Cleavage of High Molecular Weight Kininogen and Bradykinin Release By Red Blood Cell Microvesicles As a Putative Mechanism for Hypotensive Transfusion Reactions

Background: Hypotensive transfusion reactions are adverse events typified by a sudden decrease in blood pressure that usually occurs within the first minutes after the initiation of a transfusion and resolves shortly after the transfusion is stopped. Due to current passive reporting practices, the incidence is likely underreported, but recent studies estimate an incidence of 1.3 cases per 10000 RBC units. The pathophysiology of these reactions are not fully understood. One hypothesis proposed is that increased bradykinin (BK), a nonapeptide released from cleavage of high molecular weight kininogen (HK), as seen with the use of negatively charged leukoreduction filters and the use of angiotensin-converting enzyme inhibitors, is a major contributor to the pathophysiology. We have recently demonstrated that red blood cell derived microvesicles (RBCMVs) from aging red blood cell (RBC) units are able to trigger thrombin generation via kallikrein activation - a predominant enzyme to cleave high molecular weight kininogen (Noubouossie, Blood, 2020). Thus, we hypothesize that the same RBCMVs would lead to bradykinin generation and might explain these hypotensive events.