2022
DOI: 10.1681/asn.2022010048
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Myeloid CCR2 Promotes Atherosclerosis after AKI

Abstract: Background: The risk of cardiovascular events rises after acute kidney injury. Leukocytes promote atherosclerotic plaque growth and instability. We have established a model of enhanced remote atherosclerosis after renal ischemia reperfusion (IR) injury and investigate the underlying inflammatory mechanisms. Methods: Atherosclerotic lesions and inflammation were investigated in native and bone marrow-transplanted LDL receptor-deficient (LDLr-/-) mice after unilateral renal IR injury using histology, flow cytome… Show more

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Cited by 8 publications
(8 citation statements)
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“…Signaling pathways include immune system [54], metabolism of lipids [55], phospholipid metabolism [56] and disease [57] plays an important role in CAD. DOCK4 [58], CEACAM1 [59], STAT1 [60], ARG1 [61], TLR4 [62], ADAM9 [63], VNN1 [64], ABCA1 [65], STAT2 [66], TLR5 [67], PTGS2 [68], RNF213 [69], ZDHHC17 [70], JAK2 [71], TLR8 [72], NOTCH2 [73], PDGFC (platelet derived growth factor C) [74], CMPK2 [75], TLR2 [76], CYP1B1 [77], CCR1 [78], HDAC9 [79], IL1RN [80], GCH1 [81], LYST (lysosomal trafficking regulator) [82], PELI1 [83], EGR1 [84], SNX10 [85], CA2 [86], ZEB2 [87], HIF1A [88], PLA2G7 [89], CCR2 [90], GAB1 [91], IRAK3 [92], LDLR (low density lipoprotein receptor) [93], TLR6 [94], SIRT1 [95], NOD2 [96], ATP10D [97], ELOVL6 [98], VCAN (versican) [99], TET2 [100], TET3 [101], ZBTB20 [102], HS3ST1 [103], PF4 [104], DNAJC2 [105], NFIA (nuclear factor I A) [106], CCR7 [107], PRDX2 [108], ADK (adenosine kinase) [109], TCF7 [110], LGALS3 [111], OLFM2 [112], HDAC11 [113] and ARPC1B [114] are significantly related to the atherosclerosis. Studies have revealed that KCNJ2 [115], TLR4 [116], JAK2 [117], TLR2 [118], EGR1 [119], GAB1 [120], ZBTB11 [121], BIN1 [122], TCF4 [123], PPP1R13L [124], TRPM4 [125], LGALS3 [126] and SNTA1 [127] plays a key role in cardiac arrhythmia.…”
Section: Discussionmentioning
confidence: 99%
“…Signaling pathways include immune system [54], metabolism of lipids [55], phospholipid metabolism [56] and disease [57] plays an important role in CAD. DOCK4 [58], CEACAM1 [59], STAT1 [60], ARG1 [61], TLR4 [62], ADAM9 [63], VNN1 [64], ABCA1 [65], STAT2 [66], TLR5 [67], PTGS2 [68], RNF213 [69], ZDHHC17 [70], JAK2 [71], TLR8 [72], NOTCH2 [73], PDGFC (platelet derived growth factor C) [74], CMPK2 [75], TLR2 [76], CYP1B1 [77], CCR1 [78], HDAC9 [79], IL1RN [80], GCH1 [81], LYST (lysosomal trafficking regulator) [82], PELI1 [83], EGR1 [84], SNX10 [85], CA2 [86], ZEB2 [87], HIF1A [88], PLA2G7 [89], CCR2 [90], GAB1 [91], IRAK3 [92], LDLR (low density lipoprotein receptor) [93], TLR6 [94], SIRT1 [95], NOD2 [96], ATP10D [97], ELOVL6 [98], VCAN (versican) [99], TET2 [100], TET3 [101], ZBTB20 [102], HS3ST1 [103], PF4 [104], DNAJC2 [105], NFIA (nuclear factor I A) [106], CCR7 [107], PRDX2 [108], ADK (adenosine kinase) [109], TCF7 [110], LGALS3 [111], OLFM2 [112], HDAC11 [113] and ARPC1B [114] are significantly related to the atherosclerosis. Studies have revealed that KCNJ2 [115], TLR4 [116], JAK2 [117], TLR2 [118], EGR1 [119], GAB1 [120], ZBTB11 [121], BIN1 [122], TCF4 [123], PPP1R13L [124], TRPM4 [125], LGALS3 [126] and SNTA1 [127] plays a key role in cardiac arrhythmia.…”
Section: Discussionmentioning
confidence: 99%
“…[36] MCP-1 and CCR2 are significantly increased in damaged kidneys. [37][38][39][40] After kidney injury, MCP-1 is highly expressed, recruiting and activating monocyte-macrophages to the injury site, and specifically binds to the receptor CCR2 on monocyte-macrophages and exerts biological effects through the calcium-dependent protein kinase C-mediated signaling pathway. Inhibition of MCP-1/CCR2 axis can reduce the infiltration of macrophages into kidneys, thereby reducing inflammation and renal fibrosis in the damaged kidneys.…”
Section: Mcp-1/ccr2 Axismentioning
confidence: 99%
“…Animal models of AKI have demonstrated cardiac alterations and endothelial dysfunction as distant effects of AKI. 13,14 In humans, AKI has been associated with increases in selected inflammatory cytokines, 1517 which may increase the risk of subsequent cardiovascular disease analogous to other acute illnesses characterized by inflammation ( e.g. , serious infections).…”
Section: Introductionmentioning
confidence: 99%
“…Animal models of AKI have demonstrated cardiac alterations and endothelial dysfunction as distant effects of AKI. 13,14 In humans, AKI has been associated with increases in selected inflammatory cytokines, [15][16][17] which may increase the risk of subsequent cardiovascular disease analogous to other acute illnesses characterized by inflammation (e.g., serious infections). 18,19 However, the associations between AKI and cardiovascular disease and death seen in epidemiologic studies may be due to confounding by differences in patient characteristics between patients with and without AKI.…”
Section: Introductionmentioning
confidence: 99%