心肌细胞双核化与有丝分裂微管分布异常、RhoA 和 IQGAP3 的定位错误以及肌动球蛋白环锚定和胞质分裂沟内陷缺陷有关。

Cardiomyocyte binucleation is associated with aberrant mitotic microtubule distribution, mislocalization of RhoA and IQGAP3, as well as defective actomyosin ring anchorage and cleavage furrow ingression.

机构信息

Department of Cardiac Development and Remodelling, Max Planck Institute for Heart and Lung Research, Parkstrasse 1, 61231 Bad Nauheim, Germany.

Experimental Renal and Cardiovascular Research, Department of Nephropathology, Institute of Pathology, Friedrich-Alexander-Universität Erlangen-Nürnberg, Schwabachanlage 12, 91054 Erlangen, Germany.

出版信息

Cardiovasc Res. 2018 Jul 1;114(8):1115-1131. doi: 10.1093/cvr/cvy056.

DOI:10.1093/cvr/cvy056

PMID:29522098

Abstract

AIMS

After birth mammalian cardiomyocytes initiate a last cell cycle which results in binucleation due to cytokinesis failure. Despite its importance for cardiac regenerative therapies, this process is poorly understood. Here, we aimed at a better understanding of the difference between cardiomyocyte proliferation and binucleation and providing a new tool to distinguish these two processes.

METHODS AND RESULTS

Monitoring of cell division by time-lapse imaging revealed that rat cardiomyocyte binucleation stems from a failure to properly ingress the cleavage furrow. Astral microtubule required for actomyosin ring anchorage and thus furrow ingression were not symmetrically distributed at the periphery of the equatorial region during anaphase in binucleating cardiomyocytes. Consequently, RhoA, the master regulator of actomyosin ring formation and constriction, non-muscle myosin IIB, a central component of the actomyosin ring, as well as IQGAP3 were abnormally localized during cytokinesis. In agreement with improper furrow ingression, binucleation in vitro and in vivo was associated with a failure of RhoA and IQGAP3 to localize to the stembody of the midbody.

CONCLUSION

Taken together, these results indicate that naturally occurring cytokinesis failure in primary cardiomyocytes is due to an aberrant mitotic microtubule apparatus resulting in inefficient anchorage of the actomyosin ring to the plasma cell membrane. Thus, cardiomyocyte binucleation and division can be discriminated by the analysis of RhoA as well as IQGAP3 localization.

摘要

目的

哺乳动物心肌细胞在出生后启动最后一个细胞周期，由于胞质分裂失败而导致双核化。尽管这对于心脏再生治疗很重要，但这个过程还知之甚少。在这里，我们旨在更好地理解心肌细胞增殖和双核化之间的差异，并提供一种新的工具来区分这两个过程。

方法和结果

通过延时成像监测细胞分裂发现，大鼠心肌细胞的双核化源于不能正确进入分裂沟。在双核化心肌细胞的后期，赤道区域周围的星体微管不能对称分布，星体微管是肌动球蛋白环锚定所必需的，因此不能正常进入分裂沟。因此，RhoA（肌动球蛋白环形成和收缩的主要调节因子）、非肌肉肌球蛋白 IIB（肌动球蛋白环的核心成分）以及 IQGAP3 在胞质分裂过程中异常定位。与不正确的分裂沟进入一致，体外和体内的双核化与 RhoA 和 IQGAP3 不能定位到中体的干细胞体有关。

结论

综上所述，这些结果表明，原代心肌细胞中自然发生的胞质分裂失败是由于有丝分裂微管装置异常，导致肌动球蛋白环不能有效地锚定到细胞质膜。因此，通过分析 RhoA 和 IQGAP3 的定位可以区分心肌细胞的双核化和分裂。

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心肌细胞双核化与有丝分裂微管分布异常、RhoA 和 IQGAP3 的定位错误以及肌动球蛋白环锚定和胞质分裂沟内陷缺陷有关。

Cardiomyocyte binucleation is associated with aberrant mitotic microtubule distribution, mislocalization of RhoA and IQGAP3, as well as defective actomyosin ring anchorage and cleavage furrow ingression.

机构信息

出版信息

AIMS

METHODS AND RESULTS

CONCLUSION

目的

方法和结果

结论

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