Phosphate metabolism and foetal growth in the rat. III. Net transfer of 31P and 32P inorganic phosphate from the maternal plasma to the placenta after foetectomy.

In primigravid rat females at the 12th day or later stages of gestation one foetus is surgically removed and the amniotic sac allowed to retract freely around the remaining placenta in situ. One hour to 10 days after foetectomy [32P]ortho-phosphate is injected intraperitoneally. The post-foetectomy placenta and matched normal placenta and foetus in the contralateral horn are taken after labelling periods of one or three hours and analysed for calcium, inorganic phosphate, organic-bound acid-soluble and organic-bound acid-insoluble phosphates in their [31P] and [32P] forms. The acutely foetectomized placenta--up to 24 hours after surgery--may serve as an appropriate model of the physiologically functioning syncytiotrophoblast: it is indeed noteworthy that organic-bound phosphate placental concentrations and labelling are little affected in the early post-foetectomy stages. On the other hand the placental inorganic phosphate concentration and labelling are profoundly affected by foetectomy. A surplus radioactive incorporation in the Pi fraction is observed which is strongly related to the weight of the control foetus and may represent up to twelve times the label incorporation in the control placenta; it decreases as the time interval since foetectomy lengthens. A cumulative increase in Pi concentration is observed which is strongly related to calcium concentration and may reach twenty-five times the maternal plasma Pi concentration. The presence of two independent pools of Pi is suggested: one geared to the metabolic needs of the placenta itself, the other representing the Pi normally transported to the foetus under metabolic control by the latter. The possibility of an electroneutral PO4(2-)/Ca2+ co-transport is evoked.

Phosphate metabolism and foetal growth in the rat. II. Net transfer of 31P and 32P inorganic phosphate from the maternal plasma to the normal foetus.

Net transfer of 31P and 32P inorganic phosphate from the maternal plasma to the rat foetus has been studied after intraperitoneal injection of [32P] ortho-phosphate in primigravid females at the 12th day or later stages of gestation. The concentration per unit weight of foetus of the inorganic phosphate (P1) fraction increases markedly with increasing foetal weight; labelling data [inverse relationship between P1 concentration and specific activity, absence of precursor/product relationship between P1 and acid-soluble organic-bound phosphates (POAS)] show this increase to result in part from the formation of a relatively inert metabolic pool, presumably in mineralized tissue. The foetal concentrations of calcium and inorganic phosphate show a strong positive correlation, both increasing markedly with foetal weight. The progressive accumulation of calcium does not, however, account entirely for the rising concentration of inorganic phosphate. The concentration per unit weight of foetus of the POAS fraction remains stable for foetuses smaller than 2 000 mg. In heavier foetuses (greater than 2 000 mg) the POAS concentrations are, with an abrupt transition, distinctly lower, rising however slightly with increasing foetal weight. The concentration per unit weight of foetus of the acid-insoluble organic-bound phosphate (POAIS) fraction decreases slightly with increasing foetal weight. The label uptake per unit weight of foetus of both POAS and POAIS fractions is negatively correlated with increasing foetal weight. The amount and label uptake per whole foetus of the P1, POAS and POAIS fractions are positively correlated with increasing foetal weight. Phosphate transfer to the foetus increases continuously, being maximal at or near birth.

PHosphate metabolism and foetal growth in the rat. I. Net transfer of 31P and 32P phosphate from the maternal plasma to the normal placenta.

Net transfer of 31P and 32P inorganic phosphate form the maternal plasma to the rat chorio-allantoic placenta has been studied after intraperitoneal injection of [32P] ortho-phosphate in primigravid females at the 12th day or late stages of gestation. The concentration and label uptake per unit weight of placenta of the inorganic phosphate (Pi), organic-bound acid-soluble phosphate (POAS) and organic-bound acid-insoluble phosphate (POAIS) fractions are negatively correlated with increasing placental weight, whereas their specific activities are independent of placental weight. The amount and label uptake per whole placenta of the Pi, POAS and POAIS fractions are positively correlated with increasing placental weight. The placental concentrations of inorganic phosphate and calcium are positively related without, however, any marked accumulation of calcium. The growing placenta is thus shown to reduce progressively, on a unit weight basis, both the inorganic phosphate uptake from the maternal plasma and its further incorporation into organic-bound fractions. There is no evidence of a control by the foetal weight, acting per se, on these placental activities.