Literature DB >> 34368780

PAK4 inhibition improves PD-1 blockade immunotherapy.

Catherine S Grasso1, Antoni Ribas2,3,4,5,6, Gabriel Abril-Rodriguez1,7, Davis Y Torrejon1, Wei Liu8,9, Jesse M Zaretsky1, Theodore S Nowicki10, Jennifer Tsoi1, Cristina Puig-Saus1, Ignacio Baselga-Carretero1, Egmidio Medina1, Michael J Quist1, Alejandro J Garcia1, William Senapedis11, Erkan Baloglu11, Anusha Kalbasi12,13,14, Gardenia Cheung-Lau1, Beata Berent-Maoz1, Begoña Comin-Anduix13,14, Siwen Hu-Lieskovan1,14, Cun-Yu Wang8,9.   

Abstract

Lack of tumor infiltration by immune cells is the main mechanism of primary resistance to programmed cell death protein 1 (PD-1) blockade therapies for cancer. It has been postulated that cancer cell-intrinsic mechanisms may actively exclude T cells from tumors, suggesting that the finding of actionable molecules that could be inhibited to increase T cell infiltration may synergize with checkpoint inhibitor immunotherapy. Here, we show that p21-activated kinase 4 (PAK4) is enriched in non-responding tumor biopsies with low T cell and dendritic cell infiltration. In mouse models, genetic deletion of PAK4 increased T cell infiltration and reversed resistance to PD-1 blockade in a CD8 T cell-dependent manner. Furthermore, combination of anti-PD-1 with the PAK4 inhibitor KPT-9274 improved anti-tumor response compared with anti-PD-1 alone. Therefore, high PAK4 expression is correlated with low T cell and dendritic cell infiltration and a lack of response to PD-1 blockade, which could be reversed with PAK4 inhibition.

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Year:  2019        PMID: 34368780      PMCID: PMC8340852          DOI: 10.1038/s43018-019-0003-0

Source DB:  PubMed          Journal:  Nat Cancer        ISSN: 2662-1347


  53 in total

Review 1.  Primary, Adaptive, and Acquired Resistance to Cancer Immunotherapy.

Authors:  Padmanee Sharma; Siwen Hu-Lieskovan; Jennifer A Wargo; Antoni Ribas
Journal:  Cell       Date:  2017-02-09       Impact factor: 41.582

2.  Tumor and Microenvironment Evolution during Immunotherapy with Nivolumab.

Authors:  Nadeem Riaz; Jonathan J Havel; Vladimir Makarov; Alexis Desrichard; Walter J Urba; Jennifer S Sims; F Stephen Hodi; Salvador Martín-Algarra; Rajarsi Mandal; William H Sharfman; Shailender Bhatia; Wen-Jen Hwu; Thomas F Gajewski; Craig L Slingluff; Diego Chowell; Sviatoslav M Kendall; Han Chang; Rachna Shah; Fengshen Kuo; Luc G T Morris; John-William Sidhom; Jonathan P Schneck; Christine E Horak; Nils Weinhold; Timothy A Chan
Journal:  Cell       Date:  2017-10-12       Impact factor: 41.582

Review 3.  Impact of oncogenic pathways on evasion of antitumour immune responses.

Authors:  Stefani Spranger; Thomas F Gajewski
Journal:  Nat Rev Cancer       Date:  2018-01-12       Impact factor: 60.716

4.  Analysis of Immune Signatures in Longitudinal Tumor Samples Yields Insight into Biomarkers of Response and Mechanisms of Resistance to Immune Checkpoint Blockade.

Authors:  Pei-Ling Chen; Whijae Roh; Alexandre Reuben; Zachary A Cooper; Christine N Spencer; Peter A Prieto; John P Miller; Roland L Bassett; Vancheswaran Gopalakrishnan; Khalida Wani; Mariana Petaccia De Macedo; Jacob L Austin-Breneman; Hong Jiang; Qing Chang; Sangeetha M Reddy; Wei-Shen Chen; Michael T Tetzlaff; Russell J Broaddus; Michael A Davies; Jeffrey E Gershenwald; Lauren Haydu; Alexander J Lazar; Sapna P Patel; Patrick Hwu; Wen-Jen Hwu; Adi Diab; Isabella C Glitza; Scott E Woodman; Luis M Vence; Ignacio I Wistuba; Rodabe N Amaria; Lawrence N Kwong; Victor Prieto; R Eric Davis; Wencai Ma; Willem W Overwijk; Arlene H Sharpe; Jianhua Hu; P Andrew Futreal; Jorge Blando; Padmanee Sharma; James P Allison; Lynda Chin; Jennifer A Wargo
Journal:  Cancer Discov       Date:  2016-06-14       Impact factor: 39.397

5.  IFN-γ-related mRNA profile predicts clinical response to PD-1 blockade.

Authors:  Mark Ayers; Jared Lunceford; Michael Nebozhyn; Erin Murphy; Andrey Loboda; David R Kaufman; Andrew Albright; Jonathan D Cheng; S Peter Kang; Veena Shankaran; Sarina A Piha-Paul; Jennifer Yearley; Tanguy Y Seiwert; Antoni Ribas; Terrill K McClanahan
Journal:  J Clin Invest       Date:  2017-06-26       Impact factor: 14.808

Review 6.  Cancer immunotherapy using checkpoint blockade.

Authors:  Antoni Ribas; Jedd D Wolchok
Journal:  Science       Date:  2018-03-22       Impact factor: 47.728

7.  BRAF inhibition increases tumor infiltration by T cells and enhances the antitumor activity of adoptive immunotherapy in mice.

Authors:  Chengwen Liu; Weiyi Peng; Chunyu Xu; Yanyan Lou; Minying Zhang; Jennifer A Wargo; Jie Qing Chen; Haiyan S Li; Stephanie S Watowich; Yan Yang; Dennie Tompers Frederick; Zachary A Cooper; Rina M Mbofung; Mayra Whittington; Keith T Flaherty; Scott E Woodman; Michael A Davies; Laszlo G Radvanyi; Willem W Overwijk; Gregory Lizée; Patrick Hwu
Journal:  Clin Cancer Res       Date:  2012-11-30       Impact factor: 12.531

8.  Loss of PTEN Promotes Resistance to T Cell-Mediated Immunotherapy.

Authors:  Weiyi Peng; Jie Qing Chen; Chengwen Liu; Shruti Malu; Caitlin Creasy; Michael T Tetzlaff; Chunyu Xu; Jodi A McKenzie; Chunlei Zhang; Xiaoxuan Liang; Leila J Williams; Wanleng Deng; Guo Chen; Rina Mbofung; Alexander J Lazar; Carlos A Torres-Cabala; Zachary A Cooper; Pei-Ling Chen; Trang N Tieu; Stefani Spranger; Xiaoxing Yu; Chantale Bernatchez; Marie-Andree Forget; Cara Haymaker; Rodabe Amaria; Jennifer L McQuade; Isabella C Glitza; Tina Cascone; Haiyan S Li; Lawrence N Kwong; Timothy P Heffernan; Jianhua Hu; Roland L Bassett; Marcus W Bosenberg; Scott E Woodman; Willem W Overwijk; Gregory Lizée; Jason Roszik; Thomas F Gajewski; Jennifer A Wargo; Jeffrey E Gershenwald; Laszlo Radvanyi; Michael A Davies; Patrick Hwu
Journal:  Cancer Discov       Date:  2015-12-08       Impact factor: 39.397

9.  A Cancer Cell Program Promotes T Cell Exclusion and Resistance to Checkpoint Blockade.

Authors:  Livnat Jerby-Arnon; Parin Shah; Michael S Cuoco; Christopher Rodman; Mei-Ju Su; Johannes C Melms; Rachel Leeson; Abhay Kanodia; Shaolin Mei; Jia-Ren Lin; Shu Wang; Bokang Rabasha; David Liu; Gao Zhang; Claire Margolais; Orr Ashenberg; Patrick A Ott; Elizabeth I Buchbinder; Rizwan Haq; F Stephen Hodi; Genevieve M Boland; Ryan J Sullivan; Dennie T Frederick; Benchun Miao; Tabea Moll; Keith T Flaherty; Meenhard Herlyn; Russell W Jenkins; Rohit Thummalapalli; Monika S Kowalczyk; Israel Cañadas; Bastian Schilling; Adam N R Cartwright; Adrienne M Luoma; Shruti Malu; Patrick Hwu; Chantale Bernatchez; Marie-Andrée Forget; David A Barbie; Alex K Shalek; Itay Tirosh; Peter K Sorger; Kai Wucherpfennig; Eliezer M Van Allen; Dirk Schadendorf; Bruce E Johnson; Asaf Rotem; Orit Rozenblatt-Rosen; Levi A Garraway; Charles H Yoon; Benjamin Izar; Aviv Regev
Journal:  Cell       Date:  2018-11-01       Impact factor: 41.582

10.  PD-1 blockade induces responses by inhibiting adaptive immune resistance.

Authors:  Paul C Tumeh; Christina L Harview; Jennifer H Yearley; I Peter Shintaku; Emma J M Taylor; Lidia Robert; Bartosz Chmielowski; Marko Spasic; Gina Henry; Voicu Ciobanu; Alisha N West; Manuel Carmona; Christine Kivork; Elizabeth Seja; Grace Cherry; Antonio J Gutierrez; Tristan R Grogan; Christine Mateus; Gorana Tomasic; John A Glaspy; Ryan O Emerson; Harlan Robins; Robert H Pierce; David A Elashoff; Caroline Robert; Antoni Ribas
Journal:  Nature       Date:  2014-11-27       Impact factor: 49.962
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  15 in total

1.  Anti-Cancer Activity of PAK4/NAMPT Inhibitor and Programmed Cell Death Protein-1 Antibody in Kidney Cancer.

Authors:  Josephine F Trott; Omran Abu Aboud; Bridget McLaughlin; Katie L Anderson; Jaime F Modiano; Kyoungmi Kim; Kuang-Yu Jen; William Senapedis; Hua Chang; Yosef Landesman; Erkan Baloglu; Roberto Pili; Robert H Weiss
Journal:  Kidney360       Date:  2020-05-28

2.  Synthesis of selective PAK4 inhibitors for lung metastasis of lung cancer and melanoma cells.

Authors:  Peilu Song; Fan Zhao; Dahong Li; Jiqiang Qu; Miao Yao; Yuan Su; Hanxun Wang; Miaomiao Zhou; Yujie Wang; Yinli Gao; Feng Li; Dongmei Zhao; Fengjiao Zhang; Yu Rao; Mingyu Xia; Haitao Li; Jian Wang; Maosheng Cheng
Journal:  Acta Pharm Sin B       Date:  2022-03-04       Impact factor: 14.903

Review 3.  The significance of PAK4 in signaling and clinicopathology: A review.

Authors:  Xinbo Yu; Changwei Huang; Jiyuan Liu; Xinyu Shi; Xiaodong Li
Journal:  Open Life Sci       Date:  2022-06-20       Impact factor: 1.311

4.  LCOR mediates interferon-independent tumor immunogenicity and responsiveness to immune-checkpoint blockade in triple-negative breast cancer.

Authors:  Iván Pérez-Núñez; Catalina Rozalén; José Ángel Palomeque; Irene Sangrador; Mariona Dalmau; Laura Comerma; Anna Hernández-Prat; David Casadevall; Silvia Menendez; Daniel Dan Liu; Minhong Shen; Jordi Berenguer; Irene Rius Ruiz; Raul Peña; José Carlos Montañés; M Mar Albà; Sarah Bonnin; Julia Ponomarenko; Roger R Gomis; Juan Miguel Cejalvo; Sonia Servitja; Diego M Marzese; Lluis Morey; Leonie Voorwerk; Joaquín Arribas; Begoña Bermejo; Marleen Kok; Lajos Pusztai; Yibin Kang; Joan Albanell; Toni Celià-Terrassa
Journal:  Nat Cancer       Date:  2022-03-17

Review 5.  Turning cold tumors into hot tumors by improving T-cell infiltration.

Authors:  Yuan-Tong Liu; Zhi-Jun Sun
Journal:  Theranostics       Date:  2021-03-11       Impact factor: 11.556

6.  Neutrophils Extracellular Traps Inhibition Improves PD-1 Blockade Immunotherapy in Colorectal Cancer.

Authors:  Hongji Zhang; Yu Wang; Amblessed Onuma; Jiayi He; Han Wang; Yujia Xia; Rhea Lal; Xiang Cheng; Gyulnara Kasumova; Zhiwei Hu; Meihong Deng; Joal D Beane; Alex C Kim; Hai Huang; Allan Tsung
Journal:  Cancers (Basel)       Date:  2021-10-23       Impact factor: 6.575

7.  Regulatory T cells promote cancer immune-escape through integrin αvβ8-mediated TGF-β activation.

Authors:  Alexandra Lainé; Ossama Labiad; Hector Hernandez-Vargas; Sébastien This; Amélien Sanlaville; Sophie Léon; Stéphane Dalle; Dean Sheppard; Mark A Travis; Helena Paidassi; Julien C Marie
Journal:  Nat Commun       Date:  2021-10-28       Impact factor: 14.919

8.  ZEB1 transcription factor promotes immune escape in melanoma.

Authors:  Maud Plaschka; Valentin Benboubker; Maxime Grimont; Justine Berthet; Laurie Tonon; Jonathan Lopez; Myrtille Le-Bouar; Brigitte Balme; Garance Tondeur; Arnaud de la Fouchardière; Lionel Larue; Alain Puisieux; Yenkel Grinberg-Bleyer; Nathalie Bendriss-Vermare; Bertrand Dubois; Christophe Caux; Stéphane Dalle; Julie Caramel
Journal:  J Immunother Cancer       Date:  2022-03       Impact factor: 12.469

9.  CDK15 promotes colorectal cancer progression via phosphorylating PAK4 and regulating β-catenin/ MEK-ERK signaling pathway.

Authors:  Chuntian Huang; Ruijuan Du; Xuechao Jia; Kangdong Liu; Yan Qiao; Qiong Wu; Ning Yao; Lu Yang; Liting Zhou; Xuejiao Liu; Pu Xiang; Mingxia Xin; Yan Wang; Xiaojie Chen; Dong Joon Kim; Zigang Dong; Xiang Li
Journal:  Cell Death Differ       Date:  2021-07-14       Impact factor: 15.828

10.  Transcriptomic signatures of tumors undergoing T cell attack.

Authors:  Aishwarya Gokuldass; Aimilia Schina; Martin Lauss; Katja Harbst; Christopher Aled Chamberlain; Arianna Draghi; Marie Christine Wulff Westergaard; Morten Nielsen; Krisztian Papp; Zsofia Sztupinszki; Istvan Csabai; Inge Marie Svane; Zoltan Szallasi; Göran Jönsson; Marco Donia
Journal:  Cancer Immunol Immunother       Date:  2021-07-17       Impact factor: 6.968
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