B-type natriuretic peptide is upregulated by c-Jun N-terminal kinase and contributes to septic hypotension
Matthew Hoffman, Ioannis D. Kyriazis, Alexandra Dimitriou, Santosh K. Mishra, Walter J. Koch, Konstantinos Drosatos
Matthew Hoffman, Ioannis D. Kyriazis, Alexandra Dimitriou, Santosh K. Mishra, Walter J. Koch, Konstantinos Drosatos
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Research Article Cardiology

B-type natriuretic peptide is upregulated by c-Jun N-terminal kinase and contributes to septic hypotension

Abstract

B-type natriuretic peptide (BNP) is secreted by ventricular cardiomyocytes in response to various types of cardiac stress and has been used as a heart failure marker. In septic patients, increased BNP suggests poor prognosis; however, no causal link has been established. Among various effects, BNP decreases systemic vascular resistance and increases natriuresis that leads to lower blood pressure. We previously observed that JNK inhibition corrects cardiac dysfunction and suppresses cardiac BNP mRNA in endotoxemia. In this study, we investigated the transcriptional mechanism that regulates BNP expression and the involvement of plasma BNP in causing septic hypotension. Our in vitro and in vivo findings confirmed that activation of JNK signaling increases BNP expression in sepsis via direct binding of c-Jun in activating protein–1 (AP-1) regulatory elements of the Nppb promoter. Accordingly, genetic ablation of BNP, as well as treatment with a potentially novel neutralizing anti-BNP monoclonal antibody (19B3) or suppression of its expression via administration of JNK inhibitor SP600125 improved cardiac output, stabilized blood pressure, and improved survival in mice with polymicrobial sepsis. Therefore, inhibition of JNK signaling or BNP in sepsis appears to stabilize blood pressure and improve survival.

Authors

Matthew Hoffman, Ioannis D. Kyriazis, Alexandra Dimitriou, Santosh K. Mishra, Walter J. Koch, Konstantinos Drosatos

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Figure 2

BNP neutralization via 19B3 reverses low preload, increases cardiac output, and protects against hypotension.

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BNP neutralization via 19B3 reverses low preload, increases cardiac outp...
(A) Experimental outline for CLP surgery in mice followed by administration of 19B3 (50 mg/kg) or IgG (50 mg/kg) 6 hours after CLP. (B–E) BNP mRNA (B), plasma BNP (C), plasma cGMP (D), and kidney cGMP (E) in BNP-KO mice 12 hours after CLP. (F and G) Representative parasternal long-axis view (F) and tail-cuff blood pressure trace (G) in mice following sham or CLP surgery, followed by administration of 19B3 (50 mg/kg) or IgG. (H–M) End-diastolic volume (H), global longitudinal strain (I), cardiac output normalized to body weight (J), mean arterial pressure (K), surface temperature (L), and plasma lactate (M) in mice 12 hours after CLP and 6 hours after 19B3 administration. n = 5, Sham + IgG; n = 5, Sham + 19B3; n = 8, CLP + IgG; n = 8, CLP + 19B3. *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001 versus Sham + IgG; ##P < 0.01, ###P < 0.001, ####P < 0.0001 versus Sham + 19B3; $P < 0.05, $$P < 0.01, $$$$P < 0.0001 versus CLP + IgG by 2-way ANOVA with Tukey multiple comparisons between treatments.