Proinflammatory Profile Within the Grossly Normal Aged Human Aortic Wall

Abstract: Abstract-Studies in animal models demonstrate that angiotensin II and its downstream signaling molecules, that is, matrix metalloproteinases and monocyte chemoattractant protein-1, increase within the diffusely thickened intima of central arteries with aging. Whether such age-related changes occur within the human arterial wall is unknown. We harvested "grossly normal thoracic aortas" from 5 young (20Ϯ3 years) and 5 old white males (65Ϯ6 years) at necropsy, after death from traumatic causes. The intimae of old… Show more

“…aneurysm), VR has been studied in various species including rats, rabbits, nonhuman primates, and humans, being an evolutionarily conserved process (see Table 3). The findings obtained have provided insights into the molecular and cellular mechanisms of aorta aging in humans [51][52][53][54][55][56][57][58][59][60]. Precisely, it has been shown that age-associated aorta VR is the result of a sterile inflammation, probably mediated by two supposed mechanisms: 1) infiltration of immune cells, that degrade tissues and release reactive or toxic molecules, causing DAMPs production [61]; 2) phenotypic changes in endothelial cells (ECs) and VSMCs evoked by altered and overload expression of stress and stretch signaling pathways, triggered by different stressors or damage tissue stimuli throughout life (i.e.…”

Toll-like receptor-4 signaling pathway in aorta aging and diseases: “its double nature”

“…aneurysm), VR has been studied in various species including rats, rabbits, nonhuman primates, and humans, being an evolutionarily conserved process (see Table 3). The findings obtained have provided insights into the molecular and cellular mechanisms of aorta aging in humans [51][52][53][54][55][56][57][58][59][60]. Precisely, it has been shown that age-associated aorta VR is the result of a sterile inflammation, probably mediated by two supposed mechanisms: 1) infiltration of immune cells, that degrade tissues and release reactive or toxic molecules, causing DAMPs production [61]; 2) phenotypic changes in endothelial cells (ECs) and VSMCs evoked by altered and overload expression of stress and stretch signaling pathways, triggered by different stressors or damage tissue stimuli throughout life (i.e.…”

Toll-like receptor-4 signaling pathway in aorta aging and diseases: “its double nature”

“…Surprisingly, an in vitro study indicated that flow cytometrically purified naive (CD62L (15), and atherosclerosis within an allograft is frequently a reason for not accepting an organ for transplantation. Moreover, even before the histological evidence of atherosclerosis, the vasculature exhibits low-grade increased inflammatory responses with aging (40,58,59). These changes include the production of monocyte-and T cell-attracting chemokines in the aging vasculature (e.g., CCL2 and osteopontin) that enhance monocyte chemotaxis (15).…”

Aging and the immune response to organ transplantation

“…Arterial aging is associated with multiple structural and functional changes, including vessel dilatation and wall thickening, loss of vascular smooth muscle cells (VSMCs) and elastin, deposition of collagen, endothelial dysfunction and low‐grade inflammation. In turn, these changes (which are present in both humans (Wang et al., 2007) and rodents (Wang et al., 2006)) result in vessel stiffening. Vascular stiffening may also be a consequence of hypertension, in part because of stress‐induced matrix synthesis by mechanosensitive cells, resulting in a positive feedback loop (reviewed in Humphrey, Harrison, Figueroa, Lacolley & Laurent, 2016).…”

Restoring mitochondrial DNA copy number preserves mitochondrial function and delays vascular aging in mice