The Role of Fragmented Adipose Mesenchymal Stem Cells in Vitro Therapy for Human Hepatoma Cell Line Growth
Atia, M., Sallam, E., Abdel-Tawab, H., Alghriany, A. (2022). The Role of Fragmented Adipose Mesenchymal Stem Cells in Vitro Therapy for Human Hepatoma Cell Line Growth. EKB Journal Management System, 1(1), 73-94. doi: 10.21608/aunj.2022.138653.1011
Mona M Atia; Ebtehal Taha Sallam; Hanem S Abdel-Tawab; Alshaimaa Ahmed Alghriany. "The Role of Fragmented Adipose Mesenchymal Stem Cells in Vitro Therapy for Human Hepatoma Cell Line Growth". EKB Journal Management System, 1, 1, 2022, 73-94. doi: 10.21608/aunj.2022.138653.1011
Atia, M., Sallam, E., Abdel-Tawab, H., Alghriany, A. (2022). 'The Role of Fragmented Adipose Mesenchymal Stem Cells in Vitro Therapy for Human Hepatoma Cell Line Growth', EKB Journal Management System, 1(1), pp. 73-94. doi: 10.21608/aunj.2022.138653.1011
Atia, M., Sallam, E., Abdel-Tawab, H., Alghriany, A. The Role of Fragmented Adipose Mesenchymal Stem Cells in Vitro Therapy for Human Hepatoma Cell Line Growth. EKB Journal Management System, 2022; 1(1): 73-94. doi: 10.21608/aunj.2022.138653.1011

The Role of Fragmented Adipose Mesenchymal Stem Cells in Vitro Therapy for Human Hepatoma Cell Line Growth

Assiut University Journal of Multidisciplinary Scientific Research
Volume 1, Issue 1, 2022, Page 73-94  XML PDF (1.37 MB)
Document Type: Novel Research Articles
DOI: 10.21608/aunj.2022.138653.1011
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Authors
Mona M Atia email orcid 1; Ebtehal Taha Sallam2; Hanem S Abdel-Tawab3; Alshaimaa Ahmed Alghrianyorcid 3
1Zoology department, faculty of science, Assuit university , Egypt
2Department of Biology, Faculty of Education, Taiz University, Yemen.
3Zoology Department, Faculty of Science, Assiut University, Egypt
Abstract
Background: Stem cells (SCs) from adipose tissue are being studied as part of regenerative medicine and used in vitro tissue engineering. Aim: The study goal was to highlight the modifications of fragmented adipose mesenchymal stem cells (AD-MSCs) on human hepatoma cell lines (HepG2 and Huh7) by inducing cell death (either apoptosis or necrosis). Materials and Methods: This study explains the methods of isolating, identifying, and characterization of fragmented frozen AD-MSCs. Also, investigate the phenotype of AD-MSCs culturing cells obtained in Passage 3 using CD105 & CD90 as positive markers and CD45 as a negative marker. Two Hepatoma cell line (HCC) cell lines were cultured in RPMI 1640/10%. The viability and apoptosis of the HCC cell line were evaluated by MTT and AO/EB methods, respectively. Results: Showed that, compared to CD45, the percentages of brown dots in the AD-MSC nucleus and cytoplasm increased for CD105 and CD90. HepG2 and Huh7 cells' growth and apoptosis were affected by the perceived seeding of fragmented AD-MSCs. Also, increasing the fragmented AD-MSC concentration (from 1:15 μl for 24 h to 1:30 μl for 48 h) in vitro decreased HCC cell line viability, in which Huh7 was more susceptible than HepG2 after 24–48 h of incubation time (p < 0.001), as assessed by MTT. Moreover, cell counting by AO/EB assays appeared to initiate cell death, which increased in Huh7 cells compared to HepG2 cells. Conclusion: New evidence suggests that fragmented AD-MSCs could be highly efficient in preventing carcinogenesis by inducing apoptosis in HCC cell lines.
Keywords
AD-MSCs; HepG2; Huh7 cell line; Apoptosis; Necrosis
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