Adult human brain expresses six isoforms of tau protein as a result of alternative splicing. Alternative splicing of exon 10 (E10) leads to tau isoforms containing either three (3R) or four (4R) microtubule-binding repeats. Imbalance in the 3R-tau/4R-tau ratio causes neurofibrillary degeneration and dementia. Here, we demonstrated that the dual-specificity tyrosine phosphorylation-regulated kinase 1A (Dyrk1A) interacted with the splicing factor 9G8 and phosphorylated it at several serine residues. Dyrk1A itself promoted tau E10 inclusion, whereas 9G8 inhibited E10 inclusion, and these actions were variable depending on the cell types. Coexpression of Dyrk1A and 9G8 led to their translocation from the nucleus to the cytoplasm and suppressed their ability to regulate tau exon 10 splicing. This action is probably due to their interaction-induced translocation from the nucleus, where the regulation of tau E10 splicing occurs, to the cytoplasm. These findings provide novel insights into the molecular mechanism of the regulation of tau E10 splicing and further our understanding of the neurodegeneration caused by dysregulation of tau E10 splicing.
The catalytic activities of recombinant cytochrome P45Os expressed in E. coli have been impeded by the absence of endogenous P450 reductase. To solve this problem, we coexpressed P450 reductase with CYP3A4. Membranes from this strain contained 215 pmol P45O/mg protein and a reductase activity of 1315 nmol cytochrome c reducetimin per mg. We detected 6fShydroxylation of testosterone and oxidation of nifedipine in vivo with turnover numbers of 15.2 and 17.3 min-', respectively. These values compare favourably with those obtained using an optimally reconstituted system. Our data demonstrate that a catalytically efficient human P450 system can be generated in E. coli.
In order to investigate the relative levels of expression of human cytochrome P-450 (P-450) CYP2A genes and determine how this relates to polymorphism in coumarin hydroxylase activity, cDNA clones for members of the CYP2A gene family were isolated. These clones were CYP2A6, CYP2A7 and an alternatively spliced version of CYP2A7 (CYP2A7AS). The latter clone was missing exon 2, but contained a 10 bp segment of intron 1. Translation of CYP2A7AS resulted in an in-frame deletion of 51 amino acids. The expression of these cDNAs in COS-7 cells showed that both CYP2A6 and CYP2A7 generated a protein of molecular mass 49 kDa, whereas the protein product of CYP2A7AS was about 44 kDa. Only the CYP2A6 had coumarin hydroxylase activity. The relative level of CYP2A7 and CYP2A7AS mRNA was investigated by reverse transcription followed by PCR (RT-PCR) using human liver RNAs and an RNA sample from a human skin fibroblast cell line. In one of five liver RNAs studied, the aberrantly spliced CYP2A7 mRNA was 3-4-fold more abundant than the normal mRNA. The other samples contained very low levels of this mRNA species. Interestingly, CYP2A7AS mRNA was the major CYP2A7 mRNA detected in the fibroblast cell line. In this case only a protein band of 44 kDa was observed by Western-blot analysis. The relative of mRNA encoding CYP2A6 and CYP2A7 was established in seven human liver samples by RT-PCR and found to range between 1:0.5 and 1:3. These data strength the previous findings that alternative splicing is an important factor in determining the levels of many human P-450s and that this may be subject to tissue-specific effects. Whether in this case the protein product has some function remains to be determined.
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