Your search keyword '"Phil Jun Kang"' showing total 2 results

1. Long-term expansion of directly reprogrammed keratinocyte-like cells and in vitro reconstitution of human skin

Author

Jie Zheng, Wonjin Yun, Junghyun Park, Phil Jun Kang, Gilju Lee, Gwonhwa Song, In Yong Kim, and Seungkwon You

Subjects

Induced keratinocyte-like cells, Urine cells, Direct lineage reprogramming, Long-term expansion, Skin reconstitution, Medicine

Abstract

Abstract Background Human keratinocytes and derived products are crucial for skin repair and regeneration. Despite substantial advances in engineered skin equivalents, their poor availability and immunorejection remain major challenges in skin grafting. Methods Induced keratinocyte-like cells (iKCs) were directly reprogrammed from human urine cells by retroviral transduction of two lineage-specific transcription factors BMI1 and △NP63α (BN). Expression of keratinocyte stem cell or their differentiation markers were assessed by PCR, immunofluorescence and RNA-Sequencing. Regeneration capacity of iKCs were assessed by reconstitution of a human skin equivalent under air-interface condition. Results BN-driven iKCs were similar to primary keratinocytes (pKCs) in terms of their morphology, protein expression, differentiation potential, and global gene expression. Moreover, BN-iKCs self-assembled to form stratified skin equivalents in vitro. Conclusions This study demonstrated an approach to generate human iKCs that could be directly reprogrammed from human somatic cells and extensively expanded in serum- and feeder cell-free systems, which will facilitate their broad applicability in an efficient and patient-specific manner.

Published

2020

2. Long-term expansion of directly reprogrammed keratinocyte-like cells and in vitro reconstitution of human skin

Author

Gwonhwa Song, Seungkwon You, In Yong Kim, Phil Jun Kang, Wonjin Yun, Jie Zheng, Gilju Lee, and Junghyun Park

Subjects

Keratinocytes, Male, Induced keratinocyte-like cells, Somatic cell, Endocrinology, Diabetes and Metabolism, medicine.medical_treatment, Clinical Biochemistry, lcsh:Medicine, Human skin, Biology, In Vitro Techniques, Long-term expansion, Skin Physiological Phenomena, medicine, Humans, Pharmacology (medical), Cellular Reprogramming Techniques, Molecular Biology, Cells, Cultured, Skin repair, Skin reconstitution, Regeneration (biology), Research, Biochemistry (medical), lcsh:R, Cell Biology, General Medicine, Cellular Reprogramming, Direct lineage reprogramming, Cell biology, medicine.anatomical_structure, BMI1, Urine cells, Skin grafting, Female, Stem cell, Keratinocyte

Abstract

Background Human keratinocytes and derived products are crucial for skin repair and regeneration. Despite substantial advances in engineered skin equivalents, their poor availability and immunorejection remain major challenges in skin grafting. Methods Induced keratinocyte-like cells (iKCs) were directly reprogrammed from human urine cells by retroviral transduction of two lineage-specific transcription factors BMI1 and △NP63α (BN). Expression of keratinocyte stem cell or their differentiation markers were assessed by PCR, immunofluorescence and RNA-Sequencing. Regeneration capacity of iKCs were assessed by reconstitution of a human skin equivalent under air-interface condition. Results BN-driven iKCs were similar to primary keratinocytes (pKCs) in terms of their morphology, protein expression, differentiation potential, and global gene expression. Moreover, BN-iKCs self-assembled to form stratified skin equivalents in vitro. Conclusions This study demonstrated an approach to generate human iKCs that could be directly reprogrammed from human somatic cells and extensively expanded in serum- and feeder cell-free systems, which will facilitate their broad applicability in an efficient and patient-specific manner.

Published

2020