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Literature DB >> 26959762

Immortalized Mouse Achilles Tenocytes Demonstrate Long-Term Proliferative Capacity While Retaining Tenogenic Properties.

Sahitya K Denduluri¹, Bryan Scott¹, Joseph D Lamplot¹, Liangjun Yin^1,2, Zhengjian Yan^1,2, Zhongliang Wang^1,2, Jixing Ye¹, Jing Wang^1,2, Qiang Wei^1,2, Maryam K Mohammed¹, Rex C Haydon¹, Richard W Kang¹, Tong-Chuan He¹, Aravind Athiviraham¹, Sherwin H Ho¹, Lewis L Shi¹.

Abstract

Investigating the cellular processes underlying tendon healing can allow researchers to improve long-term outcomes after injury. However, conducting meaningful studies to uncover the injury healing mechanism at cellular and molecular levels remains challenging. This is due to the inherent difficulty in isolating, culturing, and expanding sufficient primary tenocytes, due to their limited proliferative capacity and short lifespan. In this study, we sought to establish a novel line of immortalized mouse Achilles tenocytes (iMATs) with primary tenocyte properties, but increased proliferative capacity suitable for extensive in vitro experimentation. We show that isolated primary mouse Achilles tenocytes (pMATs) can be effectively immortalized using a piggyBac transposon expressing SV40 large T antigen flanked by FLP recombination target site (FRT). The resulting iMATs exhibit markedly greater proliferation and survival, which can be reversed with FLP recombinase. Furthermore, iMATs express the same set of tendon-specific markers as that of primary cells, although in lower levels, and respond similarly to exogenous stimulation with bone morphogenetic protein 13 (BMP13) as has been previously reported with pMATs. Taken together, our results suggest that iMATs acquire long-term proliferative capacity while maintaining tenogenic properties. We believe that iMATs are a suitable model for studying not only the native cellular processes involved in injury and healing, but also potential therapeutic agents that may augment the stability of tendon repair.

Entities: Disease Gene Species

Mesh：

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Year: 2016 PMID： 26959762 PMCID： PMC4782028 DOI： 10.1089/ten.tec.2015.0244

Source DB: PubMed Journal: Tissue Eng Part C Methods ISSN： 1937-3384 Impact factor: 3.056

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