News Release

A role for circadian enhancers to prevent myocardial injury in the perioperative setting

The article by Dr. Tobias Eckle et al. is published in Current Pharmaceutical Design, 2018

Peer-Reviewed Publication

Bentham Science Publishers

Innovative cardioprotective strategies are of imminent demand. Nonfatal myocardial ischemia (MI) poses a significant risk to patients undergoing major non-cardiac surgery and these non-cardiac surgeries account for around 8 million myocardial injuries per year. Considering perioperative MI is the most common major cardiovascular complication, identifying factors that lead to cardiac disease onset and finding solutions to prevent potential cardiac damage are of critical importance. Previous work revealed that anesthetics used in the perioperative setting alter cellular circadian biology and furthermore, a critical role for the circadian rhythm protein Period 2 (PER2) was revealed in promoting cardioprotection through metabolic pathway mediation. The current studies intended to answer this question: does anesthetic administration lead to increased susceptibility to MI, and if so, does targeting circadian PER2 provide a cardioprotective effect?

The starting point of the study was a screening test for the effects of frequently administered anesthetics on cardiac PER2. This screening demonstrated that only the benzodiazepine, midazolam, significantly downregulated PER2 levels in the heart tissue. Considering loss of PER2 is known to be detrimental during myocardial ischemia and reperfusion (IR)-injury, the study next addressed whether administration of midazolam prior to the occurrence of an MI would increase severity of such an incident. Using a well-established mouse model of myocardial IR-injury, the study team found that mice exposed to midazolam had an approximate 28.8% increase in infarct size compared to the control group. In agreement, Troponin-I levels were on average 198.9% greater in the mice given midazolam compared to the control mice. Indeed, mice administered midazolam were associated with deleterious consequences upon myocardial IR-injury.

The second part of the study sought to reverse the deleterious effects of midazolam when administered prior to myocardial ischemia. Recently, a large-scale screen identified nobiletin, a flavonoid from citrus peels, as a potent circadian PER2 enhancer. Not only was nobiletin found to increase cardiac PER2 and reduce infarct sizes by 47.4%, but nobiletin also abolished the deleterious effects of midazolam as demonstrated by a 28.9% decrease in infarct sizes and 55.4% decrease in Troponin-I levels in mice given both midazolam and nobiletin compared to mice given solely midazolam prior to myocardial ischemia. Furthermore, nobiletin provided cardioprotection in a PER2 dependent manner during IR-injury. This was demonstrated by nobiletin treatment prior to myocardial ischemia in mice with a genetic deletion of PER2, which revealed no cardioprotection.

This publication reports how midazolam mediated alterations of PER2 expression may have functional consequences during myocardial ischemia and identifies circadian biology as a potential consideration in translational studies and in the perioperative setting to prevent or treat myocardial ischemia.

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For more information about the research, please visit: http://www.eurekaselect.com/165578/article


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