C Uggla scite author profile

C Uggla

3Publications

7Citation Statements Received

26Citation Statements Given

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Affiliations

Kettering University, Karolinska Institutet, Memorial Sloan Kettering Cancer Center

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Spontaneous production of interleukin 1 activity by chronic lymphocytic leukemic cells

Uggla

Aguilar‐Santelises

Rosén

et al. 1987

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Chronic lymphocytic leukemic B cells (B-CLL) were found to produce an IL 1-like growth factor spontaneously in vitro for mouse thymocytes. This factor was comitogenic with concanavalin A (Con A) and nonmitogenic combinations of phorbol ester and calcium ionophore but not with phyto-hemagglutinin (PHA). Growth factor production was dose- related to the number of in vitro cultured cells and detectable at 6 hours using high cell concentrations. A small number of admixed normal T cells was not important for factor production. No growth of autologous B-CLL or allogeneic thymocytes was induced by the factor. A chromatographic high-performance liquid chromatography (HPLC) analysis and inhibition experiments with a polyclonal rabbit anti interleukin 1 (IL 1) antiserum indicated that the B-CLL-derived growth factor belonged to the IL 1 family. This was supported by the direct demonstration of IL 1 beta in supernatants from B-CLL by radioimmunoassay. Possible biologic implications for B-CLL-derived IL 1 are discussed in relation to tumor cell growth in different clinical stages.

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Decreased Natural Killer (NK) Susceptibility of Human NK Target Cells after Phosphatidylinositol‐Specific Phospholipase C Treatment

et al. 1989

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Phosphatidylinositol-specific phospholipase C (PI-PLC) treatment of the human natural killer (NK) target cells Molt-4, Jurkat, and U937 reduced their susceptibility to killing by human NK cells in a dose-dependent fashion. This indicates that a cell surface structure, anchored by a glycosyl-phosphatidylinositol (G-PI) moiety, is important in NK cytotoxicity. In contrast, another common NK target cell line, K562, remained susceptible to NK killing after enzyme treatment, suggesting that distinct target structures are expressed by this cell line. PI-PLC treatment of Molt-4 cells also reduced their sensitivity to human lymphokine activated killer (LAK) cells, suggesting that NK and LAK cells share common specificity in the killing of Molt-4. In contrast, PI-PLC had no effect on the killing of the LAK target cell line, Daudi, which is only weakly sensitive to unactivated NK cells. Killing of a variety of murine target cells by murine NK cells was not affected by PI-PLC treatment, but cross-species killing of Molt-4 by murine NK cells was inhibited by PI-PLC, suggesting a common mechanism in the killing of this human target cell line. The PI-PLC treatment of effector cells from either species did not reduce their NK activity. The reduction in sensitivity of the Molt-4, Jurkat, and U937 target cells probably results from a loss of a target specific G-PI linked membrane molecule, but other possible explanations for these results are also discussed.

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Agonistic Effects of Anti‐CD2 and Anti‐CD16 Antibodies on Human Natural Killer Killing

et al. 1989

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Two monoclonal antibodies (MoAb), 9-1 (anti-CD2) and 3G8 (anti-CD16), were previously shown to enhance the cytotoxic activity of human natural killer (NK) cells. The present study examined the effect of 9-1 and 3G8 with different effector and target cells to determine whether they activate NK cells through a common mechanism. Analysis of purified lymphocyte subpopulations demonstrated that the CD3+CD16+CD3- NK effector cell population is enhanced by both antibodies, while purified CD2+CD16-CD3+ T cells are not activated by either antibody. Although both antibodies enhance killing of K-562 and Daudi, killing of T-cell lines is enhanced by 9-1 and inhibited by 3G8. In contrast, killing of the promyelocytic cell line, U-937 is inhibited by 9-1 and enhanced by 3G8. On NK-susceptible cells the pattern of enhancement with 3G8, an IgG1 MoAb, is consistent with the pattern of target cell expression of an Fc receptor, FcR II, known to bind IgG1 antibodies. This suggests that 3G8 may cross-link effector and target cells through CD16 on the effectors and FcR II on these targets. This could activate NK killing by a mechanism similar to antibody-dependent cellular cytotoxicity reactions (ADCC) with the MoAb in the reverse orientation. The failure of 3G8 F(ab')2 fragments to enhance NK killing, further supports the reverse ADCC mechanism of enhancement by 3G8. The pattern of enhancement mediated by 9-1, an IgG3 MoAb, is not correlated with any target cell Fc-receptor known to bind IgG3 MoAb. The effect of 9-1 may result, instead, from its binding to the unique 9-1 epitope on the CD2 molecule involved in CD2-mediated T-cell activation, as previously described. Alternative mechanisms, including activation of NK killing by 9-1 mediated cross-linking of CD2 and CD16 on the effector cells, have also been discussed.

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C Uggla

Spontaneous production of interleukin 1 activity by chronic lymphocytic leukemic cells

Decreased Natural Killer (NK) Susceptibility of Human NK Target Cells after Phosphatidylinositol‐Specific Phospholipase C Treatment

Agonistic Effects of Anti‐CD2 and Anti‐CD16 Antibodies on Human Natural Killer Killing

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