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Aging-associated modifications of collagen affect its degradation by matrix metalloproteinases. | LitMetric

Aging-associated modifications of collagen affect its degradation by matrix metalloproteinases.

Matrix Biol

Department of Oral Biological & Medical Sciences, Faculty of Dentistry, University of British Columbia, Vancouver, B.C. V6T 1Z3, Canada; Centre for Blood Research, University of British Columbia, Vancouver, B.C. V6T 1Z3, Canada; Department of Biochemistry & Molecular Biology, Faculty of Medicine, University of British Columbia, Vancouver, B.C. V6T 1Z3, Canada. Electronic address:

Published: January 2018

AI Article Synopsis

  • The aging process and certain diseases negatively impact the structure and function of connective tissue, primarily through changes in collagen, which is key for tissue resilience.
  • Matrix metalloproteinases (MMPs) play a crucial role in breaking down collagen but have decreased effectiveness on aged and modified collagens, leading to reduced tissue remodeling.
  • Overall, changes in collagen due to aging and diseases not only weaken tissues but may also worsen issues related to the extracellular matrix, making it less able to function properly.

Article Abstract

The natural aging process and various pathologies correlate with alterations in the composition and the structural and mechanical integrity of the connective tissue. Collagens represent the most abundant matrix proteins and provide for the overall stiffness and resilience of tissues. The structural changes of collagens and their susceptibility to degradation are associated with skin wrinkling, bone and cartilage deterioration, as well as cardiovascular and respiratory malfunctions. Here, matrix metalloproteinases (MMPs) are major contributors to tissue remodeling and collagen degradation. During aging, collagens are modified by mineralization, accumulation of advanced glycation end-products (AGEs), and the depletion of glycosaminoglycans (GAGs), which affect fiber stability and their susceptibility to MMP-mediated degradation. We found a reduced collagenolysis in mineralized and AGE-modified collagen fibers when compared to native fibrillar collagen. GAGs had no effect on MMP-mediated degradation of collagen. In general, MMP digestion led to a reduction in the mechanical strength of native and modified collagen fibers. Successive fiber degradation with MMPs and the cysteine-dependent collagenase, cathepsin K (CatK), resulted in their complete degradation. In contrast, MMP-generated fragments were not or only poorly cleaved by non-collagenolytic cathepsins such as cathepsin V (CatV). In conclusion, our data indicate that aging and disease-associated collagen modifications reduce tissue remodeling by MMPs and decrease the structural and mechanic integrity of collagen fibers, which both may exacerbate extracellular matrix pathology.

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Source
http://dx.doi.org/10.1016/j.matbio.2017.06.004DOI Listing

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