Motor neuron disease. SMN2 splicing modifiers improve motor function and longevity in mice with spinal muscular atrophy.

Journal: Science (New York, N.Y.)
Published:
Abstract

Spinal muscular atrophy (SMA) is a genetic disease caused by mutation or deletion of the survival of motor neuron 1 (SMN1) gene. A paralogous gene in humans, SMN2, produces low, insufficient levels of functional SMN protein due to alternative splicing that truncates the transcript. The decreased levels of SMN protein lead to progressive neuromuscular degeneration and high rates of mortality. Through chemical screening and optimization, we identified orally available small molecules that shift the balance of SMN2 splicing toward the production of full-length SMN2 messenger RNA with high selectivity. Administration of these compounds to Δ7 mice, a model of severe SMA, led to an increase in SMN protein levels, improvement of motor function, and protection of the neuromuscular circuit. These compounds also extended the life span of the mice. Selective SMN2 splicing modifiers may have therapeutic potential for patients with SMA.

Authors
Nikolai Naryshkin, Marla Weetall, Amal Dakka, Jana Narasimhan, Xin Zhao, Zhihua Feng, Karen K Ling, Gary Karp, Hongyan Qi, Matthew Woll, Guangming Chen, Nanjing Zhang, Vijayalakshmi Gabbeta, Priya Vazirani, Anuradha Bhattacharyya, Bansri Furia, Nicole Risher, Josephine Sheedy, Ronald Kong, Jiyuan Ma, Anthony Turpoff, Chang-sun Lee, Xiaoyan Zhang, Young-choon Moon, Panayiota Trifillis, Ellen Welch, Joseph Colacino, John Babiak, Neil Almstead, Stuart Peltz, Loren Eng, Karen Chen, Jesse Mull, Maureen Lynes, Lee Rubin, Paulo Fontoura, Luca Santarelli, Daniel Haehnke, Kathleen Mccarthy, Roland Schmucki, Martin Ebeling, Manaswini Sivaramakrishnan, Chien-ping Ko, Sergey Paushkin, Hasane Ratni, Irene Gerlach, Anirvan Ghosh, Friedrich Metzger

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