1. Investigación

To study insulin/glucose relationship during gestation, rats were studied on days 6, 12, 15, 18, 20 or 21 of presnancy and the results were compared to values in sex.matched virgin control rats. Blood glucose levels were decreased on days 20 and 21 of gestation whereas plasma insulin levels appeared decreased on days 6 and 12, unchanged on day 15 and enhanced on days 18. 20 and 2L of gestation. Total pancreas insulin content was already augmented on day 6 of gestation and continued to increase with gestational time. \Vith the exception of an increase in tbe 6-day.pregnant rats 22.5 min after an oral glucose toad, blood glucose levels did not differ between 6• or 12-day.pregnant rats and virgin controls although plasma insulin levels reached higher values on these days. However. in the 15-day-pregnam rats, glucose tolera!lce after the glucose load was enhanced while plasma insulin levels did not differ from those in virgin rats during the first 30 mjn. In the IS-day-pregnant rat blood glucose was more increased but plasma insulin did not differ after the glucose load when compared to virgin rats, whereas 20. or 21-day-pregnant rats showed a gJucose tolerance similar to that of virgin rats but their insulin levels shonly after the glucose load were higher. The hY'I.»" glycemic response lo a high intravenous dose of insulin was decreased in 12-, 18-. 20- and 21-day-pregnant rats. TI,erefore, whereas in both the 6- and 12-day-pregnant rats there is an enhanced 13-,celJ response to the glucose insulinotropic effect and insulin responsiveness is reduced in J 2. day-pregnant rats. the 15-day pregnam rat is in a transitory stage where both insulin sensitivity and the J},-ccll response return to non pregnant vaJ. ues. Ho\•.revcr. from 18 da)'S of gcslation on, there is an intense insulin• resistanl condition which is only partially compensated by an enormous accumulation of insuJin in the pancreas followed by a faster and larger insulin release after a glucose load.

The present study in rats was aimed at determining the specific day of pregnancy on which maternal body fat accumulation starts and which tissues are involved. Most of the body weight increase at day 12 of gestation corresponded to conceptus-free maternal weight which progressively increased until the 19th day of gestation after which maternal weight stabilized and the rate of conceptus weight gain became maximal. Maternal carcass fat content progressively increased until day 18 of gestation, increased very markedly on day 19, stabilized between day 19 and 20 and then decreased on day 21. These changes were the opposite of the course of the specific-gravity values. The fresh weight oflumbar fat-pads and mesenteric adipose tissue reflected the changes in carcass fat content throughout gestation. Periuterine adipose-tissue mass declined on day 12 of gestation to be recuperated later, subcutaneous adipose tissue increased on day 12 to decline progressively thereafter and interscapular brown adipose tissue remained stable until day 20 and increased on day 21. With only a few exceptions, the lipid concentration in all these adipose tissues remained stable throughout gestation. Mammary glands and liver weights increased intensely from day 12 and, whereas the lipid concentration in the former was stable, in the latter it decreased on day 12 and increased on days 18 and 19. These results show that in the rat (a) maternal carcass fat accumulation during gestation is not paralleled by the size of the different fatstoring tissues and (b) mammary-gland fat accumulation also contributes to maternal fat storage.

To determine whether aerobic training throughout gestation modifies glucose tolerance, female Wistar rats were mated or kept nonpregnant and run or not on a 10° slope treadmill for 5 days/week at 20 m/min, starting with a 20-min run, and with a progressive daily increase of 5 min, reaching a 75-min run on the 20th day of protocol or gestation. The exercise protocol did not modify food intake, maternal and fetal weights, litter size or blood lactic acid levels. The rise in blood glucose after an oral glucose load (2 g/kg bodyweight) did not differ between trained and untrained nonpregnant rats but was lower in trained than in untrained pregnant rats. In the untrained rats the rise in plasma insulin levels after the glucose load was much greater in pregnant than in non pregnant rats; in trained rats this difference between groups was attenuated by the greater effect of exercise decreasing the plasma insulin response to the glucose load in pregnant than in nonpregnant rats. Thus, an aerobic exercise protocol that does not modify the outcome of pregnancy does significantly reduce the altered oral glucose tolerance in pregnant rats and only has a minor effect in non pregnant rats.