Role of Na+/K+-ATPase in Natriuretic Effect of Prolactin in a Model of Cholestasis of Pregnancy.

Participation of Na+/K+-ATPase in the natriuretic effect of prolactin in a cholestasis of pregnancy model was investigated. The Na+/K+-ATPase activity in rat kidney medulla, where active sodium reabsorption occurs, decreased in the model of cholestasis of pregnancy and other hyperprolactinemia types compared with intact animals. This effect was not connected with the protein level of α1- and ß-subunits of Na+/K+-ATPase measured by Western blotting in the kidney medulla. Decrease in Na+/K+-ATPase activity in the kidney cortex was not significant, as well as decrease in the quantity of mRNA and proteins of the α1- and ß-subunits of Na+/K+-ATPase. There were no correlations between the Na+/K+-ATPase activity and sodium clearance, although sodium clearance increased significantly in the model of cholestasis of pregnancy and other hyperprolactinemia groups under conditions of stable glomerular filtration rate measured by creatinine clearance. We conclude that the Na+/K+-ATPase is not the only mediator of the natriuretic effect of prolactin in the model of cholestasis of pregnancy.

Role of Prolactin in the Regulation of Bicarbonates Biodynamics in Female Rat Model of Cholestasis of Pregnancy.

We studied possible involvement of prolactin in the regulation of bicarbonate biodynamics using female rat model of cholestasis of pregnancy induced by transplantation of the donor pituitary under the renal capsule of a recipient (hyperprolactinemia) and bile duct ligation (cholestasis). The concentration of bicarbonates in the bile and blood, their excretion, clearance, and reabsorption, as well as glomerular filtration rate and excretion of sodium ions were assessed. It was found that the main effect of prolactin was directed to the kidney-regulated pool of bicarbonates and consisted in stimulation of their clearance and inhibition of reabsorption, which led to a decrease in bicarbonate blood concentration. Parallel influence of prolactin on the clearance of bicarbonates and sodium ions was observed.

[The effect of inbreeding on accumulation of complex diseases in genetic isolates].

We have studied the effect of genetic processes in ethnically and demographically diverse isolates on the epidemiology of complex diseases. Our long-term studies of five indigenous Dagestan ethnic groups have revealed ten genetic isolates with aggregation of schizophrenia-related diseases. According to Neel's classification (1992), these isolates belong to primary and secondary depending on the duration of demographic process. We have found that the average demographic ages of the examined primary and secondary isolates were about 4000 and 700 years, respectively. The inbreeding level F was studied using two methods: analysis of marriage structure in three generations, which is traditional in population-genetic studies, and analysis of the same structure in extensive pedigrees (up to 11-13 generations). We have shown that with the second method, the F value increases two- to three-fold in various isolates. The accumulated inbreeding in the primary isolates proved to be twofold higher than that in the secondary ones. Primary isolates have revealed relatively higher genetic and clinical homogeneity in combination with higher aggregation of population-specific complex disease pathology compared to secondary isolates. A decrease in observed recombinations and the number of genomic loci linked with the disease in primary isolates have been also demonstrated. Thus, our studies showed that complex diseases can be less expensive and mapping of genes for time-consuming if conducted in primary rather than in secondary isolates, in particular when dealing with genetically heterogeneous outbred human populations.