Literature DB >> 34253584

Integrated Human and Murine Clinical Study Establishes Clinical Efficacy of Ruxolitinib in Chronic Myelomonocytic Leukemia.

Anthony M Hunter1, Hannah Newman2, Amy E Dezern3, David P Steensma4, Sandrine Niyongere2, Gail J Roboz5, Qianxing Mo6, Onyee Chan2, Aaron Gerds7, David A Sallman2, William Dominguez-Viqueira8, Christopher Letson2, Maria E Balasis2, Markus Ball2, Traci Kruer2, Hailing Zhang9, Jeffrey E Lancet2, Alan F List, Mikkael A Sekeres7, Rami S Komrokji2, Eric Padron10.   

Abstract

PURPOSE: Chronic myelomonocytic leukemia (CMML) is a rare leukemia characterized by peripheral monocytosis with no disease-modifying therapies. CMML cells are uniquely hypersensitive to granulocyte-macrophage colony-stimulating factor (GM-CSF) and robustly engraft in immunocompromised mice that secrete human cytokines. To leverage these unique biological features, we conducted an integrated human and murine study evaluating ruxolitinib, a JAK1/2 inhibitor that potently downregulates intracellular GM-CSF signaling. PATIENTS AND METHODS: A total of 50 patients with WHO-defined CMML were enrolled in this open-label, multi-institution phase I/II clinical study, with a ruxolitinib dose of 20 mg twice daily studied in phase II. In parallel, 49 patient-derived xenografts (PDX) derived from 13 study participants were generated and randomized to receive ruxolitinib or vehicle control.
RESULTS: The most common grade 3/4 treatment-related toxicities observed were anemia (10%) and thrombocytopenia (6%). The clinical overall response rate was 38% by Myelodysplastic Syndrome/Myeloproliferative Neoplasm (MDS/MPN) International Working Group (IWG) criteria and 43% of patients with baseline splenomegaly achieved a spleen response. Profiling of cytokine levels and somatic mutations at baseline failed to identify predictive biomarkers. PDX models derived from screening samples of study participants recapitulated responses seen in humans, particularly spleen responses, and corroborated ruxolitinib's clinical efficacy in a randomized murine study not feasible in human trials.
CONCLUSIONS: Ruxolitinib demonstrated clinical efficacy and an acceptable adverse event profile in patients with CMML, identifying a potential novel therapeutic in this rare malignancy. Furthermore, this study demonstrates proof of concept that PDX modeling can recapitulate responses of patients treated on clinical trial and represents a novel correlative study that corroborates clinical efficacy seen in humans.See related commentary by Shastri and Adrianzen-Herrera, p. 6069. ©2021 American Association for Cancer Research.

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Year:  2021        PMID: 34253584      PMCID: PMC8595542          DOI: 10.1158/1078-0432.CCR-21-0935

Source DB:  PubMed          Journal:  Clin Cancer Res        ISSN: 1078-0432            Impact factor:   12.531


  45 in total

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Journal:  N Engl J Med       Date:  2012-03-01       Impact factor: 91.245

3.  High-throughput screening using patient-derived tumor xenografts to predict clinical trial drug response.

Authors:  Hui Gao; Joshua M Korn; Stéphane Ferretti; John E Monahan; Youzhen Wang; Mallika Singh; Chao Zhang; Christian Schnell; Guizhi Yang; Yun Zhang; O Alejandro Balbin; Stéphanie Barbe; Hongbo Cai; Fergal Casey; Susmita Chatterjee; Derek Y Chiang; Shannon Chuai; Shawn M Cogan; Scott D Collins; Ernesta Dammassa; Nicolas Ebel; Millicent Embry; John Green; Audrey Kauffmann; Colleen Kowal; Rebecca J Leary; Joseph Lehar; Ying Liang; Alice Loo; Edward Lorenzana; E Robert McDonald; Margaret E McLaughlin; Jason Merkin; Ronald Meyer; Tara L Naylor; Montesa Patawaran; Anupama Reddy; Claudia Röelli; David A Ruddy; Fernando Salangsang; Francesca Santacroce; Angad P Singh; Yan Tang; Walter Tinetto; Sonja Tobler; Roberto Velazquez; Kavitha Venkatesan; Fabian Von Arx; Hui Qin Wang; Zongyao Wang; Marion Wiesmann; Daniel Wyss; Fiona Xu; Hans Bitter; Peter Atadja; Emma Lees; Francesco Hofmann; En Li; Nicholas Keen; Robert Cozens; Michael Rugaard Jensen; Nancy K Pryer; Juliet A Williams; William R Sellers
Journal:  Nat Med       Date:  2015-10-19       Impact factor: 53.440

4.  Jak2 is essential for signaling through a variety of cytokine receptors.

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Journal:  Cell       Date:  1998-05-01       Impact factor: 41.582

Review 5.  The clinical management of chronic myelomonocytic leukemia.

Authors:  Eric Padron; Rami Komrokji; Alan F List
Journal:  Clin Adv Hematol Oncol       Date:  2014-03

6.  Safety and efficacy of INCB018424, a JAK1 and JAK2 inhibitor, in myelofibrosis.

Authors:  Srdan Verstovsek; Hagop Kantarjian; Ruben A Mesa; Animesh D Pardanani; Jorge Cortes-Franco; Deborah A Thomas; Zeev Estrov; Jordan S Fridman; Edward C Bradley; Susan Erickson-Viitanen; Kris Vaddi; Richard Levy; Ayalew Tefferi
Journal:  N Engl J Med       Date:  2010-09-16       Impact factor: 91.245

7.  A randomized trial of hydroxyurea versus VP16 in adult chronic myelomonocytic leukemia. Groupe Français des Myélodysplasies and European CMML Group.

Authors:  E Wattel; A Guerci; B Hecquet; T Economopoulos; A Copplestone; B Mahé; M E Couteaux; L Resegotti; V Voglova; C Foussard; B Pegourié; J L Michaux; E Deconinck; A M Stoppa; G Mufti; D Oscier; P Fenaux
Journal:  Blood       Date:  1996-10-01       Impact factor: 22.113

8.  Robust patient-derived xenografts of MDS/MPN overlap syndromes capture the unique characteristics of CMML and JMML.

Authors:  Akihide Yoshimi; Maria E Balasis; Alexis Vedder; Kira Feldman; Yan Ma; Hailing Zhang; Stanley Chun-Wei Lee; Christopher Letson; Sandrine Niyongere; Sydney X Lu; Markus Ball; Justin Taylor; Qing Zhang; Yulong Zhao; Salma Youssef; Young Rock Chung; Xiao Jing Zhang; Benjamin H Durham; Wendy Yang; Alan F List; Mignon L Loh; Virginia Klimek; Michael F Berger; Elliot Stieglitz; Eric Padron; Omar Abdel-Wahab
Journal:  Blood       Date:  2017-06-02       Impact factor: 22.113

9.  The Public Repository of Xenografts Enables Discovery and Randomized Phase II-like Trials in Mice.

Authors:  Elizabeth C Townsend; Mark A Murakami; Alexandra Christodoulou; Amanda L Christie; Johannes Köster; Tiffany A DeSouza; Elizabeth A Morgan; Scott P Kallgren; Huiyun Liu; Shuo-Chieh Wu; Olivia Plana; Joan Montero; Kristen E Stevenson; Prakash Rao; Raga Vadhi; Michael Andreeff; Philippe Armand; Karen K Ballen; Patrizia Barzaghi-Rinaudo; Sarah Cahill; Rachael A Clark; Vesselina G Cooke; Matthew S Davids; Daniel J DeAngelo; David M Dorfman; Hilary Eaton; Benjamin L Ebert; Julia Etchin; Brant Firestone; David C Fisher; Arnold S Freedman; Ilene A Galinsky; Hui Gao; Jacqueline S Garcia; Francine Garnache-Ottou; Timothy A Graubert; Alejandro Gutierrez; Ensar Halilovic; Marian H Harris; Zachary T Herbert; Steven M Horwitz; Giorgio Inghirami; Andrew M Intlekofer; Moriko Ito; Shai Izraeli; Eric D Jacobsen; Caron A Jacobson; Sébastien Jeay; Irmela Jeremias; Michelle A Kelliher; Raphael Koch; Marina Konopleva; Nadja Kopp; Steven M Kornblau; Andrew L Kung; Thomas S Kupper; Nicole R LeBoeuf; Ann S LaCasce; Emma Lees; Loretta S Li; A Thomas Look; Masato Murakami; Markus Muschen; Donna Neuberg; Samuel Y Ng; Oreofe O Odejide; Stuart H Orkin; Rachel R Paquette; Andrew E Place; Justine E Roderick; Jeremy A Ryan; Stephen E Sallan; Brent Shoji; Lewis B Silverman; Robert J Soiffer; David P Steensma; Kimberly Stegmaier; Richard M Stone; Jerome Tamburini; Aaron R Thorner; Paul van Hummelen; Martha Wadleigh; Marion Wiesmann; Andrew P Weng; Jens U Wuerthner; David A Williams; Bruce M Wollison; Andrew A Lane; Anthony Letai; Monica M Bertagnolli; Jerome Ritz; Myles Brown; Henry Long; Jon C Aster; Margaret A Shipp; James D Griffin; David M Weinstock
Journal:  Cancer Cell       Date:  2016-04-11       Impact factor: 31.743

10.  Development and function of human innate immune cells in a humanized mouse model.

Authors:  Anthony Rongvaux; Tim Willinger; Jan Martinek; Till Strowig; Sofia V Gearty; Lino L Teichmann; Yasuyuki Saito; Florentina Marches; Stephanie Halene; A Karolina Palucka; Markus G Manz; Richard A Flavell
Journal:  Nat Biotechnol       Date:  2014-03-16       Impact factor: 54.908
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  3 in total

1.  Srsf2P95H/+ co-operates with loss of TET2 to promote myeloid bias and initiate a chronic myelomonocytic leukemia-like disease in mice.

Authors:  Monique F Smeets; Carl R Walkley; Jane Jialu Xu; Alistair M Chalk; Meaghan Wall; Wallace Y Langdon
Journal:  Leukemia       Date:  2022-10-21       Impact factor: 12.883

2.  How I diagnose and treat chronic myelomonocytic leukemia.

Authors:  Mrinal M Patnaik
Journal:  Haematologica       Date:  2022-07-01       Impact factor: 11.047

Review 3.  Mouse Models of CMML.

Authors:  Ekaterina Belotserkovskaya; Oleg Demidov
Journal:  Int J Mol Sci       Date:  2021-10-26       Impact factor: 5.923
  3 in total

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