Low-frequency inherited complement receptor variants are associated with purpura fulminans

•The hyperinflammation that characterizes PF is, at least in part, a consequence of inherited complement defects.•Missense mutations in ITGB2 simultaneously impair anti-inflammatory CR3 signaling and enhance proinflammatory CR4 signaling. [Display omitted] Extreme disease phenotypes can provide key...

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Published in:Blood 2024-03, Vol.143 (11), p.1032-1044
Main Authors: Bendapudi, Pavan K., Nazeen, Sumaiya, Ryu, Justine, Söylemez, Onuralp, Robbins, Alissa, Rouaisnel, Betty, O’Neil, Jillian K., Pokhriyal, Ruchika, Yang, Moua, Colling, Meaghan, Pasko, Bryce, Bouzinier, Michael, Tomczak, Lindsay, Collier, Lindsay, Barrios, David, Ram, Sanjay, Toth-Petroczy, Agnes, Krier, Joel, Fieg, Elizabeth, Dzik, Walter H., Hudspeth, James C., Pozdnyakova, Olga, Nardi, Valentina, Knight, James, Maas, Richard, Sunyaev, Shamil, Losman, Julie-Aurore
Format: Article
Language:English
Subjects:
Humans
Prospective Studies
Purpura Fulminans - genetics
Receptors, Complement
Sepsis
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Summary:•The hyperinflammation that characterizes PF is, at least in part, a consequence of inherited complement defects.•Missense mutations in ITGB2 simultaneously impair anti-inflammatory CR3 signaling and enhance proinflammatory CR4 signaling. [Display omitted] Extreme disease phenotypes can provide key insights into the pathophysiology of common conditions, but studying such cases is challenging due to their rarity and the limited statistical power of existing methods. Herein, we used a novel approach to pathway–based mutational burden testing, the rare variant trend test (RVTT), to investigate genetic risk factors for an extreme form of sepsis-induced coagulopathy, infectious purpura fulminans (PF). In addition to prospective patient sample collection, we electronically screened over 10.4 million medical records from 4 large hospital systems and identified historical cases of PF for which archived specimens were available to perform germline whole-exome sequencing. We found a significantly increased burden of low-frequency, putatively function-altering variants in the complement system in patients with PF compared with unselected patients with sepsis (P = .01). A multivariable logistic regression analysis found that the number of complement system variants per patient was independently associated with PF after controlling for age, sex, and disease acuity (P = .01). Functional characterization of PF-associated variants in the immunomodulatory complement receptors CR3 and CR4 revealed that they result in partial or complete loss of anti-inflammatory CR3 function and/or gain of proinflammatory CR4 function. Taken together, these findings suggest that inherited defects in CR3 and CR4 predispose to the maladaptive hyperinflammation that characterizes severe sepsis with coagulopathy. Bendapudi and colleagues investigated the genetic basis for infection-associated purpura fulminans (PF). Using whole exome sequencing, the authors identified rare variants in the complement system in patients with PF. By functional testing, most variants resulted in partial or complete loss of anti-inflammatory CR3 function or gain of proinflammatory CR4 function. Their findings support that inherited defects in complement proteins predispose to hyperinflammation leading to PF.
ISSN:0006-4971
1528-0020
1528-0020
DOI:10.1182/blood.2023021231