1.Derivation and Differentiation of Bone Marrow Mesenchymal Stem Cells from Osteoarthritis Patients.
Mamdooh GARI ; Haneen ALSEHLI ; Abdullah GARI ; Mohammed ABBAS ; Mohammed ALKAFF ; Mohammed ABUZINADAH ; Fatin AL-SAYES ; Mazin GARI ; Ashraf DALLOL ; Adel M ABUZENADAH ; Kalamegam GAUTHAMAN
Tissue Engineering and Regenerative Medicine 2016;13(6):732-739
Osteoarthritis (OA) of the knee is a degenerative joint disease caused by the progressive reduction of the articular cartilage surface that leads to reduced joint function. Cartilage degeneration occurs through gradual loss in extracellular matrix components including type II collagen and proteoglycan. Due to limited inherent self repair capacity of the cartilage, the use of cell-based therapies for articular cartilage regeneration is considered promising. Bone marrow mesenchymal stem cells (BM-MSCs) are multipotent cells and are highly capable of multilineage differentiation which render them valuable for regenerative medicine. In this study, BM-MSCs were isolated from OA patients and were characterized for MSC specific CD surface marker antigens using flowcytometry and their differentiation potential into adipocytes, osteocytes and chondrocytes were evaluated using histological and gene expression studies. BM-MSCs isolated from OA patients showed short spindle shaped morphology in culture and expressed positive MSC related CD markers. They also demonstrated positive staining with oil red O, alizarin red and alcian blue following differentiation into adipocytes, osteocytes and chondrocytes, respectively. In addition, chodrogenic related genes such as collagen type II alpha1, cartilage oligomeric matrix protein, fibromodulin, and SOX9 as well as osteocytic related genes such as alkaline phosphatase, core-binding factor alpha 1, osteopontin and RUNX2 runt-related transcription factor 2 were upregulated following chondrogenic and osteogenic differentiation respectively. We have successfully isolated and characterized BM-MSCs from OA patients. Although BM-MSCs has been widely studied and their potential in regenerative medicine is reported, the present study is the first report in our series of experiments on the BMSCs isolated from OA patients at King Abdulaziz University Hospital, Jeddah, Saudi Arabia.
Adipocytes
;
Adipogenesis
;
Alcian Blue
;
Alkaline Phosphatase
;
Antigens, Differentiation
;
Bone Marrow*
;
Cartilage
;
Cartilage Oligomeric Matrix Protein
;
Cartilage, Articular
;
Chondrocytes
;
Chondrogenesis
;
Collagen Type II
;
Core Binding Factors
;
Extracellular Matrix
;
Gene Expression
;
Humans
;
Joint Diseases
;
Joints
;
Knee
;
Mesenchymal Stromal Cells*
;
Osteoarthritis*
;
Osteocytes
;
Osteogenesis
;
Osteopontin
;
Proteoglycans
;
Regeneration
;
Regenerative Medicine
;
Saudi Arabia
;
Transcription Factors
2.Combination of Mesenchymal Stem Cells, Cartilage Pellet and Bioscaffold Supported Cartilage Regeneration of a Full Thickness Articular Surface Defect in Rabbits.
Mohammed ABBAS ; Mohammed ALKAFF ; Asim JILANI ; Haneen ALSEHLI ; Laila DAMIATI ; Mamdooh KOTB ; Moahmmed ABDELWAHED ; Fahad ALGHAMDI ; Gauthaman KALAMEGAM
Tissue Engineering and Regenerative Medicine 2018;15(5):661-671
BACKGROUND: Mesenchymal stem cells (MSCs) and/or biological scaffolds have been used to regenerate articular cartilage with variable success. In the present study we evaluated cartilage regeneration using a combination of bone marrow (BM)-MSCs, Hyalofast™ and/or native cartilage tissue following full thickness surgical cartilage defect in rabbits. METHODS: Full-thickness surgical ablation of the medial-tibial cartilage was performed in New Zealand white (NZW) rabbits. Control rabbits (Group-I) received no treatment; Animals in other groups were treated as follows. Group-II: BMMSCs (1 × 10⁶ cells) + Hyalofast™; Group-III: BMMSCs (1 × 10⁶ cells) + cartilage pellet (CP); and Group-IV: BMMSCs (1 × 10⁶ cells) + Hyalofast™+ CP. Animals were sacrificed at 12 weeks and cartilage regeneration analyzed using histopathology, International Cartilage Repair Society (ICRS-II) score, magnetic resonance observation of cartilage repair tissue (MOCART) score and biomechanical studies. RESULTS: Gross images showed good tissue repair (Groups IV>III>Group II) and histology demonstrated intact superficial layer, normal chondrocyte arrangement, tidemark and cartilage matrix staining (Groups III and IV) compared to the untreated control (Group I) respectively. ICRS-II score was 52.5, 65.0, 66 and 75% (Groups I–IV) and the MOCART score was 50.0, 73.75 and 76.25 (Groups II–IV) respectively. Biomechanical properties of the regenerated cartilage tissue in Group IV closed resembled that of a normal cartilage. CONCLUSION: Hyalofast™ together with BM-MSCs and CP led to efficient cartilage regeneration following full thickness surgical ablation of tibial articular cartilage in vivo in rabbits. Presence of hyaluronic acid in the scaffold and native microenvironment cues probably facilitated differentiation and integration of BM-MSCs.
Animals
;
Bone Marrow
;
Cartilage*
;
Cartilage, Articular
;
Chondrocytes
;
Cues
;
Hyaluronic Acid
;
Mesenchymal Stromal Cells*
;
New Zealand
;
Osteoarthritis
;
Rabbits*
;
Regeneration*