A conserved annexin A6-mediated membrane repair mechanism in muscle, heart, and nerve

Alexis R. Demonbreun; Elena Bogdanovic; Lauren A. Vaught; Nina L. Reiser; Katherine S. Fallon; Ashlee M. Long; Claire C. Oosterbaan; Michele Hadhazy; Patrick G.T. Page; Prem Raj B. Joseph; Gabrielle Cowen; Alexander M. Telenson; Ammaarah Khatri; Katherine R. Sadleir; Robert Vassar; Elizabeth M. McNally

doi:10.1172/jci.insight.158107

A conserved annexin A6-mediated membrane repair mechanism in muscle, heart, and nerve

Alexis R. Demonbreun^*, Elena Bogdanovic, Lauren A. Vaught, Nina L. Reiser, Katherine S. Fallon, Ashlee M. Long, Claire C. Oosterbaan, Michele Hadhazy, Patrick G.T. Page, Prem Raj B. Joseph, Gabrielle Cowen, Alexander M. Telenson, Ammaarah Khatri, Katherine R. Sadleir, Robert Vassar, Elizabeth M. McNally

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

13 Scopus citations

Abstract

Membrane instability and disruption underlie myriad acute and chronic disorders. Anxa6 encodes the membrane-associated protein annexin A6 and was identified as a genetic modifier of muscle repair and muscular dystrophy. To evaluate annexin A6's role in membrane repair in vivo, we inserted sequences encoding green fluorescent protein (GFP) into the last coding exon of Anxa6. Heterozygous Anxa6gfp mice expressed a normal pattern of annexin A6 with reduced annexin A6GFP mRNA and protein. High-resolution imaging of wounded muscle fibers showed annexin A6GFP rapidly formed a repair cap at the site of injury. Injured cardiomyocytes and neurons also displayed repair caps after wounding, highlighting annexin A6-mediated repair caps as a feature in multiple cell types. Using surface plasmon resonance, we showed recombinant annexin A6 bound phosphatidylserine-containing lipids in a Ca2+- and dosedependent fashion with appreciable binding at approximately 50 μM Ca2+. Exogenously added recombinant annexin A6 localized to repair caps and improved muscle membrane repair capacity in a dose-dependent fashion without disrupting endogenous annexin A6 localization, indicating annexin A6 promotes repair from both intracellular and extracellular compartments. Thus, annexin A6 orchestrates repair in multiple cell types, and recombinant annexin A6 may be useful in additional chronic disorders beyond skeletal muscle myopathies.

Original language	English (US)
Article number	e158107
Journal	JCI Insight
Volume	7
Issue number	14
DOIs	https://doi.org/10.1172/jci.insight.158107
State	Published - Jul 22 2022

Funding

This work was supported by NIH NS047726, AR052646, and R01 AG030142 (to RV). Additional funding was through Lakeside Discovery. The genetically engineered mice were generated with the assistance of Northwestern University Transgenic & Targeted Mutagenesis Core Facility. Imaging work was performed at the Northwestern University Center for Advanced Microscopy supported by NIH National Cancer Institute Cancer Center Support Grant P30 CA060553 awarded to the Robert H. Lurie Comprehensive Cancer Center. Multiphoton microscopy was performed on a Nikon A1R MP+ multiphoton microscope, acquired through the support of NIH 1S10OD010398-01.

ASJC Scopus subject areas

General Medicine

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Demonbreun, A. R., Bogdanovic, E., Vaught, L. A., Reiser, N. L., Fallon, K. S., Long, A. M., Oosterbaan, C. C., Hadhazy, M., Page, P. G. T., Joseph, P. R. B., Cowen, G., Telenson, A. M., Khatri, A., Sadleir, K. R., Vassar, R., & McNally, E. M. (2022). A conserved annexin A6-mediated membrane repair mechanism in muscle, heart, and nerve. JCI Insight, 7(14), Article e158107. https://doi.org/10.1172/jci.insight.158107

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title = "A conserved annexin A6-mediated membrane repair mechanism in muscle, heart, and nerve",

abstract = "Membrane instability and disruption underlie myriad acute and chronic disorders. Anxa6 encodes the membrane-associated protein annexin A6 and was identified as a genetic modifier of muscle repair and muscular dystrophy. To evaluate annexin A6's role in membrane repair in vivo, we inserted sequences encoding green fluorescent protein (GFP) into the last coding exon of Anxa6. Heterozygous Anxa6gfp mice expressed a normal pattern of annexin A6 with reduced annexin A6GFP mRNA and protein. High-resolution imaging of wounded muscle fibers showed annexin A6GFP rapidly formed a repair cap at the site of injury. Injured cardiomyocytes and neurons also displayed repair caps after wounding, highlighting annexin A6-mediated repair caps as a feature in multiple cell types. Using surface plasmon resonance, we showed recombinant annexin A6 bound phosphatidylserine-containing lipids in a Ca2+- and dosedependent fashion with appreciable binding at approximately 50 μM Ca2+. Exogenously added recombinant annexin A6 localized to repair caps and improved muscle membrane repair capacity in a dose-dependent fashion without disrupting endogenous annexin A6 localization, indicating annexin A6 promotes repair from both intracellular and extracellular compartments. Thus, annexin A6 orchestrates repair in multiple cell types, and recombinant annexin A6 may be useful in additional chronic disorders beyond skeletal muscle myopathies.",

author = "Demonbreun, {Alexis R.} and Elena Bogdanovic and Vaught, {Lauren A.} and Reiser, {Nina L.} and Fallon, {Katherine S.} and Long, {Ashlee M.} and Oosterbaan, {Claire C.} and Michele Hadhazy and Page, {Patrick G.T.} and Joseph, {Prem Raj B.} and Gabrielle Cowen and Telenson, {Alexander M.} and Ammaarah Khatri and Sadleir, {Katherine R.} and Robert Vassar and McNally, {Elizabeth M.}",

note = "Publisher Copyright: {\textcopyright} 2022, Demonbreun et al.",

year = "2022",

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doi = "10.1172/jci.insight.158107",

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Demonbreun, AR, Bogdanovic, E, Vaught, LA, Reiser, NL, Fallon, KS, Long, AM, Oosterbaan, CC, Hadhazy, M, Page, PGT, Joseph, PRB, Cowen, G, Telenson, AM, Khatri, A, Sadleir, KR , Vassar, R & McNally, EM 2022, 'A conserved annexin A6-mediated membrane repair mechanism in muscle, heart, and nerve', JCI Insight, vol. 7, no. 14, e158107. https://doi.org/10.1172/jci.insight.158107

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T1 - A conserved annexin A6-mediated membrane repair mechanism in muscle, heart, and nerve

AU - Demonbreun, Alexis R.

AU - Bogdanovic, Elena

AU - Vaught, Lauren A.

AU - Reiser, Nina L.

AU - Fallon, Katherine S.

AU - Long, Ashlee M.

AU - Oosterbaan, Claire C.

AU - Hadhazy, Michele

AU - Page, Patrick G.T.

AU - Joseph, Prem Raj B.

AU - Cowen, Gabrielle

AU - Telenson, Alexander M.

AU - Khatri, Ammaarah

AU - Sadleir, Katherine R.

AU - Vassar, Robert

AU - McNally, Elizabeth M.

PY - 2022/7/22

Y1 - 2022/7/22

N2 - Membrane instability and disruption underlie myriad acute and chronic disorders. Anxa6 encodes the membrane-associated protein annexin A6 and was identified as a genetic modifier of muscle repair and muscular dystrophy. To evaluate annexin A6's role in membrane repair in vivo, we inserted sequences encoding green fluorescent protein (GFP) into the last coding exon of Anxa6. Heterozygous Anxa6gfp mice expressed a normal pattern of annexin A6 with reduced annexin A6GFP mRNA and protein. High-resolution imaging of wounded muscle fibers showed annexin A6GFP rapidly formed a repair cap at the site of injury. Injured cardiomyocytes and neurons also displayed repair caps after wounding, highlighting annexin A6-mediated repair caps as a feature in multiple cell types. Using surface plasmon resonance, we showed recombinant annexin A6 bound phosphatidylserine-containing lipids in a Ca2+- and dosedependent fashion with appreciable binding at approximately 50 μM Ca2+. Exogenously added recombinant annexin A6 localized to repair caps and improved muscle membrane repair capacity in a dose-dependent fashion without disrupting endogenous annexin A6 localization, indicating annexin A6 promotes repair from both intracellular and extracellular compartments. Thus, annexin A6 orchestrates repair in multiple cell types, and recombinant annexin A6 may be useful in additional chronic disorders beyond skeletal muscle myopathies.

AB - Membrane instability and disruption underlie myriad acute and chronic disorders. Anxa6 encodes the membrane-associated protein annexin A6 and was identified as a genetic modifier of muscle repair and muscular dystrophy. To evaluate annexin A6's role in membrane repair in vivo, we inserted sequences encoding green fluorescent protein (GFP) into the last coding exon of Anxa6. Heterozygous Anxa6gfp mice expressed a normal pattern of annexin A6 with reduced annexin A6GFP mRNA and protein. High-resolution imaging of wounded muscle fibers showed annexin A6GFP rapidly formed a repair cap at the site of injury. Injured cardiomyocytes and neurons also displayed repair caps after wounding, highlighting annexin A6-mediated repair caps as a feature in multiple cell types. Using surface plasmon resonance, we showed recombinant annexin A6 bound phosphatidylserine-containing lipids in a Ca2+- and dosedependent fashion with appreciable binding at approximately 50 μM Ca2+. Exogenously added recombinant annexin A6 localized to repair caps and improved muscle membrane repair capacity in a dose-dependent fashion without disrupting endogenous annexin A6 localization, indicating annexin A6 promotes repair from both intracellular and extracellular compartments. Thus, annexin A6 orchestrates repair in multiple cell types, and recombinant annexin A6 may be useful in additional chronic disorders beyond skeletal muscle myopathies.

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A conserved annexin A6-mediated membrane repair mechanism in muscle, heart, and nerve

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