Regulation and role of arginine vasopressin in myocardial infarction/reperfusion

Abstract

Abstract Background Little attention is paid to the coronary microvasculature when treating acute myocardial infarction (MI). Microvascular obstruction contributes to ischaemia-reperfusion (I-R) injury. One proposed mechanism is a persistent vasoconstrictor tone during MI/reperfusion. Arginine vasopressin (AVP) has a vasoactive effect on the coronary microvessels. Moreover, cardiac AVP synthesis was found in an animal model. To exert vasoconstriction, AVP binds to its receptor 1a (AVPR1a). Aims (i) To analyse the AVP levels during MI/reperfusion (ii) To assess cardiac AVP and AVPR1a expressions in MI/reperfusion mouse models. Methods We took arterial blood samples from ST elevation MI (STEMI) patients admitted to our hospital over the course of MI/reperfusion for AVP levels quantification. We also measured AVP through its more stable surrogate biomarker, copeptin. Cardiac MRI was done to evaluate coronary microvasculature, infarct size, and left ventricular ejection fraction (LVEF) 1 week post-admission. Cardiac AVP and AVPR1a expressions were assessed by polymerase chain reaction (PCR) in mouse models. Results STEMI patients displayed bothAVPand copeptinlevels elevation at baseline (130.8±20.5 pmol/l, n=23) until 90 min post-reperfusion (55.7±6.2 pmol/l, n=23). Their concentrations began to approach normal levels at 24h. Patients with poorer reperfusion outcomes had copeptin concentrations that remained above normal level after 24h following reperfusion. Copeptin levels at 24h post-reperfusion were significantly higher in patients who developed larger infarct size (p=0.004) and lower LVEF (p=0.009). Patients with microvascular obstruction tended to have higher copeptin levels from admission until 24h post-reperfusion. Mouse models showed no cardiac AVP expression but significantly high AVPR1a expression at 2h post-reperfusion. Conclusion In STEMI patients, circulating AVP level is elevated over the course of MI/reperfusion. In MI/reperfusion mouse models, cardiac AVP synthesis is absent but cardiac AVPR1a is upregulated. The combination of delayed decline in AVP concentrations and AVPR1a upregulation may increase the possibility for AVP to mediate I-R injury through microvascular disturbance. Increased AVP levels at 24h post-reperfusion are significantly associated with poor reperfusion outcome. These results warrant further studies concerning the use of AVP receptor antagonist in STEMI patients undergoing reperfusion therapy Copeptin levels and reperfusion outcomes Funding Acknowledgement Type of funding source: Private grant(s) and/or Sponsorship. Main funding source(s): Newcastle University MRes Programme