Abstract
A series of chlorinated hydrocarbons were investigated for their ability to inhibit the binding of tritiated progesterone, dexamethasone and testosterone to their respective cytoplasmic receptors, prepared from the eggshell gland mucosa of the domestic fowl.o,p′- DDE and toxaphene were most potent in inhibiting the binding of progesterone and testosterone to their receptors, whilep,p′- DDE was most potent in inhibiting the binding of dexamethasone. The effect of the latter compound on dexamethasone binding was biphasic. There were significant differences between ducks and domestic fowls in the dissociation constant (KD) and maximal number of binding sites (Bmax) for several of the steroid hormones. No effect of steroid binding was observed in thep,p′-DDE-treated ducks that were laying thin-shelled eggs. Some metals were also tested for their ability to inhibit progesterone binding. Hg2+ was most potent (IC50 = 5.8 × 10−5M) in this respect, while Cd2+, Pb2+ and Al3+ inhibited the binding only when administered in very high concentrations (10−3 M). Me-Hg+ was less potent than Hg2+. It is concluded that chlorinated hydrocarbon pesticides may interact with several different steroid hormone receptors. These findings are discussed in relation to some reproductive and other hormonal disturbances observed in birds and mammals.
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References
Adkins-Regan E, Hurvitz ED (1982)o,p′-DDT causes growth of an androgen dependent gland in Coturnix quail. Experientia 38: 1082–1083
Bergman A, Olsson M (1985) Pathology of Baltic Grey seal and Ringed seal females with special reference to adrenocortical hyperplasia: is environmental pollution the cause of a widely distributed disease syndrome. Finnish Game Res 44: 47–62
Bitman L, Cecil H, Harris S, Fries G (1968) Estrogenic activity ofo,p′-DDT in mammalian uterus and avian oviduct. Science 162: 371–372
Brandt I, Bergman A (1987) PCB, methyl sulphones and related compounds: Identification of target cells and tissues in different species. Chemosphere 16: 1571–1676
Brandt I, Lund J, Bergman A, Klasson-Wehler E, Poellinger L, Gustavsson J-A (1985) Target cells for the polychlorinated biphenyl metabolite 4.4′-bis(methysulphonyl)-2.2′-5.5′-tetrachlorobiphenyl in lung and kidney. Drug Metab Dispos 13: 490–496
Bulger WH, Kupfer D (1983) Estrogenic action of DDT analogues. Am J Ind Med 4: 163–173
Bulger WH, Kupfer D (1985) In: Thomas JA et al. (eds) Endocrine toxicology, Raven Press, New York, pp 1–33
Cecil HC, Fries GF, Bitman J, Harris SJ, Lillie RJ, Denton CA (1972) Changes in eggshell quality and pesticide content of laying hens or pullets fed DDT in high or low calcium diets. Poult Sci 51: 130–138
Clark JH, Schrader WT, O'Malley BW (1985) Mechanism of action of steroid hormones. In: Wilson JD, Foster DW (eds) Textbook of endocrinology. 7th ed. W. B. Saunders Co, Philadelphia pp 33–75
Cooke AS (1973) Shell thinning in avian eggs by environmental pollutants. Environ Pollut 4: 85–152
Eastin WC Jr, Spaziani E (1978) On the control of calcium secretion in the shell gland (uterus). Biol Reprod 19: 493–504
Gilbert AB (1971) Egg albumen and its formation. In: Bell DJ, Freeman BM (eds) Physiology and biochemistry of the domestic fowl. Vol. 3. Academic Press, London, pp 1291–1329
Grau CR, Roudybush T, Dobbs J, Wathen J (1977) Altered yolk structure and reduced hatchability of eggs from birds fed single doses of petroleum oils. Science 195: 779–781
Hayes WJ (1975) In: Toxicology of pesticides. Williams and Wilkens Co, Baltimore, pp 483–536
Holmes WN, Cavanaugh KP, Cronshaw J (1978) The effects of ingested petroleum on ovipostion and some aspects of reproduction in experimental colonies of mallard ducks (Anas platyrhynchos). J Reprod Fert 54: 335–347
Hrdina PP, Singhal RH, Ling GM (1975) DDT and related chlorinated hydrocarbon insecticides; pharmacological basis of their toxicity in mammals. Adv Pharmacol Chemother 12: 31–88
Jensen S, Janson B (1979) Number and identity of anthropogenic substances known to be present in Baltic seals and their possible effect on reproduction. Ann NY Acad Sci 320: 436–448
Kimbrough RD (1980) In: Kimbrough RD (ed) Haologenated biphenyls, terphenyls, naphtalenes, dibenzodioxines and related products. Elsivier North Holland Biomedical Press, Amsterdam, pp 77–81
Klingensmith PM, Hester PY, Wilson EK (1984) Relationship of plasma corticosterone and adrenal cholesterol and corticosterone to the production of soft-shelled and shell-less eggs. Poult Sci 63 [9]: 1841–1845
Lowry OH, Rosebrough NJ, Farr AL, Randall RJ (1951) Protein measurement with the Folin phenol reagent. J Biol Chem 193: 265–275
Lund B-O (1989) Formation and toxicity of reactive intermediates in the metabolism of DDT in mice. PhD thesis. Swedish University of Agricultural Sciences, Uppsala
Lund J, Brandt I, Peollinger L, Bergman A, Klasson-Wehler E, Gustavsson J-A (1985) Target cells for the polychlorinated biphenyl metabolite 4.4′-bis(methysulphonyl)-2.2′-5.5′-tetrachlorobiphenyl. Characterization of high affinity binding in rat and mouse lung cytosol. Mol Pharmacol 27: 314–323
Lundholm CE (190) Comparison ofp,p′-DDE ando,p′,-DDE on eggshell thickness and Ca2+-binding activity of shell gland in ducks. Acta Pharmacol Toxicol 47: 377–384
Lundholm CE (1985) Studies of the effect of DDE on the calcium metabolism of the eggshell gland during formation of the eggshell in ducks and domestic fowls. Linköping University Medical Dissertations Nr 205
Lundholm CE (1987a) Review: thinning of eggshells in birds by DDE: mode of action on the eggshell gland. Comp Biochem Physiol 88 C [1]: 1–22
Lundholm CE (1987b) Methyl-mercury decreases the eggshell thickness and inhibits the Ca2+-uptake in a homogenate of the eggshell gland mucosa and its subcellular fractions from the domestic fowl. Acta Pharmacol Toxicol 60: 385–388
Lundholm CE (1988) The effect of DDE, PCB and chlordane on the binding of progesterone to its cytoplasmic receptor in the eggshell gland mucosa of birds and the endometrium of mammalian uterus. Comp Biochem Physiol 89 C [2]: 361–368
Lundholm CE (1990) The distribution of calmodulin in the mucosa of the avian oviduct and the effect ofp,p′-DDE on some of its metabolic parameters. Comp Biochem Physiol 96 C: 321–326
Murayama A, Fukai F, Yamamoto T (1980) Progesterone receptor system of the hen oviduct. J Biochem 88: 1305–1315
Nelson JA (1974) Effects of DDT analogues and PCB mixtures on the 17β-3H-estradiol binding to rat uterine receptor. Biochem Pharmacol 23: 447–451
Niemelä AO (1986) Regulation of avidin accumulation by prostaglandines in chick oviduct cell culture. J Steroid Biochem 24 [3]: 709–715
Nyholm NEI (1981) Evidence of involvement of aluminium in causation of defective formation of eggshells and of impaired breeding in wild passarine birds. Environ Res 26: 363–371
Nys Y (1987) Progesterone and testosterone elicit increases in the duration of shell formation in domestic hens. Br Poult Sci 28: 57–68
O'Malley BW, McGuire PO, Kohler PO, Korenman SG (1969) Studies on the mechanism of steroid hormone regulation of synthesis of specific proteins. Recent Prog Horm Res 25: 105–160
Pageaux J-F, Dufiene L, Laugier C, Perche O, Sandoz D (1989) Heterogenity of progesterone receptor expression in epithelial cells of immature and differentiating quail oviduct. Biol Cell 69 [2]: 135–140
Ratcliffe DA (1970) Changes attributable to pesticides in egg breakage frequence and eggshell thickness in some British birds. J Appl Ecol 7: 67–115
Scott MS, Zimmermann JR, Marinsky S, Mullendorff PA, Rumsey GL, Rice RW (1975) Effects of PCBs, DDT and mercury compounds upon egg production, hatchability and shell quality in chickens and Japanese quail. Poult Sci 54: 350–368
Simkiss K, Taylor TG (1971) Shell formation. In: Physiology and biochemistry of the domestic fowl, Vol. 3. Academic Press, London, pp 1321–1343
Stoewsand GS, Anderson JL, Gutenmann WH, Bache CA, Lisk DJ (1971) Eggshell thinning in Japanese quail fed mercuric chloride. Science 173: 1030–1031
Stoewsand GS, Anderson JL, Gutenmann WH, Lisk DJ (1978) Form of dietary selenium on mercury and selenium tissue retention and egg production in Japanese quail. Nutr Rep Int 15: 81–87
Tanaka K (1976) A physiological study of eggshell formation in the domestic fowl with special reference to the initiation of secretory eggshell material. Jpn J Zootech Sci 47: 385–391
Wakeling AE, Visek WJ (1973) Insecticide inhibition of 4α-dihydrotestosterone binding in the rat ventral prostate. Science 181: 659–661
Wassermann M, Wassermann D, Cucos S, Miller H (1979) World PCB map: storage and effects in man and his biological environment in the 1970s. Ann NY Acad Sci 320: 69–124
Welch RM, Levin W, Conney AH (1969) Estrogenic action of DDT and its analogues. Toxicol Appl Pharmacol 14: 358–367
Wells JW, Wight PAL (1971) The adrenal glands. In: Bell DJ, Freeman BM (eds) Physiology and biochemistry of the domestic fowl, Vol. 1. Academic Press, London, pp 489–520
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Lundholm, C.E. Influence of chlorinated hydrocarbons, Hg2+ and methyl-Hg+ on steroid hormone receptors from eggshell gland mucosa of domestic fowls and ducks. Arch Toxicol 65, 220–227 (1991). https://doi.org/10.1007/BF02307312
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DOI: https://doi.org/10.1007/BF02307312