biostudies-literatureLim HYNIDDK NIH HHSNHLBI NIH HHSNIGMS NIH HHS1455-1470.e4https://www.ebi.ac.uk/biostudies/studies/S-EPMC6703176biostudies-literatureUnknown28(6)Septate junction (SJ) complex proteins act in unison to provide a paracellular barrier and maintain structural integrity. Here, we identify a non-barrier role of two individual SJ proteins, Coracle (Cora) and Kune-kune (Kune). Reactive oxygen species (ROS)-p38 MAPK signaling in non-myocytic pericardial cells (PCs) is important for maintaining normal cardiac physiology in Drosophila. However, the underlying mechanisms remain unknown. We find that in PCs, Cora and Kune are altered in abundance in response to manipulations of ROS-p38 signaling. Genetic analyses establish Cora and Kune as key effectors of ROS-p38 signaling in PCs on proper heart function. We further determine that Cora regulates normal Kune levels in PCs, which in turn modulates normal Kune levels in the cardiomyocytes essential for proper heart function. Our results thereby reveal select SJ proteins Cora and Kune as signaling mediators of the PC-derived ROS regulation of cardiac physiology.Cell reportsSelect Septate Junction Proteins Direct ROS-Mediated Paracrine Regulation of Drosophila Cardiac Function.PMC6703176P20 GM103636R01 DK116017R01 HL128455Liu YBao HWang WLim HYfalseSelect Septate Junction Proteins Direct ROS-Mediated Paracrine Regulation of Drosophila Cardiac Function.Septate junction (SJ) complex proteins act in unison to provide a paracellular barrier and maintain structural integrity. Here, we identify a non-barrier role of two individual SJ proteins, Coracle (Cora) and Kune-kune (Kune). Reactive oxygen species (ROS)-p38 MAPK signaling in non-myocytic pericardial cells (PCs) is important for maintaining normal cardiac physiology in Drosophila. However, the underlying mechanisms remain unknown. We find that in PCs, Cora and Kune are altered in abundance in response to manipulations of ROS-p38 signaling. Genetic analyses establish Cora and Kune as key effectors of ROS-p38 signaling in PCs on proper heart function. We further determine that Cora regulates normal Kune levels in PCs, which in turn modulates normal Kune levels in the cardiomyocytes essential for proper heart function. Our results thereby reveal select SJ proteins Cora and Kune as signaling mediators of the PC-derived ROS regulation of cardiac physiology.2019-01-01T00:00:00Z2019 Aug2021-02-20T05:22:38Z2019-08-26T07:04:08ZS-EPMC67031763139056110.1016/j.celrep.2019.07.004