Structural and numerical chromosomal aberrations in a metabolically competent human lymphoblast cell line (MCL-5)

MCL-5 cells are Epstein Barr virus-transformed human lymphoblasts which have been genetically engineered for use in mutagenicity testing. We have examined the modal chromosome number, karyotype and spontaneous micronucleus (MN) and sister chromatid exchange (SCE) frequencies of the cell line. Replicate experiments were conducted on two different shipments purchased from Gentest Corp. Although the modal chromosome number was 48 (range 40-54, n = 400 metaphases) for both cell shipments, the second stock showed greater variation in chromosome number than the first. a total of 60 G-banded metaphase cells was analyzed and seven karyotypes were prepared. Consistent structural abnormalities (translocations, deletions and isochromosomes) were found involving the X chromosome and seven autosomes (1-3, 5, 6, 9 and 11), The karyotype typical of this cell line was: 48,der(X)t(X;?)(p22.3;?) Y,t(1;2)(q23;p23),del(3)(q12q12),+(3q),t(5;6) (q31;p23), +i(9p),der(11)t(11;13)(q23;q12). The mean MN frequency was 41.8 MN/1000 binucleate cells (n = 5000), When compared with our historical controls for primary lymphocyte cultures this number (41.8) is significantly (8.4-fold) higher, The mean SCE frequency was 7.3 per metaphase (n = 100). We observed a hyperdiploid chromosome number of 48 in the majority of metaphase spreads, indicating a significant deviation from the normal diploid number characteristic of the parent cells (RPMI 1788) established in 1969. The variation ire chromosome number distribution observed between shipments suggests the potential for further changes, The elevated MN frequency suggests that evaluating mutagenicity using this cytogenetic end-point may require excessive dosing to produce a significant response over background. We conclude that careful interpretation of cytogenetic end-points is necessary when using MCL-5 cells in the light of the possibility of clonal evolution presented here.