Engulfment and cell motility protein 1 potentiates diabetic cardiomyopathy via Rac-dependent and Rac-independent ROS production
Masao Kakoki, Edward M. Bahnson, John R. Hagaman, Robin M. Siletzky, Ruriko Grant, Yukako Kayashima, Feng Li, Esther Y. Lee, Michelle T. Sun, Joan M. Taylor, Jessica C. Rice, Michael F. Almeida, Ben A. Bahr, J. Charles Jennette, Oliver Smithies, Nobuyo Maeda-Smithies
Masao Kakoki, Edward M. Bahnson, John R. Hagaman, Robin M. Siletzky, Ruriko Grant, Yukako Kayashima, Feng Li, Esther Y. Lee, Michelle T. Sun, Joan M. Taylor, Jessica C. Rice, Michael F. Almeida, Ben A. Bahr, J. Charles Jennette, Oliver Smithies, Nobuyo Maeda-Smithies
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Research Article Cardiology

Engulfment and cell motility protein 1 potentiates diabetic cardiomyopathy via Rac-dependent and Rac-independent ROS production

Abstract

Engulfment and cell motility protein 1 (ELMO1) is part of a guanine nucleotide exchange factor for Ras-related C3 botulinum toxin substrate (Rac), and ELMO1 polymorphisms were identified to be associated with diabetic nephropathy in genome-wide association studies. We generated a set of Akita Ins2C96Y diabetic mice having 5 graded cardiac mRNA levels of ELMO1 from 30% to 200% of normal and found that severe dilated cardiomyopathy develops in ELMO1-hypermorphic mice independent of renal function at age 16 weeks, whereas ELMO1-hypomorphic mice were completely protected. As ELMO1 expression increased, reactive oxygen species indicators, dissociation of the intercalated disc, mitochondrial fragmentation/dysfunction, cleaved caspase-3 levels, and actin polymerization increased in hearts from Akita mice. Cardiomyocyte-specific overexpression in otherwise ELMO1-hypomorphic Akita mice was sufficient to promote cardiomyopathy. Cardiac Rac1 activity was positively correlated with the ELMO1 levels, and oral administration of a pan-Rac inhibitor, EHT1864, partially mitigated cardiomyopathy of the ELMO1 hypermorphs. Disrupting Nox4, a Rac-independent NADPH oxidase, also partially mitigated it. In contrast, a pan-NADPH oxidase inhibitor, VAS3947, markedly prevented cardiomyopathy. Our data demonstrate that in diabetes mellitus ELMO1 is the “rate-limiting” factor of reactive oxygen species production via both Rac-dependent and Rac-independent NADPH oxidases, which in turn trigger cellular signaling cascades toward cardiomyopathy.

Authors

Masao Kakoki, Edward M. Bahnson, John R. Hagaman, Robin M. Siletzky, Ruriko Grant, Yukako Kayashima, Feng Li, Esther Y. Lee, Michelle T. Sun, Joan M. Taylor, Jessica C. Rice, Michael F. Almeida, Ben A. Bahr, J. Charles Jennette, Oliver Smithies, Nobuyo Maeda-Smithies

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Figure 3

Dissociation of the intercalated disc and impaired electric conduction of heart muscle cells.

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Dissociation of the intercalated disc and impaired electric conduction o...
The number of animals studied is shown in each figure. Data are expressed as mean ± SEM. Comparisons were done with 1-way ANOVA including the additional data set. *P < 0.05 vs. WTA+ by Tukey-Kramer Honestly Significant Differences test. NS, not significantly different among the 5 groups. (A) Representative images of the intercalated disc in the hearts of LLA+, WTA+, and HHA+ mice as shown by TEM. White arrows indicate the dissociation of the intercalated disc. Scale bar: 1 μm. (B) Frequency of the dissociation of the intercalated disc. Percentage of discs with dissociated gap junctions per at least 30 discs in each animal. (C) Representative images for the immunofluorescence for connexin43 (Cx43). DAPI shows nuclei. The immunoreactivity for connexin43 was diminished in the intercalated discs in the HHA+ heart. Arrows indicate intercalated discs. Scale bar: 10 μm. (DF) Protein levels of (D) total connexin43, (E) Ser368-phosphorylated connexin43, and (F) small G protein signaling modulator 3 (SGSM3) were normalized with GAPDH protein and expressed relative to the mean value in the WTA+ as 100%. (G) QT intervals in the electrocardiogram after correction by RR intervals using Bazzette’s formula (QTcB).