Characterization of the cell growth analysis for detection of immortal cellular impurities in human mesenchymal stem cells
Biologicals : journal of the International Association of Biological Standardization
Short Title:
Biologicals
Format:
Journal Article
Publication Date:
Nov 30, 2014
Pages:
146 - 149
Sources ID:
40501
Notes:
LR: 20150309; CI: Copyright (c) 2014; JID: 9004494; OTO: NOTNLM; 2014/10/01 00:00 [received]; 2014/11/13 00:00 [revised]; 2014/11/24 00:00 [accepted]; 2014/12/20 06:00 [entrez]; 2014/12/20 06:00 [pubmed]; 2015/12/15 06:00 [medline]; ppublish
Collection:
Yoga-Based Interventions for Cancer Treatment
Visibility:
Public (group default)
Abstract:
(Show)
The analysis of in vitro cell senescence/growth after serial passaging can be one of ways to show the absence of immortalized cells, which are frequently tumorigenic, in human cell-processed therapeutic products (hCTPs). However, the performance of the cell growth analysis for detection of the immortalized cellular impurities has never been evaluated. In the present study, we examined the growth rates of human mesenchymal stem cells (hMSCs, passage 5 (P = 5)) contaminated with various doses of HeLa cells, and compared with that of hMSCs alone. The growth rates of the contaminated hMSCs were comparable to that of hMSCs alone at P = 5, but significantly increased at P = 6 (0.1% and 0.01% HeLa) or P = 7 (0.001% HeLa) within 30 days. These findings suggest that the cell growth analysis is a simple and sensitive method to detect immortalized cellular impurities in hCTPs derived from human somatic cells.