4.6 Article

Matrix-bound Cyr61/CCN1 is required to retain the properties of the bone marrow mesenchymal stem cell niche but is depleted with aging

Journal

MATRIX BIOLOGY
Volume 111, Issue -, Pages 108-132

Publisher

ELSEVIER
DOI: 10.1016/j.matbio.2022.06.004

Keywords

Stem cell niche; Aging; Extracellular matrix; Cyr61; CCN1; Bone microenvironment; Osteogenic differentiation

Funding

  1. VA Merit Review [1I01BX002145-01]
  2. NIH-NCATS TL1 Translational Science Training grant [TL1 TR001119]
  3. NIH-NIDCR F31 National Research Service Award [F31 DE02668]
  4. San Antonio Nathan Shock Center of Excellence in the Basic Biology of Aging
  5. NIH shared instrumentation grant [1 S10 RR021160-01]

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The study shows that bone marrow mesenchymal stem cells (BM-MSCs) respond better to extracellular matrices (ECMs) produced by young BM cells, promoting their proliferation and responsiveness to growth factors. The study also found that decreased levels of Cyr61 protein in bone tissue of elderly individuals are associated with low bone mineral density. These results demonstrate the importance of Cyr61 in the BM-MSC niche and suggest potential therapeutic targets for age-related bone loss.
Previously, we showed that extracellular matrices (ECMs), produced ex vivo by various types of stromal cells, direct bone marrow mesenchymal stem cells (BM-MSCs) in a tissue-specific manner and recapitulate physio-logic changes characteristic of the aging microenvironment. In particular, BM-MSCs obtained from elderly donors and cultured on ECM produced by young BM stromal cells showed improved quantity, quality and osteogenic differentiation. In the present study, we searched for matrix components that are required for a functional BM-MSC niche by comparing ECMs produced by BM stromal cells from young (<= 25 y/o) versus elderly (>= 60 y/o) donors. With increasing donor age, ECM fibrillar organization and mechanical integrity deteriorated, along with the ability to promote BM-MSC proliferation and responsiveness to growth factors. Proteomic analyses revealed that the matricellular protein, Cyr61/CCN1, was present in young, but undetect-able in elderly, BM-ECM. To assess the role of Cyr61 in the BM-MSC niche, we used genetic methods to down-regulate the incorporation of Cyr61 during production of young ECM and up-regulate its incorporation in elderly ECM. The results showed that Cyr61-depleted young ECM lost the ability to promote BM-MSC pro-liferation and growth factor responsiveness. However, up-regulating the incorporation of Cyr61 during synthe-sis of elderly ECM restored its ability to support BM-MSC responsiveness to osteogenic factors such as BMP-2 and IGF-1. We next examined aging bone and compared bone mineral density and Cyr61 content of L4-L5 vertebral bodies in young (9-11 m/o) and elderly (21-33 m/o) mice. Our analyses showed that low bone mineral density was associated with decreased amounts of Cyr61 in osseous tissue of elderly versus young mice. Our results strongly demonstrate a novel role for ECM-bound Cyr61 in the BM-MSC niche, where it is responsible for retention of BM-MSC proliferation and growth factor responsiveness, while depletion of Cyr61 from the BM niche contributes to an aging-related dysregulation of BM-MSCs. Our results also suggest new potential therapeutic targets for treating age-related bone loss by restoring specific ECM components to the stem cell niche. Published by Elsevier B.V. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/)

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