Myocardial infarction causes sex-dependent dysfunction in vagal sensory glutamatergic neurotransmission that is mitigated by 17β-estradiol
Asokan Devarajan, Kerry Wang, Zulfiqar A. Lokhandwala, Maryam Emamimeybodi, Kassandra Shannon, John D. Tompkins, Andrea L. Hevener, Aldons J. Lusis, E. Dale Abel, Marmar Vaseghi
Asokan Devarajan, Kerry Wang, Zulfiqar A. Lokhandwala, Maryam Emamimeybodi, Kassandra Shannon, John D. Tompkins, Andrea L. Hevener, Aldons J. Lusis, E. Dale Abel, Marmar Vaseghi
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Research Article Cardiology

Myocardial infarction causes sex-dependent dysfunction in vagal sensory glutamatergic neurotransmission that is mitigated by 17β-estradiol

Abstract

Parasympathetic dysfunction after chronic myocardial infarction (MI) is known to predispose ventricular tachyarrhythmias (ventricular tachycardia/ventricular fibrillation [VT/VF]). VT/VF after MI is more common in males than females. The mechanisms underlying the decreased vagal tone and the associated sex difference in the occurrence of VT/VF after MI remain elusive. In this study, using optogenetic approaches, we found that responses of glutamatergic vagal afferent neurons were impaired following chronic MI in male mice, leading to reduced reflex efferent parasympathetic function. Molecular analyses of vagal ganglia demonstrated reduced glutamate levels, accompanied by decreased mitochondrial function and impaired redox status in infarcted males versus sham animals. Interestingly, infarcted females demonstrated reduced vagal sensory impairment, associated with greater vagal ganglia glutamate levels and decreased vagal mitochondrial dysfunction and oxidative stress compared with infarcted males. Treatment with 17β-estradiol mitigated this pathological remodeling and improved vagal neurotransmission in infarcted male mice. These data suggest that a decrease in efferent vagal tone following MI results from reduced glutamatergic afferent vagal signaling that may be due to impaired redox homeostasis in the vagal ganglia, which subsequently leads to pathological remodeling in a sex-dependent manner. Importantly, estrogen prevents pathological remodeling and improves parasympathetic function following MI.

Authors

Asokan Devarajan, Kerry Wang, Zulfiqar A. Lokhandwala, Maryam Emamimeybodi, Kassandra Shannon, John D. Tompkins, Andrea L. Hevener, Aldons J. Lusis, E. Dale Abel, Marmar Vaseghi

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Figure 1

Baroreflex testing in sham and infarcted male mice.

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Baroreflex testing in sham and infarcted male mice. (A) Myocardial infar...
(A) Myocardial infarction was created by ligation of the LAD coronary artery. (B) Two to 3 weeks after MI, the presence of cardiac fibrosis was confirmed in infarcted males. Scale bar: 500 μm. (C and D) Examples of blood pressure and heart rate tracings after infusion of phenylephrine in male sham and MI mice. (E and F) BRS was measured as the slope of the beat-to-beat RR interval with respect to the systolic blood pressure. Representative slopes of BRS in a sham and an infarcted male mouse in response to phenylephrine infusion are shown. (G) BRS was significantly reduced in male infarcted mice (n = 6) versus sham (n = 7) mice (P < 0.001). (H) The ratio of ΔRR/ΔBP was also reduced in male MI versus male sham mice in response to phenylephrine, indicative of vagal dysfunction (P < 0.001). Data are shown as mean ± SEM. **P < 0.01; unpaired Student’s t test was used for intergroup comparisons.