TY - JOUR
T1 - TCR β chain-directed bispecific antibodies for the treatment of T cell cancers
AU - Paul, Suman
AU - Pearlman, Alexander H.
AU - Douglass, Jacqueline
AU - Mog, Brian J.
AU - Hsiue, Emily Han Chung
AU - Hwang, Michael S.
AU - DiNapoli, Sarah R.
AU - Konig, Maximilian F.
AU - Brown, Patrick A.
AU - Wright, Katharine M.
AU - Sur, Surojit
AU - Gabelli, Sandra B.
AU - Li, Yana
AU - Ghiaur, Gabriel
AU - Pardoll, Drew M.
AU - Papadopoulos, Nickolas
AU - Bettegowda, Chetan
AU - Kinzler, Kenneth W.
AU - Zhou, Shibin
AU - Vogelstein, Bert
N1 - Publisher Copyright:
© 2021 The Authors.
PY - 2021/3/10
Y1 - 2021/3/10
N2 - Immunotherapies such as chimeric antigen receptor (CAR) T cells and bispecific antibodies redirect healthy T cells to kill cancer cells expressing the target antigen. The pan-B cell antigen-targeting immunotherapies have been remarkably successful in treating B cell malignancies. Such therapies also result in the near-complete loss of healthy B cells, but this depletion is well tolerated by patients. Although analogous targeting of pan-T cell markers could, in theory, help control T cell cancers, the concomitant healthy T cell depletion would result in severe and unacceptable immunosuppression. Thus, therapies directed against T cell cancers require more selective targeting. Here, we describe an approach to target T cell cancers through T cell receptor (TCR) antigens. Each T cell, normal or malignant, expresses a unique TCR β chain generated from 1 of 30 TCR β chain variable gene families (TRBV1 to TRBV30). We hypothesized that bispecific antibodies targeting a single TRBV family member expressed in malignant T cells could promote killing of these cancer cells, while preserving healthy T cells that express any of the other 29 possible TRBV family members. We addressed this hypothesis by demonstrating that bispecific antibodies targeting TRBV5-5 (α-V5) or TRBV12 (α-V12) specifically lyse relevant malignant T cell lines and patient-derived T cell leukemias in vitro. Treatment with these antibodies also resulted in major tumor regressions in mouse models of human T cell cancers. This approach provides an off-the-shelf, T cell cancer selective targeting approach that preserves enough healthy T cells to maintain cellular immunity.
AB - Immunotherapies such as chimeric antigen receptor (CAR) T cells and bispecific antibodies redirect healthy T cells to kill cancer cells expressing the target antigen. The pan-B cell antigen-targeting immunotherapies have been remarkably successful in treating B cell malignancies. Such therapies also result in the near-complete loss of healthy B cells, but this depletion is well tolerated by patients. Although analogous targeting of pan-T cell markers could, in theory, help control T cell cancers, the concomitant healthy T cell depletion would result in severe and unacceptable immunosuppression. Thus, therapies directed against T cell cancers require more selective targeting. Here, we describe an approach to target T cell cancers through T cell receptor (TCR) antigens. Each T cell, normal or malignant, expresses a unique TCR β chain generated from 1 of 30 TCR β chain variable gene families (TRBV1 to TRBV30). We hypothesized that bispecific antibodies targeting a single TRBV family member expressed in malignant T cells could promote killing of these cancer cells, while preserving healthy T cells that express any of the other 29 possible TRBV family members. We addressed this hypothesis by demonstrating that bispecific antibodies targeting TRBV5-5 (α-V5) or TRBV12 (α-V12) specifically lyse relevant malignant T cell lines and patient-derived T cell leukemias in vitro. Treatment with these antibodies also resulted in major tumor regressions in mouse models of human T cell cancers. This approach provides an off-the-shelf, T cell cancer selective targeting approach that preserves enough healthy T cells to maintain cellular immunity.
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U2 - 10.1126/scitranslmed.abd3595
DO - 10.1126/scitranslmed.abd3595
M3 - Article
C2 - 33649188
AN - SCOPUS:85102200526
SN - 1946-6234
VL - 13
JO - Science translational medicine
JF - Science translational medicine
IS - 584
M1 - eabd3595
ER -