[PDF][PDF] Hematopoietic progenitor kinase1 (HPK1) mediates T cell dysfunction and is a druggable target for T cell-based immunotherapies
J Si, X Shi, S Sun, B Zou, Y Li, D An, X Lin, Y Gao… - Cancer cell, 2020 - cell.com
J Si, X Shi, S Sun, B Zou, Y Li, D An, X Lin, Y Gao, F Long, B Pang, X Liu, T Liu, W Chi…
Cancer cell, 2020•cell.comAmeliorating T cell exhaustion and enhancing effector function are promising strategies for
the improvement of immunotherapies. Here, we show that the HPK1-NFκB-Blimp1 axis
mediates T cell dysfunction. High expression of MAP4K1 (which encodes HPK1) correlates
with increased T cell exhaustion and with worse patient survival in several cancer types. In
MAP4K1 KO mice, tumors grow slower than in wild-type mice and infiltrating T cells are less
exhausted and more active and proliferative. We further show that genetic depletion …
the improvement of immunotherapies. Here, we show that the HPK1-NFκB-Blimp1 axis
mediates T cell dysfunction. High expression of MAP4K1 (which encodes HPK1) correlates
with increased T cell exhaustion and with worse patient survival in several cancer types. In
MAP4K1 KO mice, tumors grow slower than in wild-type mice and infiltrating T cells are less
exhausted and more active and proliferative. We further show that genetic depletion …
Summary
Ameliorating T cell exhaustion and enhancing effector function are promising strategies for the improvement of immunotherapies. Here, we show that the HPK1-NFκB-Blimp1 axis mediates T cell dysfunction. High expression of MAP4K1 (which encodes HPK1) correlates with increased T cell exhaustion and with worse patient survival in several cancer types. In MAP4K1KO mice, tumors grow slower than in wild-type mice and infiltrating T cells are less exhausted and more active and proliferative. We further show that genetic depletion, pharmacological inhibition, or proteolysis targeting chimera (PROTAC)-mediated degradation of HPK1 improves the efficacy of CAR-T cell-based immunotherapies in diverse preclinical mouse models of hematological and solid tumors. These strategies are more effective than genetically depleting PD-1 in CAR-T cells. Thus, we demonstrate that HPK1 is a mediator of T cell dysfunction and an attractive druggable target to improve immune therapy responses.
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