Sequence similarity between aB-crystallin and small heat shock proteins (HSPs) has prompted us to investigate whether aB-crystallin expression is induced by heat shock. Indeed, accumulation of aB-crystallin was detected immunologically in NIH 3T3 cells after incubation at elevated temperatures and after addition of Cd2+ or sodium arsenite to these cells. Two-dimensional gel electrophoresis revealed identity between aB-crystallin from eye lenses and from heattreated fibroblasts. The promoter of the aB-crystallin gene was fused to the bacterial chloramphenicol acetyltransferase gene and was shown to confer heat inducibility on this reporter gene in transient transfection assays. A perfect heat shock element within the promoter region is likely to mediate this response. Small HSPs and aB-crystallin were shown to share the following two physical properties: (i) they form supramolecular structures with sedimentation values around 17 S and (ii) they are associated with the nucleus at high temperatures and are localized in the cytoplasm under normal conditions. We conclude that aB-crystallin has to be considered a member of the class of small HSPs.Heat shock and numerous other stress conditions lead to the rapid induction of several genes whose protein products are collectively called heat shock proteins (HSPs) (for recent reviews see refs. 1-3). The HSPs have been grouped into several classes on the basis of their size and sequence homology. Members of the class of small HSPs have molecular masses in the range 15-40 kDa. All analyzed organisms possess at least one small HSP gene. In mammals, birds, and yeast this class of HSPs is represented by a single member (4-9), whereas in Drosophila melanogaster and plants there appear to be multiple small HSPs (10, 11). Small HSPs aggregate to form characteristic ring-shaped structures called heat shock granules (4,(12)(13)(14)(15). These structures resemble prosomes or proteosomes but are distinct entities (16). Their biochemical function is unknown. Under heat shock conditions the small HSPs associate with the nucleus. Following a heat shock they slowly relocalize to the cytoplasm (17)(18)(19). It is still a matter of debate whether the small HSPs are actually transported into the nucleus at high temperatures or whether they are entrapped by the intermediate filaments, which, under heat shock conditions, collapse onto the nucleus (for a review see ref.3). The amino acid sequences of the small HSPs from different organisms are only poorly conserved. However, striking sequence similarities exist between vertebrate a-crystallins and small HSPs (5, 20-23). a-Crystallins were originally found in eye lenses, where they are among the most abundant proteins (24, 25). There exist two forms of a-crystallins, aA and aB, which are closely related (26). Considerable amounts of aB-crystallin, but not aAcrystallin, are present in many nonlenticular tissues (27-31). Moreover, aB-crystallin gene expression has been observed in various diseased cells, including astrocytes of patients s...
During nervous system development, axons that grow out simultaneously in the same extracellular environment are often sorted to different target destinations. As there is only a restricted set of guidance cues known,regulatory mechanisms are likely to play a crucial role in controlling cell migration and axonal pathfinding. Heparan sulfate proteoglycans (HSPGs) carry long chains of differentially modified sugar residues that have been proposed to encode specific information for nervous system development. Here, we show that the cell surface proteoglycan syndecan SDN-1 functions autonomously in neurons to control the neural migration and guidance choices of outgrowing axons. Epistasis analysis suggests that heparan sulfate (HS) attached to SDN-1 can regulate guidance signaling by the Slit/Robo pathway. Furthermore, SDN-1 acts in parallel with other HSPG core proteins whose HS side chains are modified by the C5-epimerase HSE-5, and/or the 2O-sulfotransferase HST-2, depending on the cellular context. Taken together, our experiments show that distinct HS modification patterns on SDN-1 are involved in regulating axon guidance and cell migration in C. elegans.
The PDZ target motifs located in the C-terminal end of many receptors and ion channels mediate protein-protein interactions by binding to specific PDZ-containing proteins. These interactions are involved in the localization of surface proteins on specialized membrane domains of neuronal and epithelial cells. However, the molecular mechanism responsible for this PDZ protein-dependent polarized localization is still unclear. This study first demonstrated that the epithelial γ-aminobutyric acid (GABA) transporter (BGT-1) contains a PDZ target motif that mediates the interaction with the PDZ protein LIN-7 in Madin-Darby canine kidney (MDCK) cells, and then investigated the role of this interaction in the basolateral localization of the transporter. It was found that although the transporters from which the PDZ target motif was deleted were still targeted to the basolateral surface, they were not retained but internalized in an endosomal recycling compartment. Furthermore, an interfering BGT peptide determined the intracellular relocation of the native transporter. These data indicate that interactions with PDZ proteins determine the polarized surface localization of target proteins by means of retention and not targeting mechanisms. PDZ proteins may, therefore, act as a sort of membrane protein sorting machinery which, by recognizing retention signals (the PDZ target sequences), prevents protein internalization.
Abstract. Stress induces the synthesis of several large and small heat shock proteins (hsp's). Two related small hap's, hsp25 and c~B crystallin exist in mice. o~B crystallin is an abundant protein in several tissues even in the absence of stress. Particularly high amounts accumulate in the eye lens. Here we show that hsp25 is likewise constitutively expressed in many normal adult tissues. In the absence of stress the protein is most abundant in the eye lens, heart, stomach, colon, lung, and bladder. The stress-independent expression pattern of the two small hsp's is distinct. In several tissues the amount of hsp25 exceeds that accumulating in NIH 3T3 fibroblasts in response to heat stress, hsp25, like orB crystallin, exists in a highly aggregated form in the eye lens. The expression of hsp25 and o~B crystallin in normal tissues suggests an essential, but distinct function of the two related proreins under standard physiological conditions.
Human cancer is caused by the interplay of mutations in oncogenes and tumor suppressor genes and inherited variations in cancer susceptibility genes. While many of the tumor initiating mutations are well characterized, the effect of genetic background variation on disease onset and progression is less understood. We have used C. elegans genetics to identify genetic modifiers of the oncogenic RAS/MAPK signaling pathway. Quantitative trait locus analysis of two highly diverged C. elegans isolates combined with allele swapping experiments identified the polymorphic monoamine oxidase A (MAOA) gene amx-2 as a negative regulator of RAS/MAPK signaling. We further show that the serotonin metabolite 5-hydroxyindoleacetic acid (5-HIAA), which is a product of MAOA catalysis, systemically inhibits RAS/MAPK signaling in different organs of C. elegans. Thus, MAOA activity sets a global threshold for MAPK activation by controlling 5-HIAA levels. To our knowledge, 5-HIAA is the first endogenous small molecule that acts as a systemic inhibitor of RAS/MAPK signaling.
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