian thyroid powder on growth and maturation of thiourea treated fish. Anat. Rec, Vol. 94, p. 523. (Abstr. 173.)Google Scholar
Robertson, O. H. & Chaney, A. L., 1953. Thyroid hyperplasia and tissue iodine content in spawning rainbow trout: A comparative study of Lake Michigan and California sea-run trout. Physiol. Zoöl., Vol. 26, pp. 328–40.CrossRefGoogle Scholar
Root, R. W. & Etkin, W., 1937. Effect of thyroxine on oxygen consumption of the toadfish. Proc. Soc. exp. Biol., N.Y., Vol. 37, pp. 174–8.CrossRefGoogle Scholar
Salter, W. T., 1950. The control of thyroid activity. In The Hormones, Vol. 2, pp. 301345. Ed. Pincus and Thiman, Academic Press, New York.Google Scholar
Scott, J. L., 1953. The effects of thiourea treatment upon the thyroid, pituitary and gonads of the zebra fish, Brachydanio rerio. Zoologica, N.Y., Vol. 38, pp. 5361.Google Scholar
Siebert, W. J. & Smith, R. S., 1930. The effect of various anterior pituitary preparations upon basal metabolism in partially thyroidectomised and completely thyroidectomised guinea pigs. Amer. J. Physiol., Vol. 95, pp. 396402.CrossRefGoogle Scholar
Smith, D. C. & Brown, F. C, 1952. The effect of parrot fish thyroid on the respira-tory metabolism of the white rat. Biol. Bull., Woods Hole., Vol. 102, pp. 278–85.Google Scholar
Smith, D. C. & Everett, G. M., 1943. The effects of thyroid hormone on growth rate, time of sexual differentiation and oxygen consumption in the fish Lebistes reticulatus. J. exp. Zool., Vol. 94, pp. 229–40.CrossRefGoogle Scholar
Smith, D. C. & Matthews, S. A., 1947. The effect of extracts of the thyroid gland of the Bermuda parrot fish on the oxygen consumption of the Bermuda white grunts, (Haemulou sp.). Anat. Rec, Vol. 99, p. 593. (Abstr. 78.)Google Scholar
Smith, D. C., Sladek, S. A. & Kellner, A. W., 1953. The effect of mammalian thyroid extract on the growth rate and sexual differentiations in the fish Lebistes reticulatus treated with thiourea. Physiol. Zoöl., Vol. 26, pp. 117–24.Google Scholar
Vivien, J., 1941. Contribution a l'étude de la physiologie hypophysaire dans ses relations avec l'appareil genital, la thyröide et les corps suprarénaux chez les poissons sélaciens et té1éosteens. Scylliorhinus canicula et Gobius paganellus. Bull, biol, T. 75, pp. 275309.Google Scholar
Waring, H., Landgrebe, F. W. & Bruce, J. R., 1942. Chromatic behaviour of Scyllium canicula. J. exp. Biol., Vol. 18, pp. 306–16.Google Scholar
Zenza, P., 1937. Tiroide; maturita sessuale e gestazione in Torpedo ocellata. Boll. Soc. ital. Biol. sper., Vol. 15, pp. 75–7.Google Scholar