Chromatin Condensation Delays Senescence in Human Mesenchymal Stem Cells by Safeguarding Nuclear Damages during In Vitro Expansion

Author:

Joshi Rohit1ORCID,Suryawanshi Tejas2ORCID,Mukherjee Sourav1ORCID,Shukla Shobha3ORCID,Majumder Abhijit1ORCID

Affiliation:

1. Department of Chemical Engineering, Indian Institute of Technology Bombay, Mumbai 400076, India

2. Centre for Research in Nano Technology and Science, Indian Institute of Technology Bombay, Mumbai 400076, India

3. Department of Metallurgical Engineering and Materials Science, Indian Institute of Technology Bombay, Mumbai 400076, India

Abstract

Human mesenchymal stem cells (hMSCs) are multipotent cells that differentiate into adipocytes, chondrocytes, and osteoblasts. Owing to their differentiation potential, hMSCs are among the cells most frequently used for therapeutic applications in tissue engineering and regenerative medicine. However, the number of cells obtained through isolation alone is insufficient for hMSC-based therapies and basic research, which necessitates in vitro expansion. Conventionally, this is often performed on rigid surfaces such as tissue culture plates (TCPs). However, during in vitro expansion, hMSCs lose their proliferative ability and multilineage differentiation potential, rendering them unsuitable for clinical use. Although multiple approaches have been attempted to maintain hMSC stemness during prolonged expansion, finding a suitable culture system remains an unmet need. Recently, a few research groups have shown that hMSCs maintain their stemness over long passages when cultured on soft substrates. In addition, it has been shown that hMSCs cultured on soft substrates have more condensed chromatin and lower levels of histone acetylation compared to those cultured on stiff substrates. Furthermore, it has also been shown that condensing/decondensing chromatin by deacetylation/acetylation can delay replicative senescence in hMSCs during long-term expansion on TCPs. However, the mechanism by which chromatin condensation/decondensation influences nuclear morphology and DNA damage, which are strongly related to the onset of senescence, remains unknown. To answer this question, we cultured hMSCs for long duration in the presence of epigenetic modifiers, histone acetyltransferase inhibitor (HATi), which promotes chromatin condensation by preventing histone acetylation, and histone deacetylase inhibitor (HDACi), which promotes chromatin decondensation, and investigated their effects on various nuclear markers related to senescence. We found that consistent acetylation causes severe nuclear abnormalities, whereas chromatin condensation by deacetylation helps to safeguard the nucleus from damage caused by in vitro expansion.

Publisher

Hindawi Limited

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