Pamela A. Davol scite author profile

Purpose: Cancer immunotherapy has been limited by anergy of patient T cells, inadequate numbers of precursor tumor-specific CTL, and difficulty in producing therapeutic doses of CTL. To overcome these limitations, bispecific antibodies have been used to create artificial antibody receptors that direct polyclonal activated T cells (ATC) to target tumor antigens. Studies reported herein were designed to characterize bispecific antibody^armed ATC functions during multiple rounds of targeted cell stimulation. Experimental Design: ATCs were generated from human peripheral blood mononuclear cells (PBMC) by culture with anti-CD3 and interleukin 2 for 14 days and armed with anti-CD3 Â anti-Her2 bispecific antibody (Her2Bi). In vitro, Her2Bi-armed ATC were examined for a range of functions after repeated stimulation with the Her2/neu-expressing breast cancer cell line SK-BR-3. PBMC isolated from cancer patients treated with Her2Bi-armed ATC were tested ex vivo for cytotoxicity against SK-BR-3. Results: In vitro, armed ATC divided, maintained surface Her2Bi, and expressed a range of activities for extended periods of time. Perforin-mediated cytotoxic activity by armed ATC continued for at least 336 hours, and cytokines and chemokines (i.e., IFN-g and regulated on activation, normal T-cell expressed and secreted protein [RANTES]) were secreted during successive rounds of stimulation. Furthermore, PBMC isolated from patients over their courses of immunotherapy exhibited significant cytolytic activity against SK-BR-3 as a function of Her2Bi-armed ATC infusions. Conclusions: These studies show that armed ATC are specific, durable, and highly functional T-cell populations in vitro. These previously unappreciated broad and long-term functions of armed ATC are encouraging for their therapeutic use in treating cancer.

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Antibody Targeting of Stem Cells to Infarcted Myocardium

Lee

Fang

Davol

et al. 2006

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Hematopoietic stem cell (HSC) therapy for myocardial repair is limited by the number of stem cells that migrate to, engraft in, and proliferate at sites of injured myocardium. To alleviate this limitation, we studied whether a strategy using a bispecific antibody (BiAb) could target human stem cells specifically to injured myocardium and preserve myocardial function. Using a xenogeneic rat model whereby ischemic injury was induced by transient ligation of the left anterior descending artery (LAD), we determined the ability of a bispecific antibody to target human CD34؉ cells to specific antigens expressed in ischemic injured myocardium. A bispecific antibody comprising an anti-CD45 antibody recognizing the common leukocyte antigen found on HSCs and an antibody recognizing myosin light chain, an organ-specific injury antigen expressed by infarcted myocardium, was prepared by chemical conjugation. CD34؉ cells armed and unarmed with this BiAb were injected intravenously in rats 2 days postmyocardial injury. Immunohistochemistry studies showed that the armed CD34؉ cells specifically localized to the infarcted region of the heart, colocalized with troponin T-stained cells, and colocalization with vascular structures. Compared to unarmed CD34؉ cells, the bispecific antibody improved delivery of the stem cells to injured myocardium, and such targeted delivery was correlated with improved myocardial function 5 weeks after infarction (p < .01). Bispecific antibody targeting offers a unique means to improve the delivery of stem cells to facilitate organ repair and a tool to study stem cell biology. STEM CELLS 2007;25:712-717

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Anti-CD3 × Anti-Epidermal Growth Factor Receptor (EGFR) Bispecific Antibody Redirects T-Cell Cytolytic Activity to EGFR-Positive Cancers In vitro and in an Animal Model

Reusch

Sundaram

Davol

et al. 2006

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Purpose: Targeting epidermal growth factor receptor (EGFR) overexpressed by many epithelialderived cancer cells with anti-EGFR monoclonal antibodies (mAb) inhibits their growth. A limited number of clinical responses in patients treated with the anti-EGFR mAb, (cetuximab), may reflect variability in EGFR type or signaling in neoplastic cells. This study combines EGFR-targeting with the non-MHC^restricted cytotoxicity of anti-CD3 activated T cells (ATC) to enhance receptordirected cytotoxicity. Experimental Design: ATC from normal and patient donors were expanded ex vivo. Specific cytolytic activity of ATC armed with anti-CD3 Â anti-EGFR (EGFRBi) against EGFR-expressing cancer cells derived from lung, pancreas, colon, prostate, brain, skin, or EGFR-negative breast cancer cells was evaluated in 51 Cr release assays. In vivo studies comparing tumor growth delay induced by EGFRBi-armed ATCs or cetuximab were done in severe combined immunodeficient/Beige mice (SCID-Beige) bearing COLO 356/FG pancreatic and LS174T colorectal tumors. Results: At effector/target ratios from 3.125 to 50, both EGFRBi-armed normal and patient ATC were significantly more cytotoxic, by 23% to 79%, against EGFR-positive cells over ATC, cetuximab, anti-CD3 alone, or ATC armed with irrelevant BiAb directed at CD20. EGFRBi-armed ATC also secreted significantly higher levels of some T H1 /T H2 cytokines compared with ATC alone. In mice, i.v. infusions of EGFRBi-armed ATC (0.001 mg equivalent/ infusion) were equally effective as cetuximab (1 mg/infusion) alone for significantly delaying growth of established COLO 356/FG but not LS174T tumors compared with mice that received ATC alone or vehicle (P < 0.001).Conclusions: Combining EGFR antibody targeting withTcell^mediated cytotoxicity may overcome some limitations associated with EGFR-targeting when using cetuximab alone.

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T cells armed with anti-CD3 × anti-CD20 bispecific antibody enhance killing of CD20+ malignant B cells and bypass complement-mediated rituximab resistance in vitro

Gall

Davol

Grabert

et al. 2005

Experimental Hematology

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Pamela A. Davol

Human T Cells Armed with Her2/neu Bispecific Antibodies Divide, Are Cytotoxic, and Secrete Cytokines with Repeated Stimulation

Antibody Targeting of Stem Cells to Infarcted Myocardium

Anti-CD3 × Anti-Epidermal Growth Factor Receptor (EGFR) Bispecific Antibody Redirects T-Cell Cytolytic Activity to EGFR-Positive Cancers In vitro and in an Animal Model

T cells armed with anti-CD3 × anti-CD20 bispecific antibody enhance killing of CD20+ malignant B cells and bypass complement-mediated rituximab resistance in vitro

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