2017
DOI: 10.1038/s41467-017-01743-6
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Annexin A4 and A6 induce membrane curvature and constriction during cell membrane repair

Abstract: Efficient cell membrane repair mechanisms are essential for maintaining membrane integrity and thus for cell life. Here we show that the Ca2+- and phospholipid-binding proteins annexin A4 and A6 are involved in plasma membrane repair and needed for rapid closure of micron-size holes. We demonstrate that annexin A4 binds to artificial membranes and generates curvature force initiated from free edges, whereas annexin A6 induces constriction force. In cells, plasma membrane injury and Ca2+ influx recruit annexin … Show more

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Cited by 145 publications
(240 citation statements)
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“…Calcium-dependent Annexin A4 also binds preferentially to PS-rich membrane regions and curves the wounded plasma membrane edges, which is subsequently constricted inward by Annexin A6 to aid in closing the wound. This proposed mechanism seems to fit with the wound stabilizing role of Annexin A5, which is recruited to the injury site within seconds [8], while later arrival of Annexins A4 and A6 facilitates wound closure [52]. Annexin A6 has been reported to localize to the extracellular face of the plasma membrane in skeletal muscle [51,11], which is consistent with the role of Annexin A6 in constricting the damaged free edges of the wound site.…”
Section: Signals and Effectors Of Plasma Membrane Repairmentioning
confidence: 68%
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“…Calcium-dependent Annexin A4 also binds preferentially to PS-rich membrane regions and curves the wounded plasma membrane edges, which is subsequently constricted inward by Annexin A6 to aid in closing the wound. This proposed mechanism seems to fit with the wound stabilizing role of Annexin A5, which is recruited to the injury site within seconds [8], while later arrival of Annexins A4 and A6 facilitates wound closure [52]. Annexin A6 has been reported to localize to the extracellular face of the plasma membrane in skeletal muscle [51,11], which is consistent with the role of Annexin A6 in constricting the damaged free edges of the wound site.…”
Section: Signals and Effectors Of Plasma Membrane Repairmentioning
confidence: 68%
“…While annexins with lower calcium sensitivity respond later, and can involve binding partners such as S100 proteins [16]. The difference in response to calcium signaling may determine how largely similar annexin proteins including Annexin A1, A2, A4, A5 and A6 can accumulate and potentially facilitate different aspects of plasma membrane repair (Figure 2a) [51,52]. However, annexin accumulation at the injury site does not necessarily indicate a role in repair.…”
Section: Signals and Effectors Of Plasma Membrane Repairmentioning
confidence: 99%
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“…Cell imaging is the most suitable approach for studying plasma membrane repair. Fluorescence microscopy, whether confocal or super‐resolution techniques (Lek et al., ; Middel et al., ), electron microscopy (Carmeille et al., ; Miyake & McNeil, ) and atomic force microscopy (Boye et al., ; Miyagi, Chipot, Rangl, & Scheuring, ) have been successfully used in this context. Cellular structures that are involved in membrane resealing and have to be spatially resolved are plasma membrane (5‐ to 10‐nm thick), cytoplasmic vesicles (diameter range from 50 to 500 nm), organelles (µm‐size), microfilaments (6 nm in diameter) and microtubules (20 to 25 nm in diameter).…”
Section: Commentarymentioning
confidence: 99%