AI Article Synopsis
- The study investigates how aging affects the function and characteristics of bone marrow-derived smooth muscle cells (BM-SMCs), highlighting declines in their proliferation and contractility with age.
- The researchers used a specific promoter to isolate BM-SMCs from neonatal and adult sheep, finding that adult BM-SMCs had reduced growth potential and functional capabilities, which could be partially improved with growth factors.
- The findings suggest that understanding these age-related changes in BM-SMCs may help develop new treatments for cardiovascular diseases, particularly for older populations.
Article Abstract
Aims: Bone marrow-derived smooth muscle cells (BM-SMCs) have high potential as an autologous cell source of vascular progenitors but normal cell function and turnover frequency may decline with age. In this study we set out to study the effects of organismal ageing on the molecular and functional properties of BM-SMCs.
Methods And Results: To address this issue, we employed a smooth muscle alpha-actin promoter (alphaSMA) driving expression of enhanced green fluorescence protein (EGFP) to isolate SMCs from bone marrow of neonatal (nBM-SMCs) or adult (aBM-SMCs) sheep and examined their proliferation potential and contractility. Compared with nBM-SMCs, aBM-SMCs exhibited lower clonogenicity and proliferation potential that could be improved significantly by addition of basic fibroblast growth factor. Vascular constructs from aBM-SMCs showed reduced ability to generate force and contract fibrin hydrogels and this function could be partially restored by addition of transforming growth factor-beta1. They also exhibited lower receptor- and non-receptor-mediated vascular contractility and mechanical strength, which was comparable to that of tissue constructs prepared with vascular SMCs from neonatal umbilical veins. In agreement with the contractile properties and mechanical strength of vascular constructs, aBM-SMCs displayed significantly lower expression of alphaSMA, smoothelin, desmin, type I collagen, and tropoelastin transcripts compared with nBM-SMCs.
Conclusion: Understanding the effects of organismal ageing on BM-SMCs and the properties of the resulting vascular constructs may lead to innovative ways to facilitate application of these cells in the treatment of cardiovascular disease which is especially prevalent in the elderly.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2883893 | PMC |
| http://dx.doi.org/10.1093/cvr/cvq024 | DOI Listing |
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