Gene probes to detect cross-culture contamination in hormone producing cell lines

Summary Cross-culture contamination of cell lines propagated in continuous culture is a frequent event and particularly difficult to resolve in cells expressing similar phenotypes. We demonstrate that DNA-DNA hybridization to blotted endonuclease-digested cell DNA effectively detects cross-culture contamination to monitor inter-species as well as intra-species cross contamination. An insulin-producing cell-line, Clone-16, originally cloned from a human fetal endocrine pancreatic cell line did not produce human c-peptide as anticipated. DNA from these cells showed no hybridization to the human ALU sequence probe, BLUR, and lacked restriction fragment length polymorphism typical for the human HLA-DQ β-chain gene. Although a human insulin gene probe showed a weak, nonhuman hybridization pattern, a cDNA probe for the Syrian hamster insulin gene hybridized strongly consistent with a single copy hamster insulin gene. Karyotyping confirmed the absence of human chromosomes in the Clone-16 cells while sizes, centromere indices, and banding patterns were identical to Syrian hamster fibroblasts. We conclude that the insulin-producing Clone-16 cells are of Syrian hamster origin and demonstrate the effective use of gene probes to control the origin of cell cultures. This paper is dedicated to the late Lis Lyngsie in much appreciation of her contributions to this study. This work was supported in part by the National Institutes of Health, Bethesda, MD (grants DK 26190 and 33873). I. Matsuba and B. Michelsen were supported by research fellowships from the Juvenile Diabetes Foundation International, and J. Scholler from the Danish Medical Research Council (J.no. 12-5758).