Literature DB >> 24749845

Chondrogenic differentiation of mesenchymal stem cells: challenges and unfulfilled expectations.

Rodrigo A Somoza1, Jean F Welter, Diego Correa, Arnold I Caplan.   

Abstract

Articular cartilage repair and regeneration provides a substantial challenge in Regenerative Medicine because of the high degree of morphological and mechanical complexity intrinsic to hyaline cartilage due, in part, to its extracellular matrix. Cartilage remains one of the most difficult tissues to heal; even state-of-the-art regenerative medicine technology cannot yet provide authentic cartilage resurfacing. Mesenchymal stem cells (MSCs) were once believed to be the panacea for cartilage repair and regeneration, but despite years of research, they have not fulfilled these expectations. It has been observed that MSCs have an intrinsic differentiation program reminiscent of endochondral bone formation, which they follow after exposure to specific reagents as a part of current differentiation protocols. Efforts have been made to avoid the resulting hypertrophic fate of MSCs; however, so far, none of these has recreated a fully functional articular hyaline cartilage without chondrocytes exhibiting a hypertrophic phenotype. We reviewed the current literature in an attempt to understand why MSCs have failed to regenerate articular cartilage. The challenges that must be overcome before MSC-based tissue engineering can become a front-line technology for successful articular cartilage regeneration are highlighted.

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Year:  2014        PMID: 24749845      PMCID: PMC4241862          DOI: 10.1089/ten.TEB.2013.0771

Source DB:  PubMed          Journal:  Tissue Eng Part B Rev        ISSN: 1937-3368            Impact factor:   6.389


  144 in total

1.  Micromass co-culture of human articular chondrocytes and human bone marrow mesenchymal stem cells to investigate stable neocartilage tissue formation in vitro.

Authors:  S Giovannini; J Diaz-Romero; T Aigner; P Heini; P Mainil-Varlet; D Nesic
Journal:  Eur Cell Mater       Date:  2010-10-05       Impact factor: 3.942

2.  Trophic effects of mesenchymal stem cells increase chondrocyte proliferation and matrix formation.

Authors:  Ling Wu; Jeroen C H Leijten; Nicole Georgi; Janine N Post; Clemens A van Blitterswijk; Marcel Karperien
Journal:  Tissue Eng Part A       Date:  2011-02-28       Impact factor: 3.845

3.  Chondrogenesis and mineralization during in vitro culture of human mesenchymal stem cells on three-dimensional woven scaffolds.

Authors:  Christoffer K Abrahamsson; Fan Yang; Hyoungshin Park; Jonathan M Brunger; Piia K Valonen; Robert Langer; Jean F Welter; Arnold I Caplan; Farshid Guilak; Lisa E Freed
Journal:  Tissue Eng Part A       Date:  2010-09-06       Impact factor: 3.845

4.  Direct and progressive differentiation of human embryonic stem cells into the chondrogenic lineage.

Authors:  Guochun Gong; Deborah Ferrari; Caroline N Dealy; Robert A Kosher
Journal:  J Cell Physiol       Date:  2010-09       Impact factor: 6.384

5.  Chondrocyte differentiation in human osteoarthritis: expression of osteocalcin in normal and osteoarthritic cartilage and bone.

Authors:  O Pullig; G Weseloh; D Ronneberger; S Käkönen; B Swoboda
Journal:  Calcif Tissue Int       Date:  2000-09       Impact factor: 4.333

6.  Comparison of human stem cells derived from various mesenchymal tissues: superiority of synovium as a cell source.

Authors:  Yusuke Sakaguchi; Ichiro Sekiya; Kazuyoshi Yagishita; Takeshi Muneta
Journal:  Arthritis Rheum       Date:  2005-08

7.  Premature induction of hypertrophy during in vitro chondrogenesis of human mesenchymal stem cells correlates with calcification and vascular invasion after ectopic transplantation in SCID mice.

Authors:  Karoliina Pelttari; Anja Winter; Eric Steck; Katrin Goetzke; Thea Hennig; Bjoern Gunnar Ochs; Thomas Aigner; Wiltrud Richter
Journal:  Arthritis Rheum       Date:  2006-10

8.  Microvascular pericytes express aggrecan message which is regulated by BMP-2.

Authors:  D L Diefenderfer; C T Brighton
Journal:  Biochem Biophys Res Commun       Date:  2000-03-05       Impact factor: 3.575

9.  Identification and clonal characterisation of a progenitor cell sub-population in normal human articular cartilage.

Authors:  Rebecca Williams; Ilyas M Khan; Kirsty Richardson; Larissa Nelson; Helen E McCarthy; Talal Analbelsi; Sim K Singhrao; Gary P Dowthwaite; Rhiannon E Jones; Duncan M Baird; Holly Lewis; Selwyn Roberts; Hannah M Shaw; Jayesh Dudhia; John Fairclough; Timothy Briggs; Charles W Archer
Journal:  PLoS One       Date:  2010-10-14       Impact factor: 3.240

10.  New insights into osteogenic and chondrogenic differentiation of human bone marrow mesenchymal stem cells and their potential clinical applications for bone regeneration in pediatric orthopaedics.

Authors:  Nicola Giuliani; Gina Lisignoli; Marina Magnani; Costantina Racano; Marina Bolzoni; Benedetta Dalla Palma; Angelica Spolzino; Cristina Manferdini; Caterina Abati; Denise Toscani; Andrea Facchini; Franco Aversa
Journal:  Stem Cells Int       Date:  2013-05-23       Impact factor: 5.443
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  100 in total

1.  Microsphere-based scaffolds encapsulating chondroitin sulfate or decellularized cartilage.

Authors:  Vineet Gupta; Kevin M Tenny; Marilyn Barragan; Cory J Berkland; Michael S Detamore
Journal:  J Biomater Appl       Date:  2016-06-29       Impact factor: 2.646

Review 2.  The role of laminins in cartilaginous tissues: from development to regeneration.

Authors:  Y Sun; T L Wang; W S Toh; M Pei
Journal:  Eur Cell Mater       Date:  2017-07-21       Impact factor: 3.942

Review 3.  From Skeletal Development to Tissue Engineering: Lessons from the Micromass Assay.

Authors:  Darinka D Klumpers; David J Mooney; Theo H Smit
Journal:  Tissue Eng Part B Rev       Date:  2015-06-25       Impact factor: 6.389

4.  Core-shell microparticles for protein sequestration and controlled release of a protein-laden core.

Authors:  Torri E Rinker; Brandon D Philbrick; Johnna S Temenoff
Journal:  Acta Biomater       Date:  2016-12-21       Impact factor: 8.947

5.  Fibro/chondrogenic differentiation of dental stem cells into chitosan/alginate scaffolds towards temporomandibular joint disc regeneration.

Authors:  Maria Bousnaki; Athina Bakopoulou; Danai Papadogianni; Nektaria-Marianthi Barkoula; Kalliopi Alpantaki; Aristidis Kritis; Maria Chatzinikolaidou; Petros Koidis
Journal:  J Mater Sci Mater Med       Date:  2018-06-26       Impact factor: 3.896

6.  Cell therapy for cartilage defects of the hip.

Authors:  Rodrigo Mardones; Alessio Giai Via; Claudio Jofré; José Minguell; Claudio Rodriguez; Alexander Tomic; Matias Salineros
Journal:  Muscles Ligaments Tendons J       Date:  2016-12-21

Review 7.  Surgical and tissue engineering strategies for articular cartilage and meniscus repair.

Authors:  Heenam Kwon; Wendy E Brown; Cassandra A Lee; Dean Wang; Nikolaos Paschos; Jerry C Hu; Kyriacos A Athanasiou
Journal:  Nat Rev Rheumatol       Date:  2019-07-11       Impact factor: 20.543

Review 8.  Gene therapy for chondral and osteochondral regeneration: is the future now?

Authors:  Daniele Bellavia; F Veronesi; V Carina; V Costa; L Raimondi; A De Luca; R Alessandro; M Fini; G Giavaresi
Journal:  Cell Mol Life Sci       Date:  2017-09-01       Impact factor: 9.261

9.  Genetic Engineering of Mesenchymal Stem Cells for Differential Matrix Deposition on 3D Woven Scaffolds.

Authors:  Nguyen P T Huynh; Jonathan M Brunger; Catherine C Gloss; Franklin T Moutos; Charles A Gersbach; Farshid Guilak
Journal:  Tissue Eng Part A       Date:  2018-07-13       Impact factor: 3.845

Review 10.  Current Concepts in Meniscus Tissue Engineering and Repair.

Authors:  Bahar Bilgen; Chathuraka T Jayasuriya; Brett D Owens
Journal:  Adv Healthc Mater       Date:  2018-03-15       Impact factor: 9.933
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