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Butyrate endows extraocular muscle stem cell-like transcriptomic patterns that ameliorate satellite cell depletion and denervation to slow ALS progres…
Butyrate endows extraocular muscle stem cell-like transcriptomic patterns that ameliorate satellite cell depletion and denervation to slow ALS progres…
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20 minutes
Released:
Feb 13, 2023
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Podcast episode
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Link to bioRxiv paper:
http://biorxiv.org/cgi/content/short/2023.02.12.528218v1?rss=1
Authors: Li, A., Yi, J., Li, X., Dong, L., Ostrow, L. W., Ma, J., Zhou, J.
Abstract:
Amyotrophic lateral sclerosis (ALS) is a fatal neuromuscular disease that affects all voluntary muscles in the body, leading to paralysis and respiratory failure, while the extraocular muscles (EOMs) are largely spared even at the end-stage of ALS. Through whole-mount muscle imaging, we detected severe denervation along with depletion of Pax7+ satellite cells (SCs) peri-neuromuscular junction (NMJ) in hindlimb and diaphragm muscles of end-stage SOD1G93A mice (a familial ALS mouse model), but not in EOMs. Upon isolating SCs from different muscles using fluorescence activated cell sorting (FACS), the FACS profiles of hindlimb and diaphragm SCs of G93A mice exhibited activation and depletion phenotypes but not in wildtype controls. Importantly, both wildtype and G93A EOM SCs exhibited spontaneous activation behavior without significant differences in abundance. Examination of Pax7+ and Ki67+ cell ratios and RNA-Seq of SCs cultured in growth and differentiation medium revealed that EOM SCs maintained renewability and stemness better than diaphragm and hindlimb counterparts, especially in differentiation-favoring environments. Comparative functional annotation analyses indicate enrichment of axon guidance molecules, such as Cxcl12, in cultured EOM SCs. In neuromuscular coculture experiments, overexpressing Cxcl12 in G93A hindlimb SC-derived myotubes enhanced motor neuron axon extension and improved innervation, partially replicating the multi-innervation property of EOM SC-derived myotubes. The unique SC homeostasis regulation and the production of axon guidance molecules including Cxcl12 may explain the ALS resistant nature of EOMs. Intriguingly, feeding G93A mice with sodium butyrate extended the life span of G93A mice, alleviated NMJ denervation and SCs depletion. Butyrate treatment promoted renewability and stemness of cultured G93A hindlimb and diaphragm SCs, as well as Cxcl12 expression. Thus, butyrate-induced EOM SC-like transcriptomic patterns may contribute to its beneficiary effects observed in G93A mice.
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http://biorxiv.org/cgi/content/short/2023.02.12.528218v1?rss=1
Authors: Li, A., Yi, J., Li, X., Dong, L., Ostrow, L. W., Ma, J., Zhou, J.
Abstract:
Amyotrophic lateral sclerosis (ALS) is a fatal neuromuscular disease that affects all voluntary muscles in the body, leading to paralysis and respiratory failure, while the extraocular muscles (EOMs) are largely spared even at the end-stage of ALS. Through whole-mount muscle imaging, we detected severe denervation along with depletion of Pax7+ satellite cells (SCs) peri-neuromuscular junction (NMJ) in hindlimb and diaphragm muscles of end-stage SOD1G93A mice (a familial ALS mouse model), but not in EOMs. Upon isolating SCs from different muscles using fluorescence activated cell sorting (FACS), the FACS profiles of hindlimb and diaphragm SCs of G93A mice exhibited activation and depletion phenotypes but not in wildtype controls. Importantly, both wildtype and G93A EOM SCs exhibited spontaneous activation behavior without significant differences in abundance. Examination of Pax7+ and Ki67+ cell ratios and RNA-Seq of SCs cultured in growth and differentiation medium revealed that EOM SCs maintained renewability and stemness better than diaphragm and hindlimb counterparts, especially in differentiation-favoring environments. Comparative functional annotation analyses indicate enrichment of axon guidance molecules, such as Cxcl12, in cultured EOM SCs. In neuromuscular coculture experiments, overexpressing Cxcl12 in G93A hindlimb SC-derived myotubes enhanced motor neuron axon extension and improved innervation, partially replicating the multi-innervation property of EOM SC-derived myotubes. The unique SC homeostasis regulation and the production of axon guidance molecules including Cxcl12 may explain the ALS resistant nature of EOMs. Intriguingly, feeding G93A mice with sodium butyrate extended the life span of G93A mice, alleviated NMJ denervation and SCs depletion. Butyrate treatment promoted renewability and stemness of cultured G93A hindlimb and diaphragm SCs, as well as Cxcl12 expression. Thus, butyrate-induced EOM SC-like transcriptomic patterns may contribute to its beneficiary effects observed in G93A mice.
Copy rights belong to original authors. Visit the link for more info
Podcast created by Paper Player, LLC
Released:
Feb 13, 2023
Format:
Podcast episode
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