Showing papers by "Salvatore Siena published in 1988"

Evaluation of antihuman T lymphocyte saporin immunotoxins potentially useful in human transplantation.

Abstract: We have synthesized 3 immunotoxins (ITs) by covalently coupling the saporin-6 hemitoxin (SAP) to OKT11, SOT3, and SOT1a murine monoclonal antibodies that recognize human T lymphocyte CD2, CD3, and CD5 surface antigens, respectively. The resulting ITs, referred to as OKT11-SAP, SOT3-SAP, and SOT1a-SAP, are equally effective in inhibiting eukaryotic protein synthesis in a cell-free system, and all 3 ITs bind to human T lymphocytes in an almost comparable manner. However, these reagents differ markedly in their ability to kill target T lymphocytes as assessed by measuring the inhibition of DNA synthesis and growth of clonable T lymphocytes in response to mitogenic and allogeneic stimuli. Whereas the anti-CD2 IT, OKT11-SAP, shows moderate cytotoxicity against T lymphocytes, the anti-CD3 IT, SOT3-SAP, and the anti-CD5 IT, SOT1a-SAP, are highly effective in eliminating the same target cells. The concentrations inhibiting 50% (IC50) of T lymphocyte DNA synthesis are 60 nM, 4.5 nM, and 1.4 nM for OKT11-SAP, SOT3-SAP, and SOT1a-SAP, respectively. Among 3 tested lysosomotropic amines, i.e., ammonium chloride, chloroquine, and amantadine, the latter only moderately potentiates the cytotoxicity of SOT1a-SAP (IC50 0.36 nM). We show that the conditions under which T lymphocyte killing is accomplished require less than 10 min exposure of T lymphocytes to the ITs, in the absence of adjuvant molecules artificially added to the incubation medium and at physiologic culture pH. These experimental characteristics of unprecedented closeness to a physiologic in-vivo model are likely to reflect the biophysical properties of the SAP moiety of the ITs. We conclude that clinical studies are warranted to define the advantage of using SAP ITs over previously described immunoconjugates.

Activity of a Monoclonal Antibody-Saporin-6 Conjugate Against B-Lymphoma Cells

Abstract: A monoclonal antibody reactive with the immunoglobulin heavy chain (TEC IgM) has been conjugated to saporin-6 (SAP), which is the major ribosome-inactivating protein from the seeds of the plant Saponaria officinalis. Studies with Burkitt's lymphoma cell line Bjab 113 demonstrate that this immunotoxin is capable of killing 3 logs (99.9%) of clonogenic lymphoma cells after a 2-hour incubation. The presence of human bone marrow inhibits the activity of the conjugate. However, full potency of TEC IgM-SAP immunotoxin is restored by adding 1 mM amantadine to the incubation medium. The reaction is highly specific and is inhibited by the presence of excess anti-mu-antibody or human serum. Clonal growth of other Burkitt's lymphoma cell lines is inhibited to a lesser extent by the immunotoxin. The presence of surface IgM on the different cell lines is directly correlated to target cell killing by TEC IgM-SAP. Isolation of Bjab 113 clones surviving treatment demonstrates that only a minority are truly resistant and that the others randomly escape the treatment. The highly potent and specific activity of this conjugate in the presence of bone marrow buffy coat and its exceptionally rapid onset of action make this conjugate a good candidate for the ex vivo elimination of neoplastic cells from the bone marrow of non-Hodgkin's lymphoma patients.