Central Sympatholysis for Cocaine-Induced Coronary Vasoconstriction in Humans.
Kontak, Andrew Carl   
Cedars-Sinai Medical Center, Los Angeles, CA, United States

Cocaine is a major cause of life-threatening cardiovascular emergencies (hypertensive crisis, myocardial infarcts.) While these emergencies are related to excessive adrenergic stimulation of the cardiovascular system, our understanding of the underlying mechanisms is far from complete and current therapies are unsatisfactory. The prevailing view is that cocaine blocks norepinephrine (NE) reuptake in peripheral sympathetic terminals, thereby increasing [NE]. Studies in cocaine-naive human subjects have challenged the predominance of this mechanism and demonstrated instead that cocaine stimulates the human cardiovascular system primarily by acting in the brain to increase sympathetic nerve activity (SNA), the neural stimulus to NE release. I now hypothesize that the central sympatholytic action of 2 adrenergic receptor (AR) agonists can be utilized to counter the centrally-driven cardiovascular consequences of cocaine. These agonists could mitigate effects of cocaine by acting on brainstem a2 ARs to decrease SNA as well as on presynaptic 2 ARs on sympathetic nerve terminals to inhibit NE release. But they also activate post-junctional a2 ARs on vascular smooth muscle which, might exacerbate cocaine-induced vasoconstriction. Utilizing rigorously-defined cardiovascular phenotypes in a controlled laboratory setting, I will test whether the efficacy of potent a2 AR agonist (i.v. dexmedetomidine) to reverse cocaine-induced coronary vasoconstriction is maintained even under conditions in which either (a) the sympatholytic effects of 02 ARs might be attenuated (chronic cocaine exposure) or (b) postjunctional a2 AR mediated vasoconstriction might be augmented (coronary disease, gain-of-function mutations in the a2B AR). The distinctive features of this proposal include the: (1) use of state-of-the-art techniques in integrative physiology;(2) focus on activation of SNA by cocaine, which traditionally has been viewed as a peripherally- acting sympathomimetic;(3) pharmacogenetics, and (4) study of chronic cocaine abusers. This translational research should fill in some important gaps in our mechanistic understanding of the sympathomimetic actions of cocaine on the human cardiovascular system and hopefully begin to inform therapy.