Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.25.1 (proteasome)
 28,817 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The CYP1A1 gene encodes microsomal cytochrome P4501A1 that catalyzes the metabolism of many xenobiotics, including the oxygenation of polycyclic aromatic hydrocarbons (PAH). Induction of CYP1A1 enhances the metabolism of PAHs, and therefore, represents an adaptive response to chemical exposure in mammalian cells. Mechanistic studies reveal an AhR/DRE paradigm for the induction, which involves activation of the aryl hydrocarbon receptor (AhR) by an agonist, dimerization of AhR with the Ah recceptor nuclear translocator (Arnt), followed by binding of the AhR/Arnt heterodimer to the dioxin-responsive enhancer (DRE) and transcription of the gene. The AhR mediated transcription is tightly regulated through, at least, two mechanisms: (a) the cytoplasmic AhR interacts with hsp90 and an immunophilin chaperone AIP for proper folding and receptivity, and (b) the agonist-activated, nuclear AhR is degraded through the ubiquitin-26S proteasome mediated protein turnover, such that the transcription by AhR is controlled at a physiologically adequate level. In addition to CYP1A1 induction, AhR mediates a broad range of biological responses to CYP1A1 inducers, typified by the environmental contaminant dioxin, via modulating gene expression. Thus, mechanistic studies of CYP1A1 induction have provided insights into P450 induction, PAH carcinogenesis, dioxin action, AhR function, and receptor-mediated mammalian gene expression.
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PMID:Induction of CYP1A1. The AhR/DRE paradigm: transcription, receptor regulation, and expanding biological roles. 1146 23

Aurora kinases have evolved as a new family of mitotic centrosome- and microtubule-associated kinases that regulate the structure and function of centrosomes and spindle. One of its members, Aurora-A, is a potential oncogene. Overexpression of Aurora-A is also implicated in defective centrosome duplication and segregation, leading to aneuploidy and tumorigenesis in various cancer cell types. However, the regulatory pathways for mammalian Aurora-A are not well understood. Exploiting the lethal phenotype associated with the overexpression of Aurora-A in yeast, we performed a dosage suppressor screen in yeast and report here the identification of a novel negative regulator of Aurora-A, named AIP (Aurora-A kinase Interacting Protein). AIP is a ubiquitously expressed nuclear protein that interacts specifically with human Aurora-A in vivo. Ectopic expression of AIP with Aurora-A in NIH 3T3 and COS cells results in the down-regulation of ectopically expressed Aurora-A protein levels, and this down-regulation is demonstrated to be the result of destabilization of Aurora-A through a proteasome-dependent protein degradation pathway. A noninteracting deletion mutant of AIP does not down-regulate Aurora-A protein, suggesting that the interaction is important for the protein degradation. AIP could therefore be a potential useful target gene for anti-tumor drugs.
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PMID:Aurora-A kinase interacting protein (AIP), a novel negative regulator of human Aurora-A kinase. 1224 51

Widely regarded as a specific and potent inhibitor of CaM kinases, especially CaMKII, KN93 has long been used to investigate the possible roles of CaMKII in a wide range of biological functions and systems, such as cultured cells, primary neurons, and brain slices. However, here we present evidence showing that KN93 and its structural analog KN92, which does not inhibit CaMKII, exert an unexpected, reversible, and specific reduction of currents of L-type calcium channels (CaV1.3 and CaV1.2), as compared to N-type calcium channels (CaV2.2). This effect is dependent not only on incubation time, but also on the dose of KN93 or KN92. Moreover, the effect appears to be independent of endocytosis, exocytosis, and proteasome activity. Washout and return to normal media rescues the L channel currents. Conversely, the structurally unrelated CaMKII inhibitor, AIP, fails to mimic the KN93/KN92 effect on L channel currents. Together, our data suggest that, in addition to inhibiting CaMKII, KN93 also affects CaV1.3 and CaV1.2 calcium channels in a CaMKII-independent manner.
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PMID:CaMKII-independent effects of KN93 and its inactive analog KN92: reversible inhibition of L-type calcium channels. 1673 Jun 62

Mitotic Aurora-A is an oncogene, which undergoes a cell-cycle-dependent regulation of both its synthesis and degradation. Overexpression of Aurora-A leads to aneuploidy and cellular transformation in cultured cells. It has been shown that the cell-cycle-dependent turnover of Aurora-A is mediated by Cdh1 (CDC20 homologue 1) through the anaphase-promoting complex/cyclosome (APC/C)-ubiquitin-proteasome pathway. We have described previously the identification of an Aurora-A kinase interacting protein, AURKAIP1 (formerly described as AIP), which is also involved in the destabilization of Aurora-A through the proteasome-dependent degradation pathway. In an attempt to investigate the mechanism of AURKAIP1-mediated Aurora-A degradation, we report here that AURKAIP1 targets Aurora-A for degradation in a proteasome-dependent but Ub (ubiquitin)-independent manner. AURKAIP1 inhibits polyubiquitination of Aurora-A. A non-interactive AURKAIP1 mutant that cannot destabilize Aurora-A restores ubiquitination of Aurora-A. An A-box mutant of Aurora-A, which cannot be targeted for proteasome-dependent degradation by Cdh1, can still be degraded by AURKAIP1. Inhibition of cellular ubiquitination either by expression of dominant negative Ub mutants or by studies in ts-20 (temperature sensitive-20) CHO (Chinese-hamster ovary) cell line lacking the E1 Ub activating enzyme at the restrictive temperature, cannot abolish AURKAIP1-mediated degradation of Aurora-A. AURKAIP1 specifically decreases the stability of Aurora-A in ts-20 CHO cells at the restrictive temperature, while cyclinB1 and p21 are not affected. This demonstrates that there exists an Ub-independent alternative pathway for Aurora-A degradation and AURKAIP1 promotes Aurora-A degradation through this Ub-independent yet proteasome-dependent pathway.
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PMID:Aurora-A kinase interacting protein 1 (AURKAIP1) promotes Aurora-A degradation through an alternative ubiquitin-independent pathway. 1712 67