Ruth E. Siebenlist scite author profile

Relapse after adjuvant chemotherapy or high-dose chemotherapy with stem cell transplant for high-risk breast cancer remains high and new strategies that provide additional antitumor effects are needed. This report describes methods to generate highly effective HER2/neu-specific cytotoxic T cells by arming activated T cells with anti-CD3 x anti-HER2/neu bispecific antibody (BsAb). OKT3 and 9184 (anti-HER2) monoclonal antibodies (mAb) were conjugated and used to arm T cells that were subsequently tested in binding, cytotoxicity, and cytokine secretion assays. Armed T cells aggregated and specifically killed HER2/neu(+) breast cancer cells. Cytotoxicity emerged after 6 days of culture, was higher in armed T cells than unarmed T cells at all effector to target ratios (E/T) tested, and increased as the arming dose was increased. At an E/T of 20:1, the mean cytotoxicity of armed activated T cells (ATC) from 10 normal subjects increased by 59 +/- 11% (+/-SD) over that seen in unarmed ATC (p < 0.001) and the mean cytotoxicity of armed ATC from 6 cancer patients increased by 32 +/- 9% above that seen for unarmed ATC (p < 0.0004). After arming, the BsAb persisted on ATC up to 72 h and armed ATC continued to be cytotoxic up to 54 h. The amount of interferon-gamma (IFN-gamma), tumor necrosis factor-alpha (TNF-alpha), and granulocyte-macrophage colony-stimulating factor (GM-CSF) secreted was 1699, 922, and 3092 pg/ml/10(6) cells per 24 h, respectively, when armed T cells were exposed to a HER2/neu(+) breast carcinoma cell line. These studies show the feasibility and clinical adaptability of this approach for generating large numbers of anti-HER2-specific, cytotoxic T cells for clinical trials.

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T Cells Coactivated with Immobilized Anti-CD3 and Anti-CD28 as Potential Immunotherapy for Cancer

Garlie

LeFever

Siebenlist

et al. 1999

Journal of Immunotherapy

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Basal lamina components are concentrated in premuscle masses and at early acetylcholine receptor clusters in chick embryo hindlimb muscles

Godfrey

Siebenlist

Wallskog

et al. 1988

Developmental Biology

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Comparison of the TCR ζ-chain with the FcR γ-chain in chimeric TCR constructs for T cell activation and apoptosis

Ren-Heidenreich

Mordini²,

Hayman

et al. 2002

Cancer Immunology, Immunotherapy

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A promising strategy for cancer treatment is adoptive gene therapy/immunotherapy by genetically modifying T cells with a chimeric T cell receptor (cTCR). When transduced T cells (T-bodies) specifically bind to tumor antigens through cTCR, they will become cytotoxic T lymphocytes (CTL) and lyse the tumor cells in a non-major histocompatibility complex (MHC)-restricted manner. Both the FcR gamma-chain and the TCR zeta-chain have been used to construct such cTCR, and both have shown specific cytolytic functions against tumor cells. However, most researchers believe that the zeta-chain generates stronger cytolytic activities against tumor than the gamma-chain and therefore would be a better candidate for cTCR construction. On the other hand, because of the lack of costimulation signaling in such constructs, the T-body might cause activation-induced T cell death (AICD) when bound to tumor antigens. Therefore, one can argue that the gamma-chain might generate less AICD than the zeta-chain because the gamma-chain has only one immunoreceptor tyrosine-based activation motif (ITAM), and the cytolytic activities can be therefore recycled. Two cTCR, GAHgamma and GAHzeta, were constructed and evaluated for cytokine production, specific cytolytic function and AICD in T-bodies after exposure to tumor cells. Using EGP-2-positive LS174T colorectal carcinoma cells as targets, there was no substantial difference observed between a gamma-chain or zeta-chain as the T-body signaling moiety in terms of specific cytolytic functions and induced cytokine production. This paper also demonstrates that, in the absence of a costimulation system, tumor antigen may not trigger apoptosis of T cells transduced with a cTCR carrying either an FcR gamma-chain or a TCR zeta-chain. These observations challenge current ideas about the role of ITAM in T cell activation.

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