Red blood cells and local hemolysis contribute to arterial wall pathologies, including atherosclerosis and abdominal aortic aneurysms, through heme-iron toxicity and oxidation.
This review highlights the pathological role of red blood cells and local hemolysis in driving human atherosclerosis and arterial diseases through heme-Fe++ toxicity and oxidation.
As the main particulate component of the circulating blood, RBCs play major roles in physiological hemodynamics and impact all arterial wall pathologies. RBCs are the main determinant of blood viscosity, defining the frictional forces exerted by the blood on the arterial wall. This function is used in phylogeny and ontogeny of the cardiovascular (CV) system, allowing the acquisition of vasomotricity adapted to local metabolic demands, and systemic arterial pressure after birth. In pathology, RBCs collide with the arterial wall, inducing both local retention of their membranous lipids and local hemolysis, releasing heme-Fe++ with a high toxicity for arterial cells: endothelial and smooth muscle cells (SMCs) cardiomyocytes, neurons, etc. Specifically, overloading of cells by Fe++ promotes cell death. This local hemolysis is an event associated with early and advanced stages of human atherosclerosis. Similarly, the permanent renewal of mural RBC clotting is the major support of oxidation in abdominal aortic aneurysm. In parallel, calcifications promote intramural hemorrhages, and hemorrhages promote an osteoblastic phenotypic shift of arterial wall cells. Different plasma or tissue systems are able, at least in part, to limit this injury by acting at the different levels of this system.
Michel et al. (Tue,) conducted a review in Atherosclerosis and Related Arterial Diseases. Red blood cells and hemoglobin was evaluated. Red blood cells and local hemolysis contribute to arterial wall pathologies, including atherosclerosis and abdominal aortic aneurysms, through heme-iron toxicity and oxidation.
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