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Evidence for a repressive function of the long polyglutamine tract in the human androgen receptor: possible pathogenetic relevance for the (CAG)n-expanded neuronopathies.

Author(s): P Kazemi-Esfarjani, M A Trifiro, L. Pinsky

Publication date: 1995-03-31

Keywords: Base Sequence, Cell Line, DNA Primers, Electroporation, Glutamine, genetics, physiology, Humans, Molecular Sequence Data, Nervous System Diseases, Polyribonucleotides, Receptors, Androgen, Transcriptional Activation

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Abstract

We have reported that polyglutamine (polyGln)-expanded human androgen receptors (hAR) have reduced transactivational competence in transfected cells. We presumed that maximal hAR transactivation requires a normal-size polyGln tract. Here we report, however, that hAR transactivity and polyGln-tract length are related inversely: n = 0 > 12 > 20 > 40 > 50. Thus, a normal-size polyGln tract represses the transactivational competence of a polyGln-free hAR, and polyGln expansion increases that negative effect. This observation has pathogenetic implications for X-linked spinobular muscular atrophy (Kennedy syndrome), and possibly for the autosomal dominant central neuronopathies associated with (CAG)n expansion in the translated portion of four different genes.