2020
DOI: 10.2741/4854
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Intracellular transports and atherogenesis

Abstract: Introduction 3. Atherogenesis 3.1. Models of atherogenesis and epidemiology 3.2. Initial events 3.3. Endothelial damage 3.4. Oxysterols 3.5. Atherogenic serum 3.6. Human intima and atherosclerosis 3.7. Lysosome-ER transport 3.8. Food "improvement" and intercellular transport in the development of atherosclerosis 4. Summary and future perspectives 5. Acknowledgments 6. References

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Cited by 17 publications
(49 citation statements)
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“…VSMC migration was found to be enhanced in SHR, which is supported by the results of previous studies [38][39][40]. Though VSMC migration into already populated intima or even after cellular destruction is very slow [41], it contributes to hypertension-induced maladaptive vascular remodeling [42]. Moreover, enhanced VSMC migration contributes to the atherogenic mechanisms and has implications for the atherogenesis of hypertension [2,43].…”
Section: Discussionsupporting
confidence: 76%
“…VSMC migration was found to be enhanced in SHR, which is supported by the results of previous studies [38][39][40]. Though VSMC migration into already populated intima or even after cellular destruction is very slow [41], it contributes to hypertension-induced maladaptive vascular remodeling [42]. Moreover, enhanced VSMC migration contributes to the atherogenic mechanisms and has implications for the atherogenesis of hypertension [2,43].…”
Section: Discussionsupporting
confidence: 76%
“…Thus, only lipid transfer proteins can deliver cholesterol and free fatty acids from one membrane to another. Numerous (now more than 131) lipid- and sterol-transfer proteins have been identified to mediate directional cholesterol transfer at membrane contact sites formed between two closely apposed organelles (reviewed by Mironov et al [ 85 ]). However, it not known how lipids are moved from OMM to IMM.…”
Section: Membrane Geometry and Organelle Dynamicsmentioning
confidence: 99%
“…This process does not contradict the curvature hypothesis because insertion of caveolin and cavins into the lipid leaflet from the cytosol side increases the TAA and stimulates the PM invaginations into the cytosol. However, in an adipose tissue, caveolae and their derivate could be mostly important for temporal storage of fatty acids and cholesterol [ 85 ]. Thus, formation and disassembly of caveolae could be a dynamic process, and they consume the excess of the PM surface area after contraction of cells.…”
Section: Membrane Geometry and Organelle Dynamicsmentioning
confidence: 99%
“…A thrombus formed at the site of the eroded plaque contains leukocytes enriched with myeloperoxidase (MPO); neutrophils release proteolytic enzymes, MPO, together with DNA strings upon the formation of NETs [3]. However, there is little information on the contribution of lipoproteins to plaque erosion; and human arterial tissue is slightly different from that of athero-protective small animals [4], hence, this review focuses on the vulnerable plaques in human atherosclerosis.…”
Section: Introduction 1atherosclerotic Lesionmentioning
confidence: 99%