Abstract
INTRODUCTION: Spinal and Bulbar Muscular Atrophy (SBMA) is a slowly progressive, X-linked, and sex-limited degenerative disorder affecting lower motor neurons and skeletal muscle which lacks disease-modifying therapies. This disease is caused by a CAG/polyglutamine (polyQ) tract expansion in the androgen receptor (AR) gene, and its pathogenesis is driven by toxic gain-of-function mechanisms. Affected men develop proximal limb and bulbar muscle weakness along with signs of partial androgen insensitivity. AREAS COVERED: Toxicity of the polyQ AR is mediated by protein misfolding and nuclear translocation that follow ligand binding, resulting in the disruption of downstream homeostatic mechanisms. This review highlights what is known about disease pathogenesis and how this has been leveraged to test potential therapeutic approaches. The focus is on strategies that alleviate polyQ AR toxicity in SBMA, including those that alter AR function, diminish the expression of the encoding gene, or promote clearance of the misfolded, mutant protein. EXPERT OPINION: We discuss emerging strategies to mitigate polyQ AR toxicity, including gene editing, RNA targeted therapies, and efforts to harness proteostatic mechanisms. These promising approaches are discussed in the context of challenges for drug discovery efforts that are faced when attempting to treat a rare and slowly progressive neurodegenerative disorder.