Proposals for the characterization and description of new human leukemia-lymphoma cell lines.

Continuous human leukemia-lymphoma cell lines have become invaluable tools for hematological research as they provide an unlimited amount of cellular material. The first human lymphoma cell line Raji was established in 1963; since then several hundred leukemia-lymphoma cell lines spanning almost the whole spectrum of hematopoietic cell lineages (except for dendritric cells) have been described. The cardinal features of leukemia-lymphoma cell lines are their monoclonal origin, arrest of differentiation, and (growth factor-independent or -dependent) unlimited proliferation. Categorization of cell lines usually follows the physiological stages of hematopoietic differentiation in the various cell lineages. For an adequate classification, a detailed characterization of both primary and cultured cells in absolutely necessary. New cell lines, in particular, must be adequately, characterized; while cell culture data and immunological and cytogenetic features are essential, cell lines should be described in as much detail as possible. In addition to this recommended multiparameter characterization and the obligatory immortality of the culture, authentication of the true origin of the cells, novelty, scientific significance and availability of the cell line for other investigators are of utmost importance. It is still extremely difficult to establish new leukemia-lymphoma cell lines (except for some subtypes), and most attempts fail. Paramount to the lack of our understanding as to why certain cells start to proliferate in culture and others do not (thus implying a random process), is probably the difficulty of mimicking in vitro the physiological in vivo microenvironment. Attempts to improve the efficiency of cell line establishment should focus on examining the appropriateness of the in vitro culture conditions; these conditions should emulate as closely as possible the in vivo situation. In summary, leukemia-lymphoma cell lines have the potential to greatly facilitate diverse studies of normal and malignant hematopoiesis; to that end, these cell lines must be extensively characterized and adequately described.