Human telomerase reverse transcriptase and glucose-regulated protein 78 increase the life span of articular chondrocytes and their repair potential

Human telomerase reverse transcriptase and glucose-regulated protein 78 increase the life span of articular chondrocytes and their repair potential

<p>Abstract</p> <p>Background</p> <p>Like all mammalian cells, normal adult chondrocytes have a limited replicative life span, which decreases with age. To facilitate the therapeutic use of chondrocytes from older donors, a method is needed to prolong their life span.&l...

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Main Authors: Sato Masato, Shin-ya Kazuo, Lee Jeong Ik, Ishihara Miya, Nagai Toshihiro, Kaneshiro Nagatoshi, Mitani Genya, Tahara Hidetoshi, Mochida Joji
Format: Article
Language:English
Published: BMC 2012-04-01
Series:BMC Musculoskeletal Disorders
Online Access:http://www.biomedcentral.com/1471-2474/13/51
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spelling doaj-5e2299f501884a0982e53730ae06a2f22020-11-24T20:54:15ZengBMCBMC Musculoskeletal Disorders1471-24742012-04-011315110.1186/1471-2474-13-51Human telomerase reverse transcriptase and glucose-regulated protein 78 increase the life span of articular chondrocytes and their repair potentialSato MasatoShin-ya KazuoLee Jeong IkIshihara MiyaNagai ToshihiroKaneshiro NagatoshiMitani GenyaTahara HidetoshiMochida Joji<p>Abstract</p> <p>Background</p> <p>Like all mammalian cells, normal adult chondrocytes have a limited replicative life span, which decreases with age. To facilitate the therapeutic use of chondrocytes from older donors, a method is needed to prolong their life span.</p> <p>Methods</p> <p>We transfected chondrocytes with hTERT or GRP78 and cultured them in a 3-dimensional atelocollagen honeycomb-shaped scaffold with a membrane seal. Then, we measured the amount of nuclear DNA and glycosaminoglycans (GAGs) and the expression level of type II collagen as markers of cell proliferation and extracellular matrix formation, respectively, in these cultures. In addition, we allografted this tissue-engineered cartilage into osteochondral defects in old rabbits to assess their repair activity in vivo.</p> <p>Results</p> <p>Our results showed different degrees of differentiation in terms of GAG content between chondrocytes from old and young rabbits. Chondrocytes that were cotransfected with hTERT and GRP78 showed higher cellular proliferation and expression of type II collagen than those of nontransfected chondrocytes, regardless of the age of the cartilage donor. In addition, the in vitro growth rates of hTERT- or GRP78-transfected chondrocytes were higher than those of nontransfected chondrocytes, regardless of donor age. In vivo, the tissue-engineered cartilage implants exhibited strong repairing activity, maintained a chondrocyte-specific phenotype, and produced extracellular matrix components.</p> <p>Conclusions</p> <p>Focal gene delivery to aged articular chondrocytes exhibited strong repairing activity and may be therapeutically useful for articular cartilage regeneration.</p> http://www.biomedcentral.com/1471-2474/13/51
collection DOAJ
language English
format Article
sources DOAJ
author Sato Masato
Shin-ya Kazuo
Lee Jeong Ik
Ishihara Miya
Nagai Toshihiro
Kaneshiro Nagatoshi
Mitani Genya
Tahara Hidetoshi
Mochida Joji
spellingShingle Sato Masato
Shin-ya Kazuo
Lee Jeong Ik
Ishihara Miya
Nagai Toshihiro
Kaneshiro Nagatoshi
Mitani Genya
Tahara Hidetoshi
Mochida Joji
Human telomerase reverse transcriptase and glucose-regulated protein 78 increase the life span of articular chondrocytes and their repair potential
BMC Musculoskeletal Disorders
author_facet Sato Masato
Shin-ya Kazuo
Lee Jeong Ik
Ishihara Miya
Nagai Toshihiro
Kaneshiro Nagatoshi
Mitani Genya
Tahara Hidetoshi
Mochida Joji
author_sort Sato Masato
title Human telomerase reverse transcriptase and glucose-regulated protein 78 increase the life span of articular chondrocytes and their repair potential
title_short Human telomerase reverse transcriptase and glucose-regulated protein 78 increase the life span of articular chondrocytes and their repair potential
title_full Human telomerase reverse transcriptase and glucose-regulated protein 78 increase the life span of articular chondrocytes and their repair potential
title_fullStr Human telomerase reverse transcriptase and glucose-regulated protein 78 increase the life span of articular chondrocytes and their repair potential
title_full_unstemmed Human telomerase reverse transcriptase and glucose-regulated protein 78 increase the life span of articular chondrocytes and their repair potential
title_sort human telomerase reverse transcriptase and glucose-regulated protein 78 increase the life span of articular chondrocytes and their repair potential
publisher BMC
series BMC Musculoskeletal Disorders
issn 1471-2474
publishDate 2012-04-01
description <p>Abstract</p> <p>Background</p> <p>Like all mammalian cells, normal adult chondrocytes have a limited replicative life span, which decreases with age. To facilitate the therapeutic use of chondrocytes from older donors, a method is needed to prolong their life span.</p> <p>Methods</p> <p>We transfected chondrocytes with hTERT or GRP78 and cultured them in a 3-dimensional atelocollagen honeycomb-shaped scaffold with a membrane seal. Then, we measured the amount of nuclear DNA and glycosaminoglycans (GAGs) and the expression level of type II collagen as markers of cell proliferation and extracellular matrix formation, respectively, in these cultures. In addition, we allografted this tissue-engineered cartilage into osteochondral defects in old rabbits to assess their repair activity in vivo.</p> <p>Results</p> <p>Our results showed different degrees of differentiation in terms of GAG content between chondrocytes from old and young rabbits. Chondrocytes that were cotransfected with hTERT and GRP78 showed higher cellular proliferation and expression of type II collagen than those of nontransfected chondrocytes, regardless of the age of the cartilage donor. In addition, the in vitro growth rates of hTERT- or GRP78-transfected chondrocytes were higher than those of nontransfected chondrocytes, regardless of donor age. In vivo, the tissue-engineered cartilage implants exhibited strong repairing activity, maintained a chondrocyte-specific phenotype, and produced extracellular matrix components.</p> <p>Conclusions</p> <p>Focal gene delivery to aged articular chondrocytes exhibited strong repairing activity and may be therapeutically useful for articular cartilage regeneration.</p>
url http://www.biomedcentral.com/1471-2474/13/51
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