First searchable database for DNA profiles of human cell lines: sequential use of fingerprint techniques for authentication.

The authenticity and freedom from cross-contaminants of a cell line are important prerequisites for any research, development or production programs involving cell lines. Mini- and microsatellites in the human genome harboring variable-numbers of tandem repeat (VNTR) DNA markers allow individualization at the DNA level and are of practical value for genetic linkage mapping, forensic legal medicine, paternity testing, monitoring of bone marrow transplants, and individualization of established cell lines. We have validated fingerprint techniques of different single- and multiple-locus VNTRs enabling the establishment of a searchable database of DNA profiles. As a result, multiplexed polymerase chain reaction amplification fragment length polymorphism (AmpFLP) of four prominent and highly polymorphic minisatellite VNTR loci was proven as the best tool for screening the uniqueness of DNA profiles in a fingerprint database. In order to avoid false positivity, identical or similar DNA profiles based on AmpFLP VNTR were tested further using a multi-locus fingerprint system. Our data demonstrate that misidentification remains a chronic problem among human continuous cell lines (detailed information at URL http://www.dsmz.de). The combination of rapidly generated DNA profiles based on single-locus VNTR loci, their authentication by screening the fingerprint database, and confirmation of duplicate banding patterns using multilocus fingerprints constitute a highly reliable and robust method, which enables high fidelity and quality of maintenance independent from the quantity of individual cell lines.