Advantages and limitations of using fluorescence in situ hybridization for the detection of aneuploidy in interphase human cells.

Fluorescence in situ hybridization with chromosome-specific DNA probes is being increasingly utilized for the detection of chromosome aberrations induced in vitro and in vivo by chemical and physical agents. Although potentially a powerful technique, FISH studies for aneuploidy can be heavily influenced by cellular phenomena and hybridization artifacts which make the performance and interpretation of the results difficult. As a consequence, frequently hyperdiploid frequencies are reported in the literature which are substantially higher than one would expect based upon frequencies seen in conventional metaphase analyses. In this article, a number of the potential pitfalls that we have encountered while performing FISH analyses for aneuploidy are discussed and their potential impact on the observed hybridization frequencies is described. After considering these factors, the frequencies of lymphocyte nuclei containing 3 and 4 chromosome copies are compared between metaphase values obtained from published human population studies and interphase values obtained from similar studies using FISH. It is concluded that by using caution in the evaluation of slides, interphase studies using FISH to detect hyperdiploidy and polyploidy can provide estimates of numerical alterations which closely reflect those seen during metaphase analysis using either FISH or conventional approaches. However, due to the inability of interphase analysis to distinguish hyperdiploidy from polyploidy as well as other potential problems, frequencies of aneuploid nuclei obtained using single label FISH should only be considered approximations of absolute frequencies. For additional accuracy, multi-color FISH with two or more different probes should be performed.