Conserved activation pathways in G-protein-coupled receptors

GPCRs (G-protein-coupled receptors) are seven-transmembrane helix proteins that transduce exogenous and endogenous signals to modulate the activity of downstream effectors inside the cell. Despite the relevance of these proteins in human physiology and pharmaceutical research, we only recently started to understand the structural basis of their activation mechanism. In the period 2008-2011, nine active-like structures of GPCRs were solved. Among them, we have determined the structure of light-activated rhodopsin with all the features of the active metarhodopsin-II, which represents so far the most native-like model of an active GPCR. This structure, together with the structures of other inactive, intermediate and active states of rhodopsin constitutes a unique structural framework on which to understand the conserved aspects of the activation mechanism of GPCRs. This mechanism can be summarized as follows: retinal isomerization triggers a series of local structural changes in the binding site that are amplified into three intramolecular activation pathways through TM (transmembrane helix) 5/TM3, TM6 and TM7/TM2. Sequence analysis strongly suggests that these pathways are conserved in other GPCRs. Differential activation of these pathways by ligands could be translated into the stabilization of different active states of the receptor with specific signalling properties.     

Ligands Stabilize Specific GPCR Conformations: But How?

Small molecules modulate the activity of G protein-coupled receptors in a number of different ways leading to distinct signaling outcomes, but the mechanisms behind this modulation remain unclear. In this issue of Structure, Zocher et?al. have used dynamic single-molecule force spectroscopy to study this question by examining global thermodynamic properties of β(2)AR in the presence of different ligands.     

Thyroid hormone differentially augments biliary sterol secretion in the rat. II. The chronic bile fistula model.

To further define thyroid hormone effects on bile acid synthesis and biliary lipid secretion, studies were done in chronic bile fistula rats. Euthyroid and methimazole-hypothyroid rats, with and without triiodothyronine (T3) injection, had total bile diversion for timed bile collections. With interrupted enterohepatic circulation, cholesterol absorption is negligible and bile acid secretion equals bile acid synthesis rate. Hypothyroid rats had diminished levels of bile acid synthesis and biliary secretion of cholesterol and phospholipid. Single dose T3 injection produced a 13-fold increase in bile cholesterol secretion and a 3-fold increase in phospholipid secretion, both initiated 12 h after T3. Bile acid synthesis increased by 50%, but the increase did not begin until 24 h after T3. Neither hypothyroidism nor T3 treatment abolished diurnal rhythms of bile acid synthesis and biliary lipid secretion. Inhibition of cholesterol synthesis with lovastatin resulted in a persistent 33% decrease in bile acid synthesis in euthyroid and hypothyroid rats, while bile cholesterol secretion only transiently decreased. Inhibition of cholesterol synthesis did not alter T3-induced bile cholesterol secretion, with a 10-fold increase seen. However, bile acid synthesis was not stimulated by T3 in the presence of lovastatin. We conclude that facilitated bile acid synthesis and biliary cholesterol secretion are early effects of T3 and may account for the hypocholesterolemia of T3. Cholesterol synthesis does not appear to be required for the T3-induced bile cholesterol secretion.     

Complementary DNA and derived amino acid sequence of the precursor of one of the three protein components of the inter-alpha-trypsin inhibitor complex

Inter-alpha-trypsin inhibitor is composed of three distinct protein components. These protein components stem from independently encoded and proteolytically processed precursor proteins. Only the structure of the protein component responsible for the inhibitory activity has been established so far. We now present the complete amino acid sequence of the precursor of the second protein component derived from cloned cDNA. The precursor molecule includes both a signal peptide and a propeptide sequence and seems to be further processed prior to the assembly of the inter-alpha-trypsin inhibitor complex.     

Light-dependent changes in cytoplasmic aspartate aminotransferase activity in rod spherules of the rat retina

Summary The cytoplasmic activity of the glutamate synthesizing enzyme aspartate aminotransferase (c-AAT) has been investigated on the ultrastructure level in rod spherules of light and dark adapted rat retinae using cytochemistry. Although most rod terminals react negatively, in a subpopulation of rods a weak activity, which is observed in light adapted retinae, is markedly increased under dark conditions. This indicates, that in addition to cones, some rods might use glutamate as their transmitter as well.     

cDNA cloning of human inter-alpha-trypsin inhibitor discloses three different proteins

Inter-alpha-trypsin inhibitor (ITI) is a serum protein of unknown function. Part of the molecule (formerly called HI30) is closely related to a tumor-derived protein acting as a growth factor for endothelial cells. We screened a human liver cDNA expression library with antibodies raised against human ITI and isolated several clones which could be divided into three groups according to their DNA sequences. The cDNA of the first group codes for a protein composed of alpha 1-microglobulin (alpha 1M) and urinary trypsin inhibitor (UTI) and is identical to that encoded by a clone originally found by screening a human liver cDNA library with oligonucleotides derived from amino-acid sequences of the two Kunitz-type domains of UTI. The proteins derived from the cDNA of the second and the third group of clones are distantly related to each other, but unrelated to the protein derived from group 1 clones. Partial amino-acid sequencing of ITI isolated from serum allowed the verification of large parts of the cDNA-derived amino-acid sequences. The results favour the view that ITI is not a single chain protein, but rather a very tight complex of several components or a mixture of such complexes.     

Population study of erythrocyte glutathione reductase activity

Summary The activity of erythrocyte glutathione reductase (GR) was determined in a group of 87 prisoners from northern Thailand (65 with normal, 22 with deficient erythrocyte G-6-PD) without and with added FAD. The amount of stimulation by FAD was inversely related to the original activity suggesting that FAD stimulation in vivo is one of the main determinants of GR activity. 4 subjects showed insufficient stimulation by FAD. The binding of FAD to GR seemed to be closer to saturation in G-6-PD deficient subjects but the maximal stimulated activity of these subjects was higher than in the group with normal G-6-PD. This suggests that the marked increase of GR activity in G-6-PD deficient erythrocytes is due to increased binding of FAD and to a larger amount of stimulable enzyme. Original GR activity was positively correlated with the socio-economic status, and subjects who had taken riboflavin in the period prior to examination had a higher mean GR activity than those without vitamin intake. GR activity was markedly raised by administration of riboflavin and in G-6-PD deficient subjects glutathione stability was improved. In comparison to central European subjects more than 50 percent of the examined population are GR deficient. This seems to be due to a low dietary supply of riboflavin in most cases. The findings in 4 subjects with insufficient stimulation by added FAD raise the question whether hereditary forms of GR deficiency exist in this population.

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Zusammenfassung In einer Gruppe von 87 Strafgefangenen in Nordthailand (65 mit normaler, 22 mit defizienter G-6-PD) wurde die Aktivität der Glutathion-Reductase (GR) mit und ohne Zusatz von FAD bestimmt. Das Ausmaß der Stimulierung des Enzyms durch FAD verhielt sich reziprok zur ausgangsaktivität. Bei 4 Versuchspersonen war die Stimulierung durch FAD insuffizient. Die Bindung von FAD an GR war bei Versuchspersonen mit G-6-PD-Mangel näher am Sättigungspunkt. Aber auch die gesamte stimulierbare Aktivität der GR war bei Versuchspersonen mit G-6-PD-Mangel größer als bei Gesunden. Die deutliche Erhöhung der GR-Aktivität bei G-6-PD-Mangel scheint zwei Ursachen zu haben: vermehrte Bindung von FAD an das Enzym und Vermehrung der Gesamtmenge an stimulierbarem Enzym. In einer weiteren Gruppe war die Ausgangsaktivität der GR vom sozio-ökonomischen Status der Versuchsperson abhängig. Personen, die vor der Untersuchung Riboflavin-haltige Medikamente eingenommen hatten, hatten höhere Aktivitäten. Die GR-Aktivität wurde durch Einnahme von Riboflavin unter Kontrolle stark erhöht, und bei Versuchspersonen mit G-6-PD-Mangel wurde die Glutathion-Stabilität der Erythrocyten verbessert. Im Vergleich zu Mitteleuropäern sind mehr als die Hälfte der thailändischen Versuchspersonen als GR defizient einzustufen. Dies ist wahrscheinlich auf eine geringere Zufuhr an Riboflavin in der Nahrung zurückzuführen. Die Befunde bei 4 Versuchspersonen mit insuffizienter Stimulierung der GR durch FAD könnte durch einen erblichen Mangel an GR verursacht sein.

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