pubmed:abstractText |
Rat uteri were taken at various stages of pregnancy and involution post partum, and several other tissues were taken from pregnant and non-pregnant animals. Portions of each tissue were homogenized in the presence of proteinase inhibitors, and the amounts of the high-Ca2+-requiring Ca2+-activated proteinase in the supernatants were measured by a two-site immunoradiometric assay using 125I-immunoglobulin G. The proteinase was shown, by protein blotting, to be immunologically identical in all tissues. The amounts in the various tissues, expressed in units of proteinase activity/g wet wt., were: lung, 95; kidney and small intestine, 42; liver, 20; brain, heart and skeletal muscle, 13. Uterine wet weight increased at the end of pregnancy by about 8-fold, but the amounts of proteinase per uterus increased by about 22-fold; alternatively, expressed in units of proteinase activity/g wet wt., the mean uterine values were: non-pregnant, 28.6; term-pregnant, 77.0. As the wet weight of the uterus fell rapidly during involution, the amounts of proteinase activity remained relatively high. The data suggest that the Ca2+-activated proteinase may have some role in tissue resorption during uterine involution, but the high proteinase activity present before parturition must be regulated in ways which are not yet clear.
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