Literature DB >> 28864934

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

Daniele Bellavia1,2, F Veronesi3, V Carina4,5, V Costa4,5, L Raimondi4,5, A De Luca4,5, R Alessandro6, M Fini3, G Giavaresi5,3.   

Abstract

Gene therapy might represent a promising strategy for chondral and osteochondral defects repair by balancing the management of temporary joint mechanical incompetence with altered metabolic and inflammatory homeostasis. This review analysed preclinical and clinical studies on gene therapy for the repair of articular cartilage defects performed over the last 10 years, focussing on expression vectors (non-viral and viral), type of genes delivered and gene therapy procedures (direct or indirect). Plasmids (non-viral expression vectors) and adenovirus (viral vectors) were the most employed vectors in preclinical studies. Genes delivered encoded mainly for growth factors, followed by transcription factors, anti-inflammatory cytokines and, less frequently, by cell signalling proteins, matrix proteins and receptors. Direct injection of the expression vector was used less than indirect injection of cells, with or without scaffolds, transduced with genes of interest and then implanted into the lesion site. Clinical trials (phases I, II or III) on safety, biological activity, efficacy, toxicity or bio-distribution employed adenovirus viral vectors to deliver growth factors or anti-inflammatory cytokines, for the treatment of osteoarthritis or degenerative arthritis, and tumour necrosis factor receptor or interferon for the treatment of inflammatory arthritis.

Entities:  

Keywords:  Cartilage repair; Expression vectors; Gene therapy procedures; Osteoarthritis; Regenerative medicine

Mesh:

Year:  2017        PMID: 28864934     DOI: 10.1007/s00018-017-2637-3

Source DB:  PubMed          Journal:  Cell Mol Life Sci        ISSN: 1420-682X            Impact factor:   9.261


  101 in total

1.  Regulation of human chondrocyte function through direct inhibition of cartilage master regulator SOX9 by microRNA-145 (miRNA-145).

Authors:  Aida Martinez-Sanchez; Katarzyna A Dudek; Chris L Murphy
Journal:  J Biol Chem       Date:  2011-11-18       Impact factor: 5.157

2.  Transplanted articular chondrocytes co-overexpressing IGF-I and FGF-2 stimulate cartilage repair in vivo.

Authors:  Patrick Orth; Gunter Kaul; Magali Cucchiarini; David Zurakowski; Michael D Menger; Dieter Kohn; Henning Madry
Journal:  Knee Surg Sports Traumatol Arthrosc       Date:  2011-02-25       Impact factor: 4.342

Review 3.  Clinical use of bone marrow, bone marrow concentrate, and expanded bone marrow mesenchymal stem cells in cartilage disease.

Authors:  Francesca Veronesi; Gianluca Giavaresi; Matilde Tschon; Veronica Borsari; Nicolò Nicoli Aldini; Milena Fini
Journal:  Stem Cells Dev       Date:  2012-11-16       Impact factor: 3.272

4.  Intra-articular gene delivery and expression of interleukin-1Ra mediated by self-complementary adeno-associated virus.

Authors:  Jesse D Kay; Elvire Gouze; Thomas J Oligino; Jean-Noel Gouze; Rachael S Watson; Padraic P Levings; Marsha L Bush; Anthony Dacanay; David M Nickerson; Paul D Robbins; Christopher H Evans; Steven C Ghivizzani
Journal:  J Gene Med       Date:  2009-07       Impact factor: 4.565

Review 5.  Articular cartilage repair: basic science and clinical progress. A review of the current status and prospects.

Authors:  E B Hunziker
Journal:  Osteoarthritis Cartilage       Date:  2002-06       Impact factor: 6.576

6.  IGF-1 gene therapy to protect articular cartilage in a rat model of joint damage.

Authors:  Iñigo Izal; Carlos Alberto Acosta; Purificación Ripalda; Mikel Zaratiegui; Juan Ruiz; Francisco Forriol
Journal:  Arch Orthop Trauma Surg       Date:  2007-07-28       Impact factor: 3.067

7.  Indian hedgehog gene transfer is a chondrogenic inducer of human mesenchymal stem cells.

Authors:  Andre F Steinert; Manuel Weissenberger; Manuela Kunz; Fabian Gilbert; Steven C Ghivizzani; Sascha Göbel; Franz Jakob; Ulrich Nöth; Maximilian Rudert
Journal:  Arthritis Res Ther       Date:  2012-07-20       Impact factor: 5.156

8.  Human Articular Cartilage Progenitor Cells Are Responsive to Mechanical Stimulation and Adenoviral-Mediated Overexpression of Bone-Morphogenetic Protein 2.

Authors:  Alexander J Neumann; Oliver F W Gardner; Rebecca Williams; Mauro Alini; Charles W Archer; Martin J Stoddart
Journal:  PLoS One       Date:  2015-08-20       Impact factor: 3.240

9.  Demineralized bone matrix combined bone marrow mesenchymal stem cells, bone morphogenetic protein-2 and transforming growth factor-β3 gene promoted pig cartilage defect repair.

Authors:  Xin Wang; Yanlin Li; Rui Han; Chuan He; Guoliang Wang; Jianwei Wang; Jiali Zheng; Ming Pei; Mei Pei; Lei Wei
Journal:  PLoS One       Date:  2014-12-29       Impact factor: 3.240

10.  The superior regenerative potential of muscle-derived stem cells for articular cartilage repair is attributed to high cell survival and chondrogenic potential.

Authors:  Hongshuai Li; Aiping Lu; Ying Tang; Sarah Beckman; Naoki Nakayama; Minakshi Poddar; MaCalus V Hogan; Johnny Huard
Journal:  Mol Ther Methods Clin Dev       Date:  2016-11-30       Impact factor: 6.698
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  16 in total

Review 1.  Current Trends in Viral Gene Therapy for Human Orthopaedic Regenerative Medicine.

Authors:  Jagadeesh Kumar Venkatesan; Ana Rey-Rico; Magali Cucchiarini
Journal:  Tissue Eng Regen Med       Date:  2019-02-21       Impact factor: 4.169

Review 2.  Engineering Closed-Loop, Autoregulatory Gene Circuits for Osteoarthritis Cell-Based Therapies.

Authors:  Rhima M Coleman
Journal:  Curr Rheumatol Rep       Date:  2022-04-11       Impact factor: 4.592

Review 3.  Integrated gradient tissue-engineered osteochondral scaffolds: Challenges, current efforts and future perspectives.

Authors:  Xiaolian Niu; Ning Li; Zhipo Du; Xiaoming Li
Journal:  Bioact Mater       Date:  2022-07-01

Review 4.  Multimodal approach to intraarticular drug delivery in knee osteoarthritis.

Authors:  Tsvetoslav Georgiev
Journal:  Rheumatol Int       Date:  2020-08-16       Impact factor: 2.631

Review 5.  Where is human-based cellular pharmaceutical R&D taking us in cartilage regeneration?

Authors:  Damla Alkaya; Cansu Gurcan; Pelin Kilic; Acelya Yilmazer; Gunhan Gurman
Journal:  3 Biotech       Date:  2020-03-06       Impact factor: 2.406

6.  Gene Therapy for Osteoarthritis: Pharmacokinetics of Intra-Articular Self-Complementary Adeno-Associated Virus Interleukin-1 Receptor Antagonist Delivery in an Equine Model.

Authors:  Rachael S Watson Levings; Ted A Broome; Andrew D Smith; Brett L Rice; Eric P Gibbs; David A Myara; E Viktoria Hyddmark; Elham Nasri; Ali Zarezadeh; Padraic P Levings; Yuan Lu; Margaret E White; E Anthony Dacanay; Gregory B Foremny; Christopher H Evans; Alison J Morton; Mathew Winter; Michael J Dark; David M Nickerson; Patrick T Colahan; Steven C Ghivizzani
Journal:  Hum Gene Ther Clin Dev       Date:  2018-06       Impact factor: 5.032

Review 7.  Tissue Engineering Strategies to Increase Osteochondral Regeneration of Stem Cells; a Close Look at Different Modalities.

Authors:  Hamid Tayefi Nasrabadi; Ali Baradar Khoshfetrat; Reza Rahbarghazi; Sepideh Saghati; Keyvan Moharamzadeh; Ayla Hassani; Seyedeh Momeneh Mohammadi; Sonia Fathi Karkan
Journal:  Stem Cell Rev Rep       Date:  2021-02-05       Impact factor: 6.692

Review 8.  Understanding Chinese Medicine Patterns of Rheumatoid Arthritis and Related Biomarkers.

Authors:  Susana Seca; Giovanna Franconi
Journal:  Medicines (Basel)       Date:  2018-02-03

Review 9.  Repair of Damaged Articular Cartilage: Current Approaches and Future Directions.

Authors:  Ekaterina V Medvedeva; Ekaterina A Grebenik; Svetlana N Gornostaeva; Vladimir I Telpuhov; Aleksey V Lychagin; Peter S Timashev; Andrei S Chagin
Journal:  Int J Mol Sci       Date:  2018-08-11       Impact factor: 5.923

10.  Cytokine-induced interleukin-1 receptor antagonist protein expression in genetically engineered equine mesenchymal stem cells for osteoarthritis treatment.

Authors:  Simone Gabner; Reinhard Ertl; Karsten Velde; Matthias Renner; Florien Jenner; Monika Egerbacher; Juraj Hlavaty
Journal:  J Gene Med       Date:  2018-04-22       Impact factor: 4.565
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