Abstract
Mammalian reproduction is dependent on both a successful pregnancy and on the subsequent period of lactation. In the rat, ovulation occurs shortly after parturition making it possible for a dam to be simultaneously pregnant and lactating. The present studies investigate the effect of placental hormones on suckling-induced prolactin (PRL) release and the contribution of placental hormones to milk synthesis and secretion. A rat choriocarcinoma cell line, Rcho-1, which secretes placental lactogens (PLs) following transplantation in vivo, attenuated suckling-induced PRL release on both d 9 and d 14 of lactation by 43 and 58%, respectively. When PRL secretion was completely inhibited by bromocriptine, a dopamine agonist, Rcho-1-bearing dams still maintained a normal litters weight gain, demonstrating that placental lactogens can continue an established lactation. The Rcho-1 tumors also initiated milk synthesis and secretion in nulliparous rats continuously exposed to pups. Whereas none of the 11 control virgins began lactating and had an average pup weight loss of 2.07 g, the Rcho-1-bearing rats began lactating, as evidenced by a significant reduction in pup weight loss. Thirty percent of these rats became fully lactationally competent. Northern blot analysis showed that the Rcho-1 tumors expressed both PL-I and PL-II mRNA in all experimental groups. These tumors also secreted PL-I into the circulation, as shown by radioimmunoassay.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Arbogast, L. A. and Voogt, J. L. (1996).Endocrinology 137, 47–54.
Bruce, H. M. (1961).J. Reprod. Fertil. 2, 17–34.
Butcher, R. L., Fugo, N. W., and Collins, W. E. (1972).Endocrinology 90, 1125–1127.
Chomczynski, P. and Sacchi, N. (1987).Anal. Biochem. 162, 156–159.
Clemens, J. A., Sar, M., and Meites, J. (1969a).Proc. Soc. Exp. Biol. Med. 130, 628–630.
Clemens, J. A., Sar, M., and Meites, J. (1969b).Endocrinology 84, 868–872.
Colosi, P., Talamantes, F., and Linzer, D. I. H. (1987).Mol. Endocrinol. 1, 767–776.
Connor, J. R. and Davis, H. N. (1980a).Biol. Reprod. 23, 994–999.
Connor, J. R. and Davis, H. N. (1980b).Biol. Reprod. 23, 1000–1006.
Csapo, A. I. and Wiest, W. G. (1969).Endocrinology 85, 735–746.
Dang, B. T. and Voogt, J. L. (1977).Endocrinology 100, 873–880.
Davis, L. G., Dibner, M. D., and Battey, J. F. (1986).Basic Meth. Mol. Biol. Elsevier: New York. pp. 143–146.
Demarest, K. T., McKay, W., Riegle, G. D., and Moore, K. E. (1983).Neuroendocrinology 36, 130–137.
Duckworth, M. L., Kirk, K. L., and Friesen, H. G. (1986).J. Biol. Chem. 261, 10,871–10,878.
Evans, H. M. and Simpson, M. E. (1928-1929).Proc. Soc. Exp. Biol. Med. 26, 598.
Faria, T. N., Deb, S., Kwok, S. C. M., Talamantes, F., and Soares, M. J. (1990a).Dev. Biol. 141, 279–291.
Faria, T. N., Deb, S., Kwok, S. C. M., Vandeputte, M., Talamantes, F., and Soares, M. J. (1990b).Endocrinology 127, 3131–3137.
Faria, T. N. and Soares, M. J. (1991).Endocrinology 129, 2895–2906.
Grosvenor, C. E., Mena, F., and Whitworth, N. S. (1979).Endocrinology 104, 372–376.
Hamlin, G. P., Lu, X.-J., Roby, K. F., and Soares, M. J. (1994).Endocrinology 134, 2390–2396.
Lyons, W. R. (1944).Anat. Rec. 88, 446.
Mantalenakis, S. J. and Ketchel, M. M. (1966).J. Reprod. Fert. 12, 391–394.
Mena, F. and Grosvenor, C. E. (1968).Endocrinology 82, 623–626.
Morshige, W. K. and Rothchild, I. (1974).Endocrinology 95, 260–274.
Ray, E. W., Averill, S. C., Lyons, W. R., and Johnson, R. E. (1955).Endocrinology 56, 359–373.
Robertson, M. C., and Friesen, H. G. (1981).Endocrinology 108, 2388–2390.
Robertson, M. C., Gillespie, B., and Friesen, H. G. (1982).Endocrinology 111, 1862–1866.
Robertson, M. C., Owens, R. E., Klindt, J., and Friesen, H. G. (1984).Endocrinology 114, 1805–1811.
Smith, M. S. and Neill, J. D. (1976).Endocrinology 98, 696–701.
Smith, M. S., McLean, B. K., and Neill, J. D. (1976).Endocrinology 98, 1370–1377.
Soares, M. J., Schaberg, K. D., Pinal, C. S., De, S. K., Bhatia, P., and Andrews, G. K. (1987).Dev. Biol. 124, 134–144.
Tabarelli, M., Kofler, R., Schwarz, S., and Wick, G. (1982).Acta. Endocrinologica 99, 288–294.
Tonkowicz, P. and Voogt, J. L. (1984).Endocrinology 114, 254–259.
Voogt, J. L. (1980).Endocrinology 106, 1670–1676.
Voogt, J. L., Robertson, M., and Friesen, M. (1982).Biol. Reprod. 26, 800–805.
Voogt, J. L., Pakrasi, P. L., Johnson, D. C., and Dey, S. K. (1985).J. Endocr. 107, 121–126.
Voogt, J. L. and deGreef, W. J. (1989).Proc. Soc. Exp. Biol. Med. 191, 403–407.
Xie, W.-Q. and Rothblum, L. I. (1991).Biotechniques 11, 325–327.
Yogev, L. and Terkel, J. (1982).Endocrinology 110, 158–162.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Flietstra, R.J., Voogt, J.L. Rat placental lactogens initiate and maintain lactation yet inhibit suckling-induced prolactin release. Endocr 5, 103–110 (1996). https://doi.org/10.1007/BF02738662
Received:
Revised:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF02738662