Hibernation enhances contractile responses of basilar artery in ground squirrels: The role of Rho-kinase and NO.

Hibernation is accompanied by dramatic decrease of blood flow in many organs due to the increase of their vascular resistances. We compared the responses of mesenteric, renal, and cerebral proximal resistance arteries in summer active (SA) and winter hibernating (WH) ground squirrels and studied the signaling pathways of Rho-kinase and NO. Wire myography and Western blotting were used to assess the arterial responses and protein abundances.

Possible Recovery of Manifestation of Prolactin Receptor and Some of Its Target Proteins in the Liver and Kidney Cells of Female Rats after Relief of Cholestasis Complicated and Not Complicated by Hyperprolactinemia.

Immunohistochemistry with semi-quantitative analysis of computer images showed that prolactin receptor and cystic fi brosis transmembrane regulator (CFTR) in cholangiocytes of female rats elevated in cholestasis quickly respond to its relief. The effect of hyperprolactinemia on the extent of return of these proteins to baseline was different. Decompression of the bile duct abolishes the negative effect of hyperprolactinemia on CFTR expression and its positive effect on mrp3 expression in the proximal renal tubules.

Expression of Multidrug Resistance Protein 2 (mrp2) in the Liver and Kidney Cells of Female Rats with Modeled Cholestasis of Pregnancy.

Using immunohistochemical method with semiquantitative analysis of images, we showed that mrp2 expression in response to cholestasis decreased in hepatocytes and cholangiocytes, and remained unchanged in the kidney structures. A decrease of mrp2 expression in renal tubules leading to a decrease of metabolic intoxication of the kidney was demonstrated in cholestasis of pregnancy model. In bile ducts cells, negative correlations of mrp2 with previously measured levels of prolactin receptors, CFTR, and mrp3 were revealed.