Bap1/SMN axis in Dpp4+ skeletal muscle mesenchymal cells regulates the neuromuscular system
Ji-Hoon Kim, Jong-Seol Kang, Kyusang Yoo, Jinguk Jeong, Inkuk Park, Jong Ho Park, Joonwoo Rhee, Shin Jeon, Young-Woo Jo, Sang-Hyeon Hann, Minji Seo, Seungtae Moon, Soo-Jong Um, Rho Hyun Seong, Young-Yun Kong
Ji-Hoon Kim, Jong-Seol Kang, Kyusang Yoo, Jinguk Jeong, Inkuk Park, Jong Ho Park, Joonwoo Rhee, Shin Jeon, Young-Woo Jo, Sang-Hyeon Hann, Minji Seo, Seungtae Moon, Soo-Jong Um, Rho Hyun Seong, Young-Yun Kong
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Research Article Cell biology Muscle biology

Bap1/SMN axis in Dpp4+ skeletal muscle mesenchymal cells regulates the neuromuscular system

Abstract

The survival of motor neuron (SMN) protein is a major component of the pre-mRNA splicing machinery and is required for RNA metabolism. Although SMN has been considered a fundamental gene for the central nervous system, due to its relationship with neuromuscular diseases, such as spinal muscular atrophy, recent studies have also revealed the requirement of SMN in non-neuronal cells in the peripheral regions. Here, we report that the fibro-adipogenic progenitor subpopulation expressing Dpp4 (Dpp4+ FAPs) is required for the neuromuscular system. Furthermore, we also reveal that BRCA1-associated protein-1 (Bap1) is crucial for the stabilization of SMN in FAPs by preventing its ubiquitination-dependent degradation. Inactivation of Bap1 in FAPs decreased SMN levels and accompanied degeneration of the neuromuscular junction, leading to loss of motor neurons and muscle atrophy. Overexpression of the ubiquitination-resistant SMN variant, SMNK186R, in Bap1-null FAPs completely prevented neuromuscular degeneration. In addition, transplantation of Dpp4+ FAPs, but not Dpp4– FAPs, completely rescued neuromuscular defects. Our data reveal the crucial role of Bap1-mediated SMN stabilization in Dpp4+ FAPs for the neuromuscular system and provide the possibility of cell-based therapeutics to treat neuromuscular diseases.

Authors

Ji-Hoon Kim, Jong-Seol Kang, Kyusang Yoo, Jinguk Jeong, Inkuk Park, Jong Ho Park, Joonwoo Rhee, Shin Jeon, Young-Woo Jo, Sang-Hyeon Hann, Minji Seo, Seungtae Moon, Soo-Jong Um, Rho Hyun Seong, Young-Yun Kong

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Figure 2

Impaired motor functions and NMJs in Bap1ΔMPC mice.

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Impaired motor functions and NMJs in Bap1ΔMPC mice. (A) The score of neg...
(A) The score of negative geotaxis test (38). (B and C) hind limb clasping time (85) (B) and immobility time (89) (C) during tail suspension test of 3-week-old Bap1WT and Bap1ΔMPC mice. n = 5 animals per group; mean ± SEM; Mann-Whitney U test; *P < 0.05, ***P < 0.001. (D) Representative captures of Bap1WT and Bap1ΔMPC mice during tail suspension test. Arrow indicates the hind limb clasping. (E and F) Representative graph data (E) and quantifications of amplitude and latency (F) of CMAP from 1-week-old GA muscles of Bap1WT and Bap1ΔMPC mice. (G) Confocal images for BTX and neurofilament immunofluorescence in TA muscles. White arrowheads and arrows indicate swelling of neurofilament and denervation, respectively. (H) Relative mRNA expressions of each AChR subunit in TA muscles. (F and H) n = 4 animals per group; data are mean ± SEM; Mann-Whitney U test; *P < 0.05, **P < 0.01, ***P < 0.001. Scale bars: 2 cm (D) and 20 μm (G).