Journal
AGING CELL
Volume 13, Issue 1, Pages 121-130Publisher
WILEY
DOI: 10.1111/acel.12155
Keywords
collagen; integrin; senescence; vascular smooth muscle
Categories
Funding
- Canadian Institutes of Health Research [FRN-11715, FRN-126148]
- Heart and Stroke Foundation of Canada [T7081]
- Heart and Stroke Foundation of Canada
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Collagen fibrils become resistant to cleavage over time. We hypothesized that resistance to type I collagen proteolysis not only marks biological aging but also drives it. To test this, we followed mice with a targeted mutation (Col1a1(r/r)) that yields collagenase-resistant type I collagen. Compared with wild-type littermates, Col1a1(r/r) mice had a shortened lifespan and developed features of premature aging including kyphosis, weight loss, decreased bone mineral density, and hypertension. We also found that vascular smooth muscle cells (SMCs) in the aortic wall of Col1a1(r/r) mice were susceptible to stress-induced senescence, displaying senescence-associated ss-galactosidase (SA-ss Gal) activity and upregulated p16(INK4A) in response to angiotensin II infusion. To elucidate the basis of this pro-aging effect, vascular SMCs from twelve patients undergoing coronary artery bypass surgery were cultured on collagen derived from Col1a1(r/r) or wild-type mice. This revealed that mutant collagen directly reduced replicative lifespan and increased stress-induced SA-ss Gal activity, p16(INK4A) expression, and p21(CIP1) expression. The pro-senescence effect of mutant collagen was blocked by vitronectin, a ligand for v ss 3 integrin that is presented by denatured but not native collagen. Moreover, inhibition of v ss 3 with echistatin or with v ss 3-blocking antibody increased senescence of SMCs on wild-type collagen. These findings reveal a novel aging cascade whereby resistance to collagen cleavage accelerates cellular aging. This interplay between extracellular and cellular compartments could hasten mammalian aging and the progression of aging-related diseases.
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