Efficient Generation of Chondrocytes From Bone Marrow–Derived Mesenchymal Stem Cells in a 3D Culture System : Protocol for a Practical Model for Assessing Anti-Inflammatory Therapies

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Patnaik, RajashreeMohammed Bin Rashid University of Medicine and Health Sciences (author)

Efficient Generation of Chondrocytes From Bone Marrow–Derived Mesenchymal Stem Cells in a 3D Culture System : Protocol for a Practical Model for Assessing Anti-Inflammatory Therapies

Article/chapterEnglish2023

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2023

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LIBRIS-ID:oai:lup.lub.lu.se:5600599a-7b16-4583-8827-db133759649e
https://lup.lub.lu.se/record/5600599a-7b16-4583-8827-db133759649eURI
https://doi.org/10.2196/42964DOI

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Language:English
Summary in:English

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Background: Chondrocytes are the primary cells responsible for maintaining cartilage integrity and function. Their role in cartilage homeostasis and response to inflammation is crucial for understanding the progression and potential therapeutic interventions for various cartilage-related disorders. Developing an accessible and cost-effective model to generate viable chondrocytes and to assess their response to different bioactive compounds can significantly advance our knowledge of cartilage biology and contribute to the discovery of novel therapeutic approaches. Objective: We developed a novel, streamlined protocol for generating chondrocytes from bone marrow–derived mesenchymal stem cells (BMSCs) in a 3D culture system that offers significant implications for the study of cartilage biology and the discovery of potential therapeutic interventions for cartilage-related and associated disorders. Methods: We developed a streamlined protocol for generating chondrocytes from BMSCs in a 3D culture system using an “in-tube” culture approach. This simple pellet-based 3D culture system allows for cell aggregation and spheroid formation, facilitating cell-cell and cell–extracellular matrix interactions that better mimic the in vivo cellular environment compared with 2D monolayer cultures. A proinflammatory chondrocyte model was created by treating the chondrocytes with lipopolysaccharide and was subsequently used to evaluate the anti-inflammatory effects of vitamin D, curcumin, and resveratrol. Results: The established protocol successfully generated a large quantity of viable chondrocytes, characterized by alcian blue and toluidine blue staining, and demonstrated versatility in assessing the anti-inflammatory effects of various bioactive compounds. The chondrocytes exhibited reduced inflammation, as evidenced by the decreased tumor necrosis factor-α levels, in response to vitamin D, curcumin, and resveratrol treatment. Conclusions: Our novel protocol offers an accessible and cost-effective approach for generating chondrocytes from BMSCs and for evaluating potential therapeutic leads in the context of inflammatory chondrocyte–related diseases. Although our approach has several advantages, further investigation is required to address its limitations, such as the potential differences between chondrocytes generated using our protocol and those derived from other established methods, and to refine the model for broader applicability and clinical translation.

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Jannati, ShirinMohammed Bin Rashid University of Medicine and Health Sciences (author)
Sivani, Bala MohanLund University,Lunds universitet,Institutionen för experimentell medicinsk vetenskap,Medicinska fakulteten,Department of Experimental Medical Science,Faculty of Medicine(Swepub:lu)si8834ba (author)
Rizzo, ManfrediMohammed Bin Rashid University of Medicine and Health Sciences (author)
Naidoo, NerissaMohammed Bin Rashid University of Medicine and Health Sciences (author)
Banerjee, YajnavalkaMohammed Bin Rashid University of Medicine and Health Sciences (author)
Mohammed Bin Rashid University of Medicine and Health SciencesInstitutionen för experimentell medicinsk vetenskap (creator_code:org_t)

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In:JMIR Research Protocols121929-0748

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