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Enhanced antitumor immunity by a novel small molecule HPK1 inhibitor.
You, Dan; Hillerman, Stephen; Locke, Gregory; Chaudhry, Charu; Stromko, Caitlyn; Murtaza, Anwar; Fan, Yi; Koenitzer, Jennifer; Chen, Yali; Briceno, Stephanie; Bhadra, Rajarshi; Duperret, Elizabeth; Gullo-Brown, Johnni; Gao, Chan; Zhao, Dandan; Feder, John; Curtin, Joshua; Degnan, Andrew P; Kumi, Godwin; Wittman, Mark; Johnson, Benjamin M; Parrish, Karen E; Gokulrangan, Giridharan; Morrison, John; Quigley, Michael; Hunt, John T; Salter-Cid, Luisa; Lees, Emma; Sanjuan, Miguel A; Liu, Jinqi.
Afiliação
  • You D; Oncology Discovery, Bristol-Myers Squibb Co, Princeton, New Jersey, USA.
  • Hillerman S; Oncology Discovery, Bristol-Myers Squibb Co, Princeton, New Jersey, USA.
  • Locke G; Oncology Discovery, Bristol-Myers Squibb Co, Princeton, New Jersey, USA.
  • Chaudhry C; Oncology Discovery, Johnson and Johnson Limited, Spring House, Pennsylvania, USA.
  • Stromko C; Oncology Discovery, Bristol-Myers Squibb Co, Princeton, New Jersey, USA.
  • Murtaza A; Oncology Discovery, Bristol-Myers Squibb Co, Princeton, New Jersey, USA.
  • Fan Y; Oncology Discovery, Bristol-Myers Squibb Co, Princeton, New Jersey, USA.
  • Koenitzer J; Oncology Discovery, Bristol-Myers Squibb Co, Princeton, New Jersey, USA.
  • Chen Y; Oncology Discovery, Bristol-Myers Squibb Co, Princeton, New Jersey, USA.
  • Briceno S; Oncology Discovery, Bristol-Myers Squibb Co, Princeton, New Jersey, USA.
  • Bhadra R; Oncology Discovery, Pfizer Inc, San Diego, California, USA.
  • Duperret E; Oncology Discovery, Bristol-Myers Squibb Co, Princeton, New Jersey, USA.
  • Gullo-Brown J; Oncology Discovery, Pfizer Inc, San Diego, California, USA.
  • Gao C; Oncology Discovery, Bristol-Myers Squibb Co, Princeton, New Jersey, USA.
  • Zhao D; Oncology Discovery, Bristol-Myers Squibb Co, Princeton, New Jersey, USA.
  • Feder J; Oncology Discovery, Bristol-Myers Squibb Co, Princeton, New Jersey, USA.
  • Curtin J; Oncology Discovery, Johnson and Johnson Limited, Spring House, Pennsylvania, USA.
  • Degnan AP; Oncology Discovery, Bristol-Myers Squibb Co, Princeton, New Jersey, USA.
  • Kumi G; Oncology Discovery, Bristol-Myers Squibb Co, Princeton, New Jersey, USA.
  • Wittman M; Oncology Discovery, Bristol-Myers Squibb Co, Cambridge, Massachusetts, USA.
  • Johnson BM; Oncology Discovery, Bristol-Myers Squibb Co, Cambridge, Massachusetts, USA.
  • Parrish KE; Oncology Discovery, Bristol-Myers Squibb Co, Princeton, New Jersey, USA.
  • Gokulrangan G; Oncology Discovery, Bristol-Myers Squibb Co, Princeton, New Jersey, USA.
  • Morrison J; Oncology Discovery, Bristol-Myers Squibb Co, Princeton, New Jersey, USA.
  • Quigley M; Oncology Discovery, Gilead Sciences Inc, Foster City, California, USA.
  • Hunt JT; Oncology Discovery, Bristol-Myers Squibb Co, Princeton, New Jersey, USA.
  • Salter-Cid L; Oncology Discovery, Gossamer Bio, San Diego, California, USA.
  • Lees E; Oncology Discovery, Bristol-Myers Squibb Co, Cambridge, Massachusetts, USA.
  • Sanjuan MA; Oncology Discovery, Bristol-Myers Squibb Co, Princeton, New Jersey, USA.
  • Liu J; Oncology Discovery, Bristol-Myers Squibb Co, Princeton, New Jersey, USA jinqi.liu@bms.com.
J Immunother Cancer ; 9(1)2021 01.
Article em En | MEDLINE | ID: mdl-33408094
ABSTRACT

BACKGROUND:

Hematopoietic progenitor kinase 1 (HPK1 or MAP4K1) has been demonstrated as a negative intracellular immune checkpoint in mediating antitumor immunity in studies with HPK1 knockout and kinase dead mice. Pharmacological inhibition of HPK1 is desirable to investigate the role of HPK1 in human immune cells with therapeutic implications. However, a significant challenge remains to identify a small molecule inhibitor of HPK1 with sufficient potency, selectivity, and other drug-like properties suitable for proof-of-concept studies. In this report, we identified a novel, potent, and selective HPK1 small molecule kinase inhibitor, compound K (CompK). A series of studies were conducted to investigate the mechanism of action of CompK, aiming to understand its potential application in cancer immunotherapy.

METHODS:

Human primary T cells and dendritic cells (DCs) were investigated with CompK treatment under conditions relevant to tumor microenvironment (TME). Syngeneic tumor models were used to assess the in vivo pharmacology of CompK followed by human tumor interrogation ex vivo.

RESULTS:

CompK treatment demonstrated markedly enhanced human T-cell immune responses under immunosuppressive conditions relevant to the TME and an increased avidity of the T-cell receptor (TCR) to recognize viral and tumor-associated antigens (TAAs) in significant synergy with anti-PD1. Animal model studies, including 1956 sarcoma and MC38 syngeneic models, revealed improved immune responses and superb antitumor efficacy in combination of CompK with anti-PD-1. An elevated immune response induced by CompK was observed with fresh tumor samples from multiple patients with colorectal carcinoma, suggesting a mechanistic translation from mouse model to human disease.

CONCLUSION:

CompK treatment significantly improved human T-cell functions, with enhanced TCR avidity to recognize TAAs and tumor cytolytic activity by CD8+ T cells. Additional benefits include DC maturation and priming facilitation in tumor draining lymph node. CompK represents a novel pharmacological agent to address cancer treatment resistance.
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Texto completo: 1 Base de dados: MEDLINE Assunto principal: Sarcoma / Neoplasias Ósseas / Proteínas Serina-Treonina Quinases / Ginsenosídeos / Antineoplásicos Limite: Animals / Humans Idioma: En Ano de publicação: 2021 Tipo de documento: Article
Texto completo
Imprimir
XML
PubMed Links
Buscar no Google

Texto completo: 1 Base de dados: MEDLINE Assunto principal: Sarcoma / Neoplasias Ósseas / Proteínas Serina-Treonina Quinases / Ginsenosídeos / Antineoplásicos Limite: Animals / Humans Idioma: En Ano de publicação: 2021 Tipo de documento: Article