Nai‐Chen Cheng scite author profile

Adipose-derived adult stem cells (ASCs) have the ability to differentiate into a chondrogenic phenotype in response to specific environmental signals such as growth factors or artificial biomaterial scaffolds. In this study, we examined the hypothesis that a porous scaffold derived exclusively from articular cartilage can induce chondrogenesis of ASCs. Human ASCs were seeded on porous scaffolds derived from adult porcine articular cartilage and cultured in standard medium without exogenous growth factors. Chondrogenesis of ASCs seeded within the scaffold was evident by quantitative RT-PCR analysis for cartilage-specific extracellular matrix (ECM) genes. Histological and immunohistochemical examination showed abundant production of cartilage-specific ECM components-particularly, type II collagen-after 4 or 6 weeks of culture. After 6 weeks of culture, the cellular morphology in the ASC-seeded constructs resembled those in native articular cartilage tissue, with rounded cells residing in the glycosaminoglycan-rich regions of the scaffolds. Biphasic mechanical testing showed that the aggregate modulus of the ASC-seeded constructs increased over time, reaching 150 kPa by day 42, more than threefold higher than that of the unseeded controls. These results suggest that a porous scaffold derived from articular cartilage has the ability to induce chondrogenic differentiation of ASCs without exogenous growth factors, with significant synthesis and accumulation of ECM macromolecules, and the development of mechanical properties approaching those of native cartilage. These findings support the potential for a processed cartilage ECM as a biomaterial scaffold for cartilage tissue engineering. Additional in vivo evaluation is necessary to fully recognize the clinical implication of these observations.

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Biofilms in Chronic Wounds: Pathogenesis and Diagnosis

Cheng

2019

Trends in Biotechnology

316

245

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Short-Term Spheroid Formation Enhances the Regenerative Capacity of Adipose-Derived Stem Cells by Promoting Stemness, Angiogenesis, and Chemotaxis

et al. 2013

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Adipose-derived stem cells (ASCs) represent an important source of mesenchymal stem cells for clinical application. During in vitro culture, ASCs quickly lose the expression of transcription factors associated with pluripotency and self-renewal (Sox-2, Oct-4, and Nanog) and CXCR4, the key receptor responsible for stem cell homing. To enhance their therapeutic potential despite in vitro passages, we examined whether ASCs exhibit superior regenerative capacity by expanding them in monolayers following short-term spheroid formation. Spheroid-derived ASCs retained the expression pattern of cell surface markers and adipogenic/osteogenic differentiation capabilities of ASCs constantly cultured in monolayers. However, spheroid-derived ASCs exhibited higher expansion efficiency with less senescence. Moreover, spheroid-derived ASCs expressed significantly higher levels of pluripotency markers, CXCR4, and angiogenic growth factors. Enhanced in vitro migration, associated with the increased expression of matrix metalloproteinases (MMP-9 and MMP-13), was also observed in spheroid-derived ASCs. The enhanced migration and MMP expression could be inhibited by a CXCR4-specific peptide antagonist, AMD3100. Using a murine model with healingimpaired cutaneous wounds, we observed faster healing and enhanced angiogenesis in the wounds treated with spheroid-derived ASCs. Significantly more cellular engraftment of spheroid-derived ASCs in the cutaneous wound tissue was also noted, with evidence of ASC differentiation toward endothelial and epidermal lineages. These findings suggest that short-term spheroid formation of ASCs before monolayer culture enhances their properties of stemness, angiogenesis, and chemotaxis and thereby increases their regenerative potential for therapeutic use. STEM CELLS TRANSLATIONAL MEDICINE 2013;2:584 -594

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Nai‐Chen Cheng

The influence of spheroid formation of human adipose-derived stem cells on chitosan films on stemness and differentiation capabilities

Chondrogenic Differentiation of Adipose-Derived Adult Stem Cells by a Porous Scaffold Derived from Native Articular Cartilage Extracellular Matrix

Biofilms in Chronic Wounds: Pathogenesis and Diagnosis

Short-Term Spheroid Formation Enhances the Regenerative Capacity of Adipose-Derived Stem Cells by Promoting Stemness, Angiogenesis, and Chemotaxis

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