Expression pattern of Tau in the rat brain during pregnancy and the beginning of lactation.

Pregnancy involves changes in brain function that implicate a re-organization in neuronal cytoskeleton. We analyzed the content of the microtubule associated protein Tau (65kDa isoform) and its phosphorylated form (PhosphoTau) in several rat brain regions throughout pregnancy and on day 2 of lactation by Western blot. In hypothalamus the content of Tau increased on days 2 and 18 of gestation compared with days 14, 21 and in lactation. PhosphoTau content increased throughout pregnancy. In preoptic area Tau content did not show significant changes throughout pregnancy or lactation, however, the content of PhosphoTau presented a decrease on day 21 of gestation. In hippocampus Tau content decreased on day 14 until day 21 compared with day 2 of gestation, however, in lactation day 2 the content of Tau increased meanwhile PhosphoTau content progressively increased throughout pregnancy. In frontal cortex Tau content decreased on day 21 of gestation compared with days 2, 14 and 18, with an increase in lactation, whereas PhosphoTau did not show significant changes. In cerebellum Tau protein decreased on days 14, 18 and 21 of pregnancy with an increase in lactation. PhosphoTau content increased throughout pregnancy and on day 2 of lactation. PhosphoTau/Tau ratio changes in each brain area along pregnancy and in lactation. Our data suggest that Tau expression and its phosphorylation pattern change in a tissue-dependent manner throughout pregnancy and the beginning of lactation in the rat brain.

Changes in the content of GFAP in the rat brain during pregnancy and the beginning of lactation.

Several changes in brain function, including learning and memory, have been reported during pregnancy but the molecular mechanisms involved in these changes are unknown. Due to the fundamental role of glial cells in brain activity, we analyzed the content of glial fibrillary acidic protein (GFAP) in the hippocampus, frontal cortex, preoptic area, hypothalamus and cerebellum of the rat on days 2, 14, 18, and 21 of pregnancy and on day 2 of lactation by Western blot. A differential expression pattern of GFAP was found in the brain during pregnancy and the beginning of lactation. GFAP content was increased in the hippocampus throughout pregnancy, whereas a decrease was observed in cerebellum. GFAP content was increased in the frontal cortex and hypothalamus on days 14 and 18, respectively, with a decrease in the following days of pregnancy in both regions. In preoptic area a decrease in GFAP content was observed on day 14 with an increase on days 18 and 21. In the frontal cortex and cerebellum, GFAP content was increased on day 2 of lactation, while it was maintained as on day 21 of pregnancy in the other regions. Our data suggest a differential expression pattern of GFAP in the rat brain during pregnancy and the beginning of lactation that should be associated with changes in brain function during these reproductive stages.