Immunomodulatory role of nonneuronal cholinergic signaling in myocardial injury
Cibele Rocha-Resende, Carla Weinheimer, Geetika Bajpai, Luigi Adamo, Scot J. Matkovich, Joel Schilling, Philip M. Barger, Kory J. Lavine, Douglas L. Mann
Cibele Rocha-Resende, Carla Weinheimer, Geetika Bajpai, Luigi Adamo, Scot J. Matkovich, Joel Schilling, Philip M. Barger, Kory J. Lavine, Douglas L. Mann
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Research Article Cardiology Inflammation

Immunomodulatory role of nonneuronal cholinergic signaling in myocardial injury

Abstract

Whereas prior studies have demonstrated an important immunomodulatory role for the neuronal cholinergic system in the heart, the role of the nonneuronal cholinergic system is not well understood. To address the immunomodulatory role of the nonneuronal cholinergic system in the heart, we used a previously validated diphtheria toxin–induced (DT-induced) cardiomyocyte ablation model (Rosa26-DTMlc2v-Cre mice). DT-injected Rosa26-DTMlc2v-Cre mice were treated with diluent or pyridostigmine bromide (PYR), a reversible cholinesterase inhibitor. PYR treatment resulted in increased survival and decreased numbers of MHC-IIloCCR2+ macrophages in DT-injected Rosa26-DTMlc2v-Cre mice compared with diluent-treated Rosa26-DTMlc2v-Cre mice. Importantly, the expression of CCL2/7 mRNA and protein was reduced in the hearts of PYR-treated mice. Backcrossing Rosa26-DTMlc2v-Cre mice with a transgenic mouse line (Chat-ChR2) that constitutively overexpresses the vesicular acetylcholine transporter (VAChT) resulted in decreased expression of Ccl2/7 mRNA and decreased numbers of CD68+ cells in DT-injured Rosa26-DTMlc2v-Cre/Chat-ChR2 mouse hearts, consistent with the pharmacologic studies with PYR. In vitro studies with cultures of LPS-stimulated peritoneal macrophages revealed a concentration-dependent reduction in CCL2 secretion following stimulation with acetylcholine, nicotine, and muscarine. To our knowledge, these findings reveal a previously unappreciated immunomodulatory role for the nonneuronal cholinergic system in regulating homeostatic responses in the heart following tissue injury.

Authors

Cibele Rocha-Resende, Carla Weinheimer, Geetika Bajpai, Luigi Adamo, Scot J. Matkovich, Joel Schilling, Philip M. Barger, Kory J. Lavine, Douglas L. Mann

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Figure 1

Effect of pyridostigmine treatment on survival, tissue injury, and inflammation following diphtheria toxin–mediated injury.

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Effect of pyridostigmine treatment on survival, tissue injury, and infla...
(A) Kaplan-Meier survival curves for diphtheria toxin–injected (DT-injected) Rosa26-DTMlc2v-Cre (Rosa26-DT) and littermate control (LM) mice treated with pyridostigmine (PYR) or diluent (PBS, n = 13 mice/group). (B) Representative photomicrographs of Evans Blue dye (EBD) uptake by cardiomyocytes (yellow arrowhead) on day 3 after DT injection in LM and Rosa26-DTMlc2v-Cre mice treated with PYR or diluent. Scale bar: 50 μm. (C) Summary of group data for EBD uptake on day 3 after DT injection in LM and Rosa26-DTMlc2v-Cre mice treated with PYR or diluent (n = 18–29 fields obtained from 3 hearts/condition). (D) Serum troponin I (ng/mL) levels on day 3 and day 5 after DT injection in LM and Rosa26-DTMlc2v-Cre mice treated with PYR or diluent (n = 8–15 mice/condition). (E) Representative photomicrographs of hematoxylin and eosin–stained hearts on day 5 after DT injection in LM and Rosa26-DTMlc2v-Cre mice treated with PYR or diluent. Scale bar: 50 μm. (F) Group data of the inflammatory score on day 5 after DT injection in LM and Rosa26-DTMlc2v-Cre mice treated with PYR or diluent (n = 31–32 fields obtained from 4 hearts/condition). 0, no infiltrate; 1+, infiltrates involving <25% myocardium; 2+, infiltrates involving 25%–50%; 3+, infiltrates involving 50%–75% of the myocardium; and 4+, infiltrates involving 75%–100% of the myocardium. N.D., not detected. *P < 0.05 in comparison with LM/PBS and LM/PYR. P values were calculated with Gehan-Breslow-Wilcoxon test for A and 1-way ANOVA followed by the Tukey post hoc test for C, D, and F.