Normal lymphocytes activated by mitogens such as phytohemagglutinin (PHA), by Staphylococcus filtrate (SF), or lymphocytes from sensitized individuals stimulated by antigen (PPD, etc.) are cytotoxic to tissue culture cells of different origins. In this and the following paper, the results of a detailed quantitative analysis of the specificity of this cytotoxic reaction are presented. Effector cells were human or mouse lymphocytes, activated by PHA, SF, PPD, or serum factors in the culture medium. Cells from established cell lines of human, mouse, hamster, or rabbit origin, or primary human or rat embryonic fibroblasts were used as target cells. Lysis was quantitated by release of 51Cr from labeled target cells. Purified human blood lymphocytes, activated by PPD, SF, or otherwise, preferentially damaged allogeneic target cells. Lysis of xenogeneic target cells was weak or did not occur. A close correlation was noted between target cell destruction and blastoid transformation of the lymphocytes, but the slope of the regression lines of xenogeneic cytotoxicity was much smaller than that of allogeneic cytotoxicity when plotted as a function of blastoid transformation. Lymph node or spleen cells from CBA mice were stimulated by PPD to transformation and DNA synthesis. CBA lymphocytes also showed an increased degree of blast transformation in medium containing fetal calf serum or certain batches of fresh human serum. Mouse lymphocytes activated in these ways damaged allogeneic L cells but had no effects on xenogeneic Chang cells. These results indicate that lymphocytes activated by various means preferentially damage target cells from their own species. The recognition mechanisms which determine the specificity of the reactions are not known.