Succinate dehydrogenase activity in rat kidney after repeated administrations of p-aminohippurate or sodium chloride

During PAH excretion and 18 h after repeated PAH administrations to rats, renal cortical SDH activity was unchanged in comparison with untreated controls. On the other hand, 18 h after repeated administrations of 0.9% or 1.8% NaCl solution, SDH activity was decreased by about 20% in kidney cortex. In outer medulla SDH activity was decreased 18 h after all pretreatments. The decline of SDH activity was observed whenever an increased urinary Na excretion occurred, except that PAH was repeatedly administered. The probability is discussed that substrate-induced stimulation of the carrier system for weak organic acids is accompanied by an increase of mitochondrial activity in kidney cortex.     

Dynamics of absorption in gut and reabsorption in kidney of yellow fluorescent protein in rat postnatal ontogenesis

In experiments on rats aged 5, 12, and 25 days and on adult rats, absorption of yellow fluorescent protein (YFP) in small intestine was shown, with its subsequent entry to kidney with blood flow and accumulation in cells of the nephron proximal segment. With age, intensity of the YEP absorption in the gut decreased; the YEP accumulation in kidney was somewhat more active in the rat pups of younger age groups than in adult animals. No accumulation of YEP was revealed in liver. The obtained results indicate an intensive absorption in the rat pup small intestine in early postnatal ontogenesis and an important role of kidney in protein metabolism and proteolysis of alien proteins.     

Vasopressin receptors: structure and stimulation by 1-deamino-arginine-vasotocin in rats

In experiments on non-anesthetized female Wistar rats, it has been shown that injection of 1-deamino-arginine-vasotocin (1dAVT) increases sodium excretion and solute-free water reabsorption. Antagonists of V1-receptors (OPC-31260, Otsuka Pharmaceutical Co., Ltd., Japan) eliminates the effect water reabsorption whereas antagonist of V1-receptors (OPC-21268, Otsuka Pharmaceutical Co., Ltd., Japan) decreases the 1dAVT-dependent increase of Na+ and water excretion. A model of V1-receptors an a supposed topography of their interaction with 1dAVT are constructed.     

The influence of different potassium and sodium ion concentrations on the rate of abiogenic peptide synthesis

The physicochemical conditions of the aqueous environment at the dawn of biological evolution were of key importance for abiogenic peptide synthesis. Recently, we have shown theoretical and experimental evidence for the unique role of potassium ions in the exponential acceleration of undirected peptide synthesis from L-glutamic acid. These data have confirmed our previous hypothesis that the first protocell emerged in a potassium rather than sodium-rich aqueous solution (seawater). The present work provides experimental data for an interpretation of concentration dependence and of optimal effective concentration of potassium and sodium ions in L-glutamic acid peptide formation.     

Imitational modeling of evolution: from organic macromolecules to protocell and animal cell

A dynamic imitational model is developed of initial stages of cell evolution based on role of environmental cation concentration. The model is developed on our hypothesis, concerning the medium of the appearance of protocells. Could be potassium water reservoirs rather than sea salt water with its predominance of sodium salts. The necessary elements of appearance the protocells served organic molecules, code of their synthesis, and formation of macromolecules under favorable ion concentration in environment High K+ and Mg2+ concentration and bow Na+. The model is based on an assumption that one of the first stages in evolution of life was the appearance in potassium-magnesium water reservoirs of organic molecules capable for selfreplication on the basis of genetic code and formation of protocells with potassium cytoplasm. The model has demonstrated necessity of formation of cell envelope for development of the protocell. Replacement of the dominant cation in water reservoirs-potassium by sodium-required the appearance of ion-transporting devices in plasma membrane and their participation in adaptation of cells to environment. This stage of evolution was accompanied by the most important morpho-functional event--formation of the plasma membrane instead of cell envelope. The membrane provided the ion asymmetry in the cell (preservation of K+ in it) relatively to the sodium external medium for maintaining optimal intracellular medium. In the model system, predecessors of animal cells elaborated mechanism of maintenance of the potassium cytoplasm with the sodium counter-ion dominating in the environment.     

Increase of water permeability and recovery of water impermeability of the frog urinary bladder

The experiments carried out on the urinary bladder of the frog Rana temporaria L. have shown that the period of recovery of water impermeability after an increase of osmotic water permeability induced by arginine-vasotocin, desmopressin, or cAMP depends on the degree of increase of the osmotic permeability but not on the nature of the substance stimulating the increase of osmotic water permeability. The removal of the hormone in the absence of autacoids fails to recover the water impermeability. After cessation of the vasotocin action the water permeability decrease is delayed if phospholipase A2 and cyclooxygenase are inhibited by qiunacrine and voltaren, respectively. An agonist of V1-receptors has no effect on dynamics of the recovery of water impermeability. This recovery has been shown to depend on PGE2 concentration in the serosal solution after the hormone removal. The obtained results indicate that decrease of water permeability depends not only on removal of vasotocin or cAMP but also on involvement of autacoids.     

Coevolution of physiological systems

Coevolution is the interaction in the process of evolution of different species that are closely related biologically but do not exchange genetic information. In this paper, we address the problem of coevolution of the whole organism’s physiological systems as a process of the interrelated development of structure and function as well as their regulatory systems during the formation of living organisms. We consider the coevolution of osmoregulation and the nitrogen metabolism type, systemic and individual coevolutionary strategies of cell volume regulation in poikiloosmotic and homoiosmotic animals, coevolution of effectory organs and endocrine factors in the development of water–salt homeostasis, co-involvement of neurohypophyseal nonapeptides and glucagon-like peptide-1 in the regulation of the renal function aimed at stabilizing physico-chemical parameters of extracellular fluids which make up the internal environment of the organism.