Transcription profiling of mouse (6 wk) inducibly expresssing human alpha1-antitrypsin in the liver
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ABSTRACT: In the classical form of α1antitrypsin deficiency a mutant protein accumulates in a polymerized form in the ER of liver cells causing liver damage and carcinogenesis by a gain-of-toxic function mechanism. Recent studies have indicated that the accumulation of mutant α1antitrypsin Z in the ER specifically activates the autophagic response but not the unfolded protein response and that autophagy plays a critical role in disposal of insoluble α1antitrypsin Z. In this study, we used genomic analysis of the liver in a novel transgenic mouse model with inducible expression to screen for changes in gene expression that would potentially define how the liver responds to accumulation of this mutant protein. Experiment Overall Design: Liver RNA from juvenile (6 wk old) male mice inducibly expressing human alpha1-antitrypsin wild type (M) or mutant (Z) form exclusively in the liver was subjected to genomic analysis. Groups: mutant AAT (Z), wild type AAT (M), expressing (4), non-expressing (1); 3 biological replicates/each group. Experiment Overall Design: Groups: mutant AAT (Z), wild type AAT (M), expressing (4), non-expressing (1); 3 biological replicates/each group, all males, 6 weeks of age
ORGANISM(S): Mus musculus
SUBMITTER: Tunda Hidvegi
PROVIDER: E-GEOD-8600 | biostudies-arrayexpress |
REPOSITORIES: biostudies-arrayexpress
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