BACKGROUND: KLF4 mediates inflammatory responses after vascular injury/disease; however, the role of KLF4 in abdominal aortic aneurysms (AAAs) remains unknown. The goals of the present study were to (1) determine the role of KLF4 in experimental AAA; and (2) determine the effect of KLF4 on smooth muscle (SM) cells in AAAs. METHODS AND RESULTS: KLF4 expression progressively increased at days 3, 7, and 14 after aortic elastase perfusion in C57BL/6 mice. Separately, loss of a KLF4 allele conferred AAA protection using ERTCre+ KLF4 flx/wt mice in the elastase AAA model. In a third set of experiments, SM-specific loss of 1 and 2 KLF4 alleles resulted in progressively greater protection using novel transgenic mice (MYHCre+ flx/flx, flx/wt, and wt/wt) in the elastase AAA model compared with control. Elastin degradation, MAC2, and cytokine production (MCP1, tumor necrosis factor-α, and interleukin-23) were significantly attenuated, whereas α-actin staining was increased in KLF4 knockout mice versus controls. Results were verified in global KLF4 and SM-specific knockout mice using an angiotensin II model of aneurysm formation. KLF4 inhibition with siRNA attenuated downregulation of SM gene expression in vitro, whereas in vivo studies demonstrated that KLF4 binds to promoters of SM genes by chromatin immunoprecipitation analysis. Finally, human aortic aneurysms demonstrated significantly higher KLF4 expression that was localized to SM cells. CONCLUSIONS: KLF4 plays a critical role in aortic aneurysm formation via effects on SM cells. These results suggest that KLF4 regulates SM cell phenotypic switching and could be a potential therapeutic target for AAA disease.
BACKGROUND:KLF4 mediates inflammatory responses after vascular injury/disease; however, the role of KLF4 in abdominal aortic aneurysms (AAAs) remains unknown. The goals of the present study were to (1) determine the role of KLF4 in experimental AAA; and (2) determine the effect of KLF4 on smooth muscle (SM) cells in AAAs. METHODS AND RESULTS:KLF4 expression progressively increased at days 3, 7, and 14 after aortic elastase perfusion in C57BL/6 mice. Separately, loss of a KLF4 allele conferred AAA protection using ERTCre+ KLF4 flx/wt mice in the elastase AAA model. In a third set of experiments, SM-specific loss of 1 and 2 KLF4 alleles resulted in progressively greater protection using novel transgenic mice (MYHCre+ flx/flx, flx/wt, and wt/wt) in the elastase AAA model compared with control. Elastin degradation, MAC2, and cytokine production (MCP1, tumor necrosis factor-α, and interleukin-23) were significantly attenuated, whereas α-actin staining was increased in KLF4 knockout mice versus controls. Results were verified in global KLF4 and SM-specific knockout mice using an angiotensin II model of aneurysm formation. KLF4 inhibition with siRNA attenuated downregulation of SM gene expression in vitro, whereas in vivo studies demonstrated that KLF4 binds to promoters of SM genes by chromatin immunoprecipitation analysis. Finally, humanaortic aneurysms demonstrated significantly higher KLF4 expression that was localized to SM cells. CONCLUSIONS:KLF4 plays a critical role in aortic aneurysm formation via effects on SM cells. These results suggest that KLF4 regulates SM cell phenotypic switching and could be a potential therapeutic target for AAA disease.
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