Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.27.5 (RNase)
 17,967 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A consensus AP-1 site in the promoter of the rat neurotensin/neuromedin N (NT/N) gene is a critical regulatory element required for synergistic regulation by combinations of nerve growth factor (NGF), lithium, glucocorticoids, and adenylate cyclase activators. A rapid RNase protection assay was developed to examine the kinetics of NT/N gene activation and to determine whether activation requires newly synthesized proteins. Either NGF or lithium in combination with dexamethasone and forskolin transiently activated NT/N gene expression, but with distinct kinetics. Protein synthesis was not required for activation when NGF was used as the permissive inducer, but was required for the rapid down-regulation of the response. In contrast, lithium responses were attenuated in the absence of protein synthesis, consistent with a requirement for newly synthesized AP-1 complexes in activation. In all cases, increases in NT/N gene expression closely paralleled increases in AP-1 binding activity. Lithium in combination with other inducers caused delayed increases in both AP-1 binding activity and c-jun, c-fos and fra-1 gene expression. These results indicate that NGF and lithium exert their effects on NT/N gene expression through distinct pathways. The lithium pathway is active in neuronally-differentiated PC12 cells and could potentially be involved in the regulation of NT/N gene expression in the nervous system.
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PMID:Synergistic induction of neurotensin gene transcription in PC12 cells parallels changes in AP-1 activity. 789 6

Hal2p is an enzyme that converts pAp (adenosine 3',5' bisphosphate), a product of sulfate assimilation, into 5' AMP and Pi. Overexpression of Hal2p confers lithium resistance in yeast, and its activity is inhibited by submillimolar amounts of Li+ in vitro. Here we report that pAp accumulation in HAL2 mutants inhibits the 5'-->3' exoribonucleases Xrn1p and Rat1p. Li+ treatment of a wild-type yeast strain also inhibits the exonucleases, as a result of pAp accumulation due to inhibition of Hal2p; 5' processing of the 5.8S rRNA and snoRNAs, degradation of pre-rRNA spacer fragments and mRNA turnover are inhibited. Lithium also inhibits the activity of RNase MRP by a mechanism which is not mediated by pAp. A mutation in the RNase MRP RNA confers Li+ hypersensitivity and is synthetically lethal with mutations in either HAL2 or XRN1. We propose that Li+ toxicity in yeast is due to synthetic lethality evoked between Xrn1p and RNase MRP. Similar mechanisms may contribute to the effects of Li+ on development and in human neurobiology.
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PMID:Lithium toxicity in yeast is due to the inhibition of RNA processing enzymes. 938 95

Previous studies indicate that RNA may be required for proteinase-resistant prion protein (PrP) amplification and for infectious prion formation in vitro, suggesting that RNA molecules may function as cellular cofactors for abnormal PrP (PrPSc) formation and become part of the structure of the infectious agent. To address this question, we used chemicals that can cleave phosphodiester bonds of RNA and assessed their effects on the infectious agent. Lithium aluminum hydride, a reducing agent that can induce reductive cleavage of oxidized molecules such as carbonyls, carboxyl acids, esters, and phosphodiester bonds, did not affect cellular PrP degradation; however, it destroyed PrPSc, extended the scrapie incubation period, and markedly reduced total RNA concentrations. These results prompted us to investigate whether RNA molecules are cofactors for PrPSc propagation. RNase A treatment of partially purified PrP and of 263K scrapie brain homogenates was sufficient to increase the sensitivity of PrPSc to proteinase K degradation. This is the first evidence that suggests that RNA molecules are a component of PrPSc. Treatment with RNase A alone and PrP degradation by RNase A plus proteinase K in vitro, however, did not result in loss of scrapie infectivity compared with the effects of lithium aluminum hydride. Together, these data suggest that RNA molecules may be important for maintaining the structure of PrPSc and that oxidized molecules can be important in scrapie agent replication and prion infectivity.
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PMID:Reduction of prion infectivity and levels of scrapie prion protein by lithium aluminum hydride: implications for RNA in prion diseases. 1960 66