CETP inhibition enhances monocyte activation and bacterial clearance and reduces streptococcus pneumonia–associated mortality in mice
Haoyu Deng, … , John H. Boyd, Liam R. Brunham
Haoyu Deng, … , John H. Boyd, Liam R. Brunham
Published April 22, 2024
Citation Information: JCI Insight. 2024;9(8):e173205. https://doi.org/10.1172/jci.insight.173205.
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Research Article Cardiology Infectious disease

CETP inhibition enhances monocyte activation and bacterial clearance and reduces streptococcus pneumonia–associated mortality in mice

Abstract

Sepsis is a leading cause of mortality worldwide, and pneumonia is the most common cause of sepsis in humans. Low levels of high-density lipoprotein cholesterol (HDL-C) levels are associated with an increased risk of death from sepsis, and increasing levels of HDL-C by inhibition of cholesteryl ester transfer protein (CETP) decreases mortality from intraabdominal polymicrobial sepsis in APOE*3-Leiden.CETP mice. Here, we show that treatment with the CETP inhibitor (CETPi) anacetrapib reduced mortality from Streptococcus pneumoniae–induced sepsis in APOE*3-Leiden.CETP and APOA1.CETP mice. Mechanistically, CETP inhibition reduced the host proinflammatory response via attenuation of proinflammatory cytokine transcription and release. This effect was dependent on the presence of HDL, leading to attenuation of immune-mediated organ damage. In addition, CETP inhibition promoted monocyte activation in the blood prior to the onset of sepsis, resulting in accelerated macrophage recruitment to the lung and liver. In vitro experiments demonstrated that CETP inhibition significantly promoted the activation of proinflammatory signaling in peripheral blood mononuclear cells and THP1 cells in the absence of HDL; this may represent a mechanism responsible for improved bacterial clearance during sepsis. These findings provide evidence that CETP inhibition represents a potential approach to reduce mortality from pneumosepsis.

Authors

Haoyu Deng, Wan Yi Liang, Le Qi Chen, Tin Ho Yuen, Basak Sahin, Dragoș M. Vasilescu, Mark Trinder, Keith Walley, Patrick C.N. Rensen, John H. Boyd, Liam R. Brunham

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Figure 4

CETPi increases macrophage infiltration into site of infection and macrophage activation while maintaining tissue homeostasis at different stages of sepsis.

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CETPi increases macrophage infiltration into site of infection and macro...
(A and B) Representative staining figures of M1 macrophages by marker CD86 in lung obtained 0 and 72 hours after infection by S. pneumoniae from female APOA1.CETP mice treated with control or CETPi. Quantification was determined by random sampling spots on lungs of 3 different mice in each treatment and by measuring stained areas using ImageJ (H&E 0 hours, mean ± SD, 16.0 ± 2.6 [CETPi, n = 3] versus 2.7 ± 1.5 [Control, n = 3], unpaired t test, P = 0.002) (IHC 72 hours, mean ± SD, 6.0 ± 3.5 [CETPi, n = 3] versus 17.0 ± 7.9% [Control, n = 3], unpaired t test, P = 0.02). (C and D) Proportion of infiltrating inflammatory macrophages (CD11b+Ly6c+) and tissue repairing and inflammation resolving macrophages (CD11b+Ly6c) in BAL samples obtained 24 and 72 hours after infection from female APOA1.CETP mice treated with control or CETPi (CD11b+Ly6c+ 72 hours, mean ± SD, 5.6 ± 1.8 [CETPi, n = 4] versus 14.3 ± 6.1% [Control, n = 3], unpaired t test with Bonferroni correction, P = 0.037) (CD11b+ Ly6c 24 hours, mean ± SD, 62.1 ± 6.8 [CETPi, n = 4] versus 45.6 ± 3.8 [Control, n = 3], unpaired t test with Bonferroni correction, P = 0.013; CD11b+ Ly6c 72 hours, mean ± SD, 78.3 ± 9.1 [CETPi, n = 4] versus 34.7 ± 22.7 [Control, n = 3], unpaired t test with Bonferroni correction, P = 0.016). (E) Proportion of migrating monocytes (Ly6C++Ly6GDIM) in blood samples obtained 0 and 72 hours after infection from female APOA1.CETP mice treated with control or CETPi (mean ± SD, 12.0 ± 2.7 [CETPi, n = 5] versus 0.14 ± 0.06 [Control, n = 4], unpaired t test, P = 0.00005). Data are shown as mean ± SD. *P < 0.05, **P < 0.01, ****P < 0.0001. ApoA1, apolipoprotein A-1; CETP, cholesteryl ester transfer protein; CD86, cluster of differentiation 86; CD11b, integrin α M; Ly6-C, lymphocyte antigen 6 locus C; Ly6-G, lymphocyte antigen 6 locus G.