Krüppel-like factor 4 regulates macrophage polarization
Xudong Liao, Nikunj Sharma, Fehmida Kapadia, Guangjin Zhou, Yuan Lu, Hong Hong, Kaavya Paruchuri, Ganapati H. Mahabeleshwar, Elise Dalmas, Nicolas Venteclef, Chris A. Flask, Julian Kim, Bryan W. Doreian, Kurt Q. Lu, Klaus H. Kaestner, Anne Hamik, Karine Clément, Mukesh K. Jain
Xudong Liao, Nikunj Sharma, Fehmida Kapadia, Guangjin Zhou, Yuan Lu, Hong Hong, Kaavya Paruchuri, Ganapati H. Mahabeleshwar, Elise Dalmas, Nicolas Venteclef, Chris A. Flask, Julian Kim, Bryan W. Doreian, Kurt Q. Lu, Klaus H. Kaestner, Anne Hamik, Karine Clément, Mukesh K. Jain
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Research Article Inflammation

Krüppel-like factor 4 regulates macrophage polarization

Abstract

Current paradigms suggest that two macrophage subsets, termed M1 and M2, are involved in inflammation and host defense. While the distinct functions of M1 and M2 macrophages have been intensively studied — the former are considered proinflammatory and the latter antiinflammatory — the determinants of their speciation are incompletely understood. Here we report our studies that identify Krüppel-like factor 4 (KLF4) as a critical regulator of macrophage polarization. Macrophage KLF4 expression was robustly induced in M2 macrophages and strongly reduced in M1 macrophages, observations that were recapitulated in human inflammatory paradigms in vivo. Mechanistically, KLF4 was found to cooperate with Stat6 to induce an M2 genetic program and inhibit M1 targets via sequestration of coactivators required for NF-κB activation. KLF4-deficient macrophages demonstrated increased proinflammatory gene expression, enhanced bactericidal activity, and altered metabolism. Furthermore, mice bearing myeloid-specific deletion of KLF4 exhibited delayed wound healing and were predisposed to developing diet-induced obesity, glucose intolerance, and insulin resistance. Collectively, these data identify KLF4 as what we believe to be a novel regulator of macrophage polarization.

Authors

Xudong Liao, Nikunj Sharma, Fehmida Kapadia, Guangjin Zhou, Yuan Lu, Hong Hong, Kaavya Paruchuri, Ganapati H. Mahabeleshwar, Elise Dalmas, Nicolas Venteclef, Chris A. Flask, Julian Kim, Bryan W. Doreian, Kurt Q. Lu, Klaus H. Kaestner, Anne Hamik, Karine Clément, Mukesh K. Jain

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Figure 3

KLF4 deficiency enhances macrophage M1 polarization.

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KLF4 deficiency enhances macrophage M1 polarization. (A) Enhanced expres...
(A) Enhanced expression of M1 marker genes in KLF4-deficient macrophages stimulated by LPS for 16 hours. n = 3 in each group. (B) Attenuated expression of M1 marker genes in RAW264.7 cells with overexpression of KLF4. n = 3 in each group. (C) Protein levels of Cox-2 and iNOS in PMs (left) and RAW264.7 cells (right). (D) KLF4-deficient macrophages generate more NO after LPS stimulation. n = 3 in each group. (E) Inhibition of Cox-2 promoter by KLF4. Transient transfection experiments were performed in RAW264.7 cells. n = 3. (F) Enhanced acetylation of histone H3 (AcH3) in LPS-treated KLF4-deficient macrophages demonstrated by ChIP. (G and H) KLF4 regulates LPS-induced recruitment of p300/PCAF as shown by deficiency (G) and overexpression (H) experiments. *P < 0.05, **P < 0.01, Student’s t test with Bonferroni correction.