Literature DB >> 33852104

A phase 1a/1b trial of CSF-1R inhibitor LY3022855 in combination with durvalumab or tremelimumab in patients with advanced solid tumors.

Gerald S Falchook1, Marc Peeters2, Sylvie Rottey3, Luc Y Dirix4, Radka Obermannova5, Jonathan E Cohen6,7, Ruth Perets8,9, Ronnie Shapira Frommer10, Todd M Bauer11, Judy S Wang12, Richard D Carvajal13, Joshua Sabari14, Sonya Chapman15, Wei Zhang16, Boris Calderon16, Daniel A Peterson16.   

Abstract

Background LY3022855 is a recombinant, immunoglobulin, human monoclonal antibody targeting the colony-stimulating factor-1 receptor. This phase 1 trial determined the safety, pharmacokinetics, and antitumor activity of LY3022855 in combination with durvalumab or tremelimumab in patients with advanced solid cancers who had received standard anti-cancer treatments. Methods In Part A (dose-escalation), patients received intravenous (IV) LY3022855 25/50/75/100 mg once weekly (QW) combined with durvalumab 750 mg once every two weeks (Q2W) IV or LY3022855 50 or 100 mg QW IV with tremelimumab 75/225/750 mg once every four weeks. In Part B (dose-expansion), patients with non-small cell lung cancer (NSCLC) or ovarian cancer (OC) received recommended phase 2 dose (RP2D) of LY3022855 from Part A and durvalumab 750 mg Q2W. Results Seventy-two patients were enrolled (median age 61 years): Part A = 33, Part B = 39. In Part A, maximum tolerated dose was not reached, and LY3022855 100 mg QW and durvalumab 750 mg Q2W was the RP2D. Four dose-limiting equivalent toxicities occurred in two patients from OC cohort. In Part A, maximum concentration, area under the concentration-time curve, and serum concentration showed dose-dependent increase over two cycles of therapy. Overall rates of complete response, partial response, and disease control were 1.4%, 2.8%, and 33.3%. Treatment-emergent anti-drug antibodies were observed in 21.2% of patients. Conclusions LY3022855 combined with durvalumab or tremelimumab in patients with advanced NSCLC or OC had limited clinical activity, was well tolerated. The RP2D was LY3022855 100 mg QW with durvalumab 750 mg Q2W. ClinicalTrials.gov ID: NCT02718911 (Registration Date: May 3, 2011).
© 2021. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.

Entities:  

Keywords:  Advanced solid cancer; CSF-1; CSF-1R inhibitor; LY3022855; NSCLC; Ovarian cancer

Mesh:

Substances:

Year:  2021        PMID: 33852104     DOI: 10.1007/s10637-021-01088-4

Source DB:  PubMed          Journal:  Invest New Drugs        ISSN: 0167-6997            Impact factor:   3.850


  25 in total

1.  Remodeling tumor immune microenvironment via targeted blockade of PI3K-γ and CSF-1/CSF-1R pathways in tumor associated macrophages for pancreatic cancer therapy.

Authors:  Man Li; Mengmeng Li; Yiliang Yang; Yingke Liu; Hanbing Xie; Qianwen Yu; Lifeng Tian; Xian Tang; Kebai Ren; Jianping Li; Zhirong Zhang; Qin He
Journal:  J Control Release       Date:  2020-02-05       Impact factor: 9.776

2.  First-in-Human Study of AMG 820, a Monoclonal Anti-Colony-Stimulating Factor 1 Receptor Antibody, in Patients with Advanced Solid Tumors.

Authors:  Kyriakos P Papadopoulos; Larry Gluck; Lainie P Martin; Anthony J Olszanski; Anthony W Tolcher; Gataree Ngarmchamnanrith; Erik Rasmussen; Benny M Amore; Dirk Nagorsen; John S Hill; Joe Stephenson
Journal:  Clin Cancer Res       Date:  2017-06-27       Impact factor: 12.531

Review 3.  Immunotherapy with checkpoint inhibitors in patients with ovarian cancer: Still promising?

Authors:  Antonio González-Martín; Luisa Sánchez-Lorenzo
Journal:  Cancer       Date:  2019-12-15       Impact factor: 6.860

Review 4.  T Cell Dysfunction in Cancer.

Authors:  Daniela S Thommen; Ton N Schumacher
Journal:  Cancer Cell       Date:  2018-04-09       Impact factor: 31.743

Review 5.  Targeting Tumor-Associated Macrophages as a Potential Strategy to Enhance the Response to Immune Checkpoint Inhibitors.

Authors:  Luca Cassetta; Takanori Kitamura
Journal:  Front Cell Dev Biol       Date:  2018-04-04

6.  Targeting myeloid-inflamed tumor with anti-CSF-1R antibody expands CD137+ effector T-cells in the murine model of pancreatic cancer.

Authors:  May Tun Saung; Stephen Muth; Ding Ding; Dwayne L Thomas; Alex B Blair; Takahiro Tsujikawa; Lisa Coussens; Elizabeth M Jaffee; Lei Zheng
Journal:  J Immunother Cancer       Date:  2018-11-13       Impact factor: 13.751

7.  Preclinical evaluation of 3D185, a novel potent inhibitor of FGFR1/2/3 and CSF-1R, in FGFR-dependent and macrophage-dominant cancer models.

Authors:  Xia Peng; Pengcong Hou; Yi Chen; Yang Dai; Yinchun Ji; Yanyan Shen; Yi Su; Bo Liu; Yueliang Wang; Deqiao Sun; Yuchen Jiang; Chuantao Zha; Zuoquan Xie; Jian Ding; Meiyu Geng; Jing Ai
Journal:  J Exp Clin Cancer Res       Date:  2019-08-22

Review 8.  Targeting T cell metabolism in the tumor microenvironment: an anti-cancer therapeutic strategy.

Authors:  Zhongping Yin; Ling Bai; Wei Li; Tanlun Zeng; Huimin Tian; Jiuwei Cui
Journal:  J Exp Clin Cancer Res       Date:  2019-09-13

Review 9.  CTLA-4 and PD-1 Pathways: Similarities, Differences, and Implications of Their Inhibition.

Authors:  Elizabeth I Buchbinder; Anupam Desai
Journal:  Am J Clin Oncol       Date:  2016-02       Impact factor: 2.339

10.  Targeting myeloid-derived suppressor cells with colony stimulating factor-1 receptor blockade can reverse immune resistance to immunotherapy in indoleamine 2,3-dioxygenase-expressing tumors.

Authors:  Rikke B Holmgaard; Dmitriy Zamarin; Alexander Lesokhin; Taha Merghoub; Jedd D Wolchok
Journal:  EBioMedicine       Date:  2016-02-13       Impact factor: 8.143
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1.  Anti-CSF-1R emactuzumab in combination with anti-PD-L1 atezolizumab in advanced solid tumor patients naïve or experienced for immune checkpoint blockade.

Authors:  Carlos Gomez-Roca; Philippe Cassier; Dmitriy Zamarin; Jean-Pascal Machiels; Jose Luis Perez Gracia; F Stephen Hodi; Alvaro Taus; Maria Martinez Garcia; Valentina Boni; Joseph P Eder; Navid Hafez; Ryan Sullivan; David Mcdermott; Stephane Champiat; Sandrine Aspeslagh; Catherine Terret; Anna-Maria Jegg; Wolfgang Jacob; Michael A Cannarile; Carola Ries; Konstanty Korski; Francesca Michielin; Randolph Christen; Galina Babitzki; Carl Watson; Georgina Meneses-Lorente; Martin Weisser; Dominik Rüttinger; Jean-Pierre Delord; Aurelien Marabelle
Journal:  J Immunother Cancer       Date:  2022-05       Impact factor: 12.469

Review 2.  Tumor-Associated Macrophages and Ovarian Cancer: Implications for Therapy.

Authors:  David Schweer; Annabel McAtee; Khaga Neupane; Christopher Richards; Frederick Ueland; Jill Kolesar
Journal:  Cancers (Basel)       Date:  2022-04-29       Impact factor: 6.575

Review 3.  Targeting Cellular Components of the Tumor Microenvironment in Solid Malignancies.

Authors:  Carmen Belli; Gabriele Antonarelli; Matteo Repetto; Luca Boscolo Bielo; Edoardo Crimini; Giuseppe Curigliano
Journal:  Cancers (Basel)       Date:  2022-09-01       Impact factor: 6.575

Review 4.  Emerging strategies in targeting tumor-resident myeloid cells for cancer immunotherapy.

Authors:  Yi Wang; Kai Conrad Cecil Johnson; Margaret E Gatti-Mays; Zihai Li
Journal:  J Hematol Oncol       Date:  2022-08-28       Impact factor: 23.168

Review 5.  Macrophages as a Therapeutic Target in Metastatic Prostate Cancer: A Way to Overcome Immunotherapy Resistance?

Authors:  Clara Martori; Lidia Sanchez-Moral; Tony Paul; Juan Carlos Pardo; Albert Font; Vicenç Ruiz de Porras; Maria-Rosa Sarrias
Journal:  Cancers (Basel)       Date:  2022-01-16       Impact factor: 6.639
  5 in total

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