Disrupting SUMOylation enhances transcriptional function and ameliorates polyglutamine androgen receptor–mediated disease
Jason P. Chua, … , Jorge A. Iñiguez-Lluhí, Andrew P. Lieberman
Jason P. Chua, … , Jorge A. Iñiguez-Lluhí, Andrew P. Lieberman
Published January 20, 2015
Citation Information: J Clin Invest. 2015;125(2):831-845. https://doi.org/10.1172/JCI73214.
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Research Article

Disrupting SUMOylation enhances transcriptional function and ameliorates polyglutamine androgen receptor–mediated disease

Abstract

Expansion of the polyglutamine (polyQ) tract within the androgen receptor (AR) causes neuromuscular degeneration in individuals with spinobulbar muscular atrophy (SBMA). PolyQ AR has diminished transcriptional function and exhibits ligand-dependent proteotoxicity, features that have both been implicated in SBMA; however, the extent to which altered AR transcriptional function contributes to pathogenesis remains controversial. Here, we sought to dissociate effects of diminished AR function from polyQ-mediated proteotoxicity by enhancing the transcriptional activity of polyQ AR. To accomplish this, we bypassed the inhibitory effect of AR SUMOylation (where SUMO indicates small ubiquitin-like modifier) by mutating conserved lysines in the polyQ AR that are sites of SUMOylation. We determined that replacement of these residues by arginine enhances polyQ AR activity as a hormone-dependent transcriptional regulator. In a murine model, disruption of polyQ AR SUMOylation rescued exercise endurance and type I muscle fiber atrophy; it also prolonged survival. These changes occurred without overt alterations in polyQ AR expression or aggregation, revealing the favorable trophic support exerted by the ligand-activated receptor. Our findings demonstrate beneficial effects of enhancing the transcriptional function of the ligand-activated polyQ AR and indicate that the SUMOylation pathway may be a potential target for therapeutic intervention in SBMA.

Authors

Jason P. Chua, Satya L. Reddy, Zhigang Yu, Elisa Giorgetti, Heather L. Montie, Sarmistha Mukherjee, Jake Higgins, Richard C. McEachin, Diane M. Robins, Diane E. Merry, Jorge A. Iñiguez-Lluhí, Andrew P. Lieberman

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Figure 5

Characterization of the HPG axis in AR113Q-KRKR mice.

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Characterization of the HPG axis in AR113Q-KRKR mice. (A) Testes and sem...
(A) Testes and seminal vesicles were collected at 13 to 15 weeks and analyzed by weight (left and middle panels). Epididymes were collected and sperm count determined (right panel). Data are shown as mean ± SEM (n = 6 per group). *P < 0.05; **P < 0.01; ***P < 0.001; ****P < 0.0001 by ANOVA. (B) Serum samples (n = 6 per group) were collected at 13 to 15 weeks and analyzed for levels of testosterone (T) and LH. Data are shown as mean ± SEM. (C) Total RNA was extracted from testes from WT, AR113Q, and AR113Q-KRKR mice (n = 3 per group) at 13 to 15 weeks and analyzed for Hsd3b1 expression by qPCR. Data are shown as mean ± SEM. ****P < 0.0001 by ANOVA. (D) Testis weight and epididymal sperm count from males at 7 to 9 months. Data are shown as mean ± SEM. *P < 0.05; ***P < 0.001; ****P < 0.0001 by ANOVA.