Event Title

Mdivi-1 exerts cardioprotective effects in myocardial ischemia/reperfusion (MI/R) when given at reperfusion.

Location

Philadelphia

Start Date

13-5-2015 1:00 PM

Description

MI/R results in cardiac contractile dysfunction and increased cell death. MI/R is initiated in part by uncoupling of the electron transport chain in mitochondria, which generates reactive oxygen species (ROS). Increased ROS lead to the loss of mitochondrial membrane potential, which augments mitochondrial fission in MI/R. Mitochondrial fission is in turn associated with shortening of mitochondria, decreased ATP production, and is thought to promote cardiac contractile dysfunction and post reperfused cardiomyocyte loss, leading to increased infarct size. Therefore, inhibiting mitochondrial fission may be an effective new strategy to salvage injured cardiac myocytes during MI/R. Mdivi-1 (MW= 353 g/mol), a mitochondrial fission inhibitor, that acts by selectively inhibiting dynamin related protein 1, a GTPase that promotes mitochondrial fission via interaction with outer mitochondrial membrane proteins, was used to test this strategy. Isolated perfused rat hearts subjected to I (30 min)/R (90 min) were infused with Mdivi-1 (25 µM) given for 5 min following ischemia. Mdivi-1 treated hearts (n=6) significantly reduced infarct size to 25% ± 2%, as compared to control I/R hearts (n=9) 44% ± 4% (p< 0.01). However, Mdivi-1 treatment only transiently improved post-reperfused cardiac function at this dose. These preliminary results suggest that inhibition of mitochondrial fission reduces infarct size. Future studies will test other treatment regimens with Mdivi-1.

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COinS
 
May 13th, 1:00 PM

Mdivi-1 exerts cardioprotective effects in myocardial ischemia/reperfusion (MI/R) when given at reperfusion.

Philadelphia

MI/R results in cardiac contractile dysfunction and increased cell death. MI/R is initiated in part by uncoupling of the electron transport chain in mitochondria, which generates reactive oxygen species (ROS). Increased ROS lead to the loss of mitochondrial membrane potential, which augments mitochondrial fission in MI/R. Mitochondrial fission is in turn associated with shortening of mitochondria, decreased ATP production, and is thought to promote cardiac contractile dysfunction and post reperfused cardiomyocyte loss, leading to increased infarct size. Therefore, inhibiting mitochondrial fission may be an effective new strategy to salvage injured cardiac myocytes during MI/R. Mdivi-1 (MW= 353 g/mol), a mitochondrial fission inhibitor, that acts by selectively inhibiting dynamin related protein 1, a GTPase that promotes mitochondrial fission via interaction with outer mitochondrial membrane proteins, was used to test this strategy. Isolated perfused rat hearts subjected to I (30 min)/R (90 min) were infused with Mdivi-1 (25 µM) given for 5 min following ischemia. Mdivi-1 treated hearts (n=6) significantly reduced infarct size to 25% ± 2%, as compared to control I/R hearts (n=9) 44% ± 4% (p< 0.01). However, Mdivi-1 treatment only transiently improved post-reperfused cardiac function at this dose. These preliminary results suggest that inhibition of mitochondrial fission reduces infarct size. Future studies will test other treatment regimens with Mdivi-1.