Showing papers by "Lewis L. Lanier published in 1981"

Expression of lyt-1 antigen on certain murine b cell lymphomas.

Abstract: Although the Lyt-1 antigen has previously been considered a T cell-specific marker, recent evidence suggests that a population of Thy-1-, Lyt-1+ cells exists in normal lymphoid tissues. In this study, we have observed that the WEHI-55, WEHI-259, and CH5 B cell lymphomas express high levels of the Lyt-1 antigen, as detected by monoclonal antibodies using the fluorescence activated cell sorter. Three other B cell lymphomas of the 11 examined also gave weak but detectable reactions with the anti Lyt-1 monoclonal antibody. Except for the expression of the Lyt-1 antigen, these lymphomas are typical of cells in the B cell lineage with respect to surface phenotype. The Lyt-1 glycoprotein immunoprecipitated from metabolically labeled WEHI-55 cells is similar in structure to the Lyt-1 glycoprotein on thymocytes. These findings are similar to recent reports that B-type human lymphocytic leukemia cells express the putative human homologue of Lyt-1, the Leu-1 antigen.

Quantitative immunofluorescent analysis of surface phenotypes of murine B cell lymphomas and plasmacytomas with monoclonal antibodies.

Abstract: In this study, a large series of murine B lymphomas and plasmacytomas were examined by quantitative flow cytometry analysis using a panel of monoclonal antibodies against murine differentiation antigens. These cell lines appear to represent subpopulations of lymphoid cells arrested at distinct stages of differentiation. In general, the pattern of reactions of these monoclonal antibodies with the B cell neoplasms was comparable to the reactions seen with normal cells in the same lineage. The Thy-1.2, Lyt-2, and T-30 differentiation antigens were not detected on any B lymphoma or plasmacytoma. However, certain surface Ig-positive B lymphomas do express the Lyt-1 antigen. With respect to other differentiation markers examined, including E2, F1, ThB, Lgp-100 (Ly 9.1), G2, and T-200 (Ly 5), the reaction of the B cell tumors reflected the expression of these markers on comparable normal cells. This investigation also emphasized the marked intratumor and intertumor heterogeneity that is observed when cloned cell lines are analyzed quantitatively for a large number of surface markers. Thus, this approach may be particularly useful in defining heterogeneity in maturation states within cloned tumor cell lines.

Cell cycle related heterogeneity of Ia antigen expression on a murine B lymphoma cell line:analysis by flow cytometry.

Abstract: In this investigation we have used quantitative flow cytometry to study the expression of I region antigens on an established B lymphoma cell line, WEHI-231. Although a majority of the WEHI-231 cells do not react with antisera against the Ia.7 (I-E/C) or Ia.8 (IaA) antigens, a distinct subpopulation of cells, comprising 20 to 30% of the total population, reacts strongly with these alloantisera. Several mechanisms were proposed to explain this intratumor Ia antigen heterogeneity: 1) the effect of volume (surface area) heterogeneity on antigen expression; 2) the existence of a stable variant of Ia+ cells in the cell line; 3) cell cycle regulation of Ia antigen expression. The first possibility was excluded on the basis of FCM analysis, which failed to detect any relationship between cell volume and fluorescence intensity of anti-Ia stained cells. Additionally, the rapid reappearance of Ia antigen heterogeneity within Ia- and Ia+ lines, sorted by the fluorescence-activated cell sorter, argued against the presence of a stable variant population of Ia+ cells. Rather, our data suggest that cell cycle related events are responsible for the Ia antigen heterogeneity. The Ia.7+ sorted cells were shown to be significantly enriched in the G0/G1 phase of the growth cycle. In contrast, it was the Ia.8- cells that were enriched in this phase of the cell cycle. These results suggest that the I-A and I-E/C region gene products are independently regulated in this cell line and imply that similar controls may possibly influence Ia antigen expression on normal B lymphocytes.