A point mutation uncouples transducin-alpha from the photoreceptor RGS and effector proteins

A novel gain-of-function mutation, R243Q, has been recently identified in the Candida elegans Gqalpha protein EGL-30. The position corresponding to Arg243 in EGL-30 is absolutely conserved among heterotrimeric G proteins. This mutation appears to be the first gain-of-function mutation in the switch III region of Galpha subunits. To investigate consequences of the R-->Q mutation we introduced the corresponding R238Q mutation into transducin-like Gtalpha* subunit. The mutant retained intact interactions with Gtbetagamma and rhodopsin but exhibited a twofold reduction in the kcat value for guanosine 5'-triphosphate (GTP) hydrolysis. The GTPase activity of R238Q was not accelerated by the RGS domain of the visual GTPase-activating protein, RGS9-1. In addition, R238Q displayed a significant impairment in the effector function. Our data and the crystal structures of transducin suggest that the major reason for the reduced intrinsic GTPase activity of R238Q and the lack of RGS9 function is the break of the conserved ionic contact between Arg238 and Glu39, which apparently stabilizes the transitional state for GTP hydrolysis. We hypothesize that the R243Q mutation in EGL-30 severs the ionic interaction of Arg243 with Glu43, leading to a defective inactivation of the mutant by the C. elegans RGS protein EAT-16.     

Rhodopsin determinants for transducin activation: a gain-of-function approach

Three cytoplasmic loops in the G protein-coupled receptor rhodopsin, C2, C3, and C4, have been implicated as key sites for binding and activation of the visual G protein transducin. Non-helical portions of the C2- and C3-loops and the cytoplasmic helix-8 from the C4 loop were targeted for a "gain-of-function" mutagenesis to identify rhodopsin residues critical for transducin activation. Mutant opsins with residues 140-148 (C2-loop), 229-244 (C3-loop), or 310-320 (C4-loop) substituted by poly-Ala sequences of equivalent lengths served as templates for mutagenesis. The template mutants with poly-Ala substitutions in the C2- and C3-loops formed the 500-nm absorbing pigments but failed to activate transducin. Reverse substitutions of the Ala residues by rhodopsin residues have been generated in each of the templates. Significant ( approximately 50%) restoration of the rhodopsin/transducin coupling was achieved with re-introduction of residues Cys140/Lys141 and Arg147/Phe148 into the C2 template. The reverse substitutions of the C3-loop residues Thr229/Val230 and Ser240/Thr242/Thr243/Gln244 produced a pigment with a full capacity for transducin activation. The C4 template mutant was unable to bind 11-cis-retinal, and the presence of Asn310/Lys311 was required for correct folding of the protein. Subsequent mutagenesis of the C4-loop revealed the role of Phe313 and Met317. On the background of Asn310/Lys311, the inclusion of Phe313 and Met317 produced a mutant pigment with the potency of transducin activation equal to that of the wild-type rhodopsin. Overall, our data support the role of the three cytoplasmic loops of rhodopsin and suggest that residues adjacent to the transmembrane helices are most important for transducin activation.     

AGS3 inhibits GDP dissociation from galpha subunits of the Gi family and rhodopsin-dependent activation of transducin

A number of recently discovered proteins that interact with the alpha subunits of G(i)-like G proteins contain homologous repeated sequences named G protein regulatory (GPR) motifs. Activator of G protein signaling 3 (AGS3), identified as an activator of the yeast pheromone pathway in the absence of the pheromone receptor, has a domain with four such repeats. To elucidate the potential mechanisms of regulation of G protein signaling by proteins containing GPR motifs, we examined the effects of the AGS3 GPR domain on the kinetics of guanine nucleotide exchange and GTP hydrolysis by G(i)alpha(1) and transducin-alpha (G(t)alpha). The AGS3 GPR domain markedly inhibited the rates of spontaneous guanosine 5'-O-(3-thiotriphosphate) (GTPgammaS) binding to G(i)alpha and rhodopsin-stimulated GTPgammaS binding to G(t)alpha. The full-length AGS3 GPR domain, AGS3-(463-650), was approximately 30-fold more potent than AGS3-(572-629), containing two AGS3 GPR motifs. The IC(50) values for the AGS3-(463-650) inhibitory effects on G(i)alpha and transducin were 0.12 and 0.15 microm, respectively. Furthermore, AGS3-(463-650) and AGS3-(572-629) effectively blocked the GDP release from G(i)alpha and rhodopsin-induced dissociation of GDP from G(t)alpha. The potencies of AGS3-(572-629) and AGS3-(463-650) to suppress the GDP dissociation rates correlated with their ability to inhibit the rates of GTPgammaS binding. Consistent with the inhibition of nucleotide exchange, the AGS3 GPR domain slowed the rate of steady-state GTP hydrolysis by G(i)alpha. The catalytic rate of G(t)alpha GTP hydrolysis, measured under single turnover conditions, remained unchanged with the addition of AGS3-(463-650). Altogether, our results suggest that proteins containing GPR motifs, in addition to their potential role as G protein-coupled receptor-independent activators of Gbetagamma signaling pathways, act as GDP dissociation inhibitors and negatively regulate the activation of a G protein by a G protein-coupled receptor.     

Physiology in XXI century: natural science and medicine

Progress of physiology is closely connected with achievements of the adjacent sciences that developed particularly intensively at the end of the XX century. The key role in strategy of physiological investigations is played by study of the nature of regulation of individual processes providing activity of the organism as a whole. By the example of study of renal function there are discussed the issue of integration of its incretory and secretory functions, elucidation of the mechanism of activity of regulatory systems with taking into account the wide diversity of types and subtypes of receptors, interaction of numerous variants of cotransporters, pumps, water and ion channels, which eventually provides the amazing efficiency of the coordinated work of several organs and systems for stabilization of physical-chemical parameters of the internal environment. Development of physiology is of importance for progress of natural science and clinical medicine, as its achievements facilitate discovery of mechanisms of physiological functions, elucidation of defect of the locus underlying dysfunction.     

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

In experiments of the 5, 12 and 25-day old rat pups and adult rats in has been shown that after administration of yellow fluorescent protein (YFP) into stomach, its partial absorption in the non-degraded state in the small intestine takes place, with subsequent transport to kidney with blood flow and accumulation in cells of the proximal nephron segment. With age of rats, intensity of the intestinal YFP absorption decrease; the YFP accumulation in the kidney is more active in rats of the younger age groups than in adult animals. No accumulation of YFP in liver was revealed. The obtained data indicate an intensive absorption of YFP in the non-hydrolyzed form in the rat pup small intestine in early postnatal ontogenesis and an important role of kidney in protein metabolism and in proteolysis of exogenous proteins.     

Vasopressin and prostaglandin <Emphasis Type="Italic">E</Emphasis><Subscript>2</Subscript> as regulators of renal function during children’s development

The main physicochemical parameters of blood serum (the osmolality and concentrations of Na⁺, K⁺, Ca²⁺, and Mg²⁺) determined in 314 children (from newborn infants to 17-year-old adolescents) and 25 adults were found to be virtually constant throughout the postnatal period, which was due to the high effectiveness of the systems responsible for their stabilization. From the first postnatal days until puberty, prostaglandin E₂ (PGE₂) and arginine vasopressin (AVP) are involved in the regulation of renal water excretion. In infants, during their first postnatal months, the excretion of solute-free water is correlated with the excretion of PGE₂. Adult-type effects of AVP on the reabsorption of solute-free water were observed in children only after 12 postnatal months. A change in the reabsorption of ions in the thick ascending limb of Henle’s loop was shown to be involved in the regulation of the volume of urine excreted. AVP and PGE₂ are also involved in the regulation of the distal segment of the nephron and collecting tubules, but their influence on the volume and composition of urine is age-dependent.     

Renal clearance of absorbed intact GFP in the frog and rat intestine

Intestine absorption of intact green fluorescent protein (GFP) and its following accumulation in the renal proximal tubule cells after its intragastric administration have been established by confocal microscopy in the rat and frog. Reabsorbed GFP was revealed in the endosomes and lysosomes of the proximal tubule cells by the methods of GFP photooxidation and immunofluorescent microscopy. The GFP intestine absorption rate and GFP accumulation in the kidney were significantly higher in the frog than in the rat. No specific fluorescence was revealed in the liver and colon cells after the GFP intragastric administration. The data obtained indicate the ability of the small intestine in the frog and rat to absorb intact proteins and an important role of the kidney in exogenous protein metabolism.     

School of the school of Leon Abgarovich Orbeli

In 2007, L. A. Orbeli would have been 125. He was distinguished by extremely wide scientific interrests; he created one of the most numerous and fruitful scientific schools. He authored prominent achievements in physiology of autonomic nervous system, evolutionary physiology, sensory physiology, renal physiology, physiology of underwater labor. Orbeli paid much attention to the scientific-organizational activity, he was academician-secretary of the Division of Biological Sciences of the USSR Academy of Sciences, President of the Society of Physiologists, Biochemists and Pharmacologists, Editor-in-Chief of the USSR Physiological Journal, etc. Principles of the scientific scholl founded by Orbeli are service to science and society, propity to scientific ethics, humanity.     

Cations in the human blood serum

The review summarizes data (more than 450 references) on concentration of human serum cations (Na+, K+, Ca2+, and Mg2+) and human blood serum osmolality depending on age, diverse physiological and pathological states, and action of physiologically active substances. There are summarized data of many thousand measurements of physicochemical parameters of the blood serum, the mean values of osmolality and cation concentrations in healthy people are calculated. The values are kept at a stable level throughtout the entire life since the moment of birth; in many cases they are maintained by regulatory systems within the normal limits and during various physiological and pathological states. There are formulated the main types of the states characterized by deviations from norm of physicochemical parameters of the internal medium fluids.