<scp>C</scp>‐reactive protein promotes atherosclerosis by increasing <scp>LDL</scp> transcytosis across endothelial cells

Bian, Fang; Yang, Xiaoyan; Zhang, Fan; Wu, Pin-hui; Xing, Shasha; Xu, Genhui; Li, Wenjing; Chi, Jiangyang; Chen, Ouyang; Zhang, Yonghui; Xiong, Bin; Li, Yongsheng; Zheng, Tao; Wu, Dan; Chen, Xiaoqian; Jin, Si

doi:10.1111/bph.12616

Cited by 73 publications

(88 citation statements)

References 63 publications

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“…Hs-CRP directly increases the transcytosis of LDL across endothelial cells and promotes atherosclerosis due to increasing the LDL retention in vascular walls [30]. This is one of the explanations of the contribution of hs-CRP to thrombotic vascular events such as CHD events.…”

Section: Discussionmentioning

confidence: 99%

Baseline High-Sensitivity C-Reactive Protein Predicts Macrovascular and Microvascular Complications of Type 2 Diabetes: A Population-Based Study

et al. 2018

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Background/Aims: This prospective study is aimed at examining the predictive value of high-sensitivity C-reactive protein (hs-CRP) for coronary heart disease (CHD) events and microvascular complications of type 2 diabetes mellitus (T2DM). Methods: A population-based study (NCT02958579) was conducted on 1,301 participants with T2DM (mean follow-up of 7.5 years). Risk assessment for vascular events was done at baseline, and serum hs-CRP was measured. End points of this study include CHD events, diabetic retinopathy, neuropathy, and diabetic kidney disease. Individuals with unavailable data or hs-CRP >20 mg/L were excluded. The discrimination and reclassification improvement of study end points were tested after addition of hs-CRP to traditional risk factors. Results: Median serum hs-CRP was 2.00 ranging from 0.1 to 17 mg/L. Hazards ratio of each SD increment in baseline hs-CRP was 1.028 (1.024–1.032) for CHD, 1.025 (1.021–1.029) for diabetic neuropathy, 1.037 (1.030–1.043) for diabetic retinopathy, and 1.035 (1.027–1.043) for diabetic kidney disease. The addition of hs-CRP to traditional risk factors of vascular complications of T2DM improved discrimination of all end points (p < 0.001). Net reclassification improvement ranged from 8% for diabetic neuropathy to 31% for diabetic kidney disease (p < 0.05). Conclusion: Baseline hs-CRP predicts both of CHD events and microvascular complications of patients with T2D.

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Section: Discussionmentioning

confidence: 99%

Baseline High-Sensitivity C-Reactive Protein Predicts Macrovascular and Microvascular Complications of Type 2 Diabetes: A Population-Based Study

et al. 2018

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“…C-reactive protein has also been shown to be involved in many aspects of atherosclerosis [27,[38][39][40], with or without the involvement of modified LDL. CRP inhibited cholesterol efflux from foam cells by inhibiting the expression of ABCA1 and ABCG1 while increasing oxidative stress by promoting activation of ERK1/2 and expression of reduced nicotinamide adenine dinucleotide phosphate oxidase subunits [41].…”

Section: Discussionmentioning

confidence: 99%

“…A complex containing CRP, oxLDL, and β2-glycoprotein I promoted atherosclerosis in diabetic mice by increasing lipid uptake [40]. In ApoE −/− mice, CRP promoted the transcytosis of LDL cross-endothelial cells and vascular wall in a protein kinase C/Src kinase-dependent manner, which resulted in early atherosclerotic changes [38]. CRP bound to eLDL and strongly activated complement pathway [42].…”

Section: Discussionmentioning

confidence: 99%

C reactive protein and enzymatically modified LDL cooperatively promote dendritic cell-mediated T cell activation

Ren

Wang

et al. 2017

Cardiovascular Pathology

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“…Bian et al [25] found that CRP could directly enhance LDL transcytosis across endothelial cells and promote accumulation of LDL in the subendothelial space of the human umbilical vein wall, via stimulating ROS production and activating protein kinase C (PKC) and Src kinase [73]. PKC phosphorylates Cav-1 at Ser [37], and Src phosphorylates Cav-1 at Tyr [14,74].…”

Section: Crpmentioning

confidence: 99%

“…PKC phosphorylates Cav-1 at Ser [37], and Src phosphorylates Cav-1 at Tyr [14,74]. CRP remarkably increases the expression of Cav-1 and cavin-1 (also known as polymerase I and transcript release factors/PTRF) in membrane raft domains when the caveolae/Cav-1/cavin-1 system participates in the transcellular transport of LDL [25]. These findings suggest that CRP plays an important role in PKC or Src kinase-stimulated transcytosis of LDL and the resultant development of early atherogenesis.…”

Section: Crpmentioning

confidence: 99%

A New Pathogenesis of Albuminuria: Role of Transcytosis

He¹,

Gong²,

Li³

et al. 2018

Cell Physiol Biochem

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Transcytosis is an important intracellular transport process by which multicellular organisms selectively move cargoes from apical to basolateral membranes without disrupting cellular homeostasis. In kidney, macromolecular components in the serum, such as albumin, low-density lipoprotein and immunoglobulins, pass through the glomerular filtration barrier (GFB) and proximal tubular cells (PTCs) by transcytosis. Protein transcytosis plays a vital role in the pathology of albuminuria, which causes progressive destruction of the GFB structure and function. However, the pathophysiological consequences of protein transcytosis in the kidney remain largely unknown. This article summarizes recent researches on the regulation of albumin transcytosis across the GFB and PTCs in both physiological and pathological conditions. Understanding the mechanism of albumin transcytosis may reveal potential therapeutic targets for prevention or alleviation of the pathological consequences of albuminuria.

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C‐reactive protein promotes atherosclerosis by increasing LDL transcytosis across endothelial cells

Cited by 73 publications

References 63 publications

Baseline High-Sensitivity C-Reactive Protein Predicts Macrovascular and Microvascular Complications of Type 2 Diabetes: A Population-Based Study

Baseline High-Sensitivity C-Reactive Protein Predicts Macrovascular and Microvascular Complications of Type 2 Diabetes: A Population-Based Study

C reactive protein and enzymatically modified LDL cooperatively promote dendritic cell-mediated T cell activation

A New Pathogenesis of Albuminuria: Role of Transcytosis

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