Literature DB >> 26292803

Immunological Consequences of JAK Inhibition: Friend or Foe?

Donal P McLornan1,2, Alesia A Khan3, Claire N Harrison3.   

Abstract

Over the last decade, unparalleled advances have been made within the field of 'Philadelphia chromosome'-negative myeloproliferative neoplasms (MPN) regarding both disease pathogenesis and therapeutic targeting. The discovery of deregulated JAK-STAT signalling in MPN led to the rapid development of JAK inhibitor agents, targeting both mutated and wild-type JAK, which have significantly altered the therapeutic paradigm for patients with MPN. Although the largest population treated with these agents incorporates those with myelofibrosis, increasing data supports potential usage in other MPNs such as essential thromocythaemia and polycythaemia vera. Many MPNs are associated with a hyperinflammatory state and deregulation of immune homeostasis. Over the last few years, research has focused on attempting to decipher the complex and context-dependent changes that contribute to this immune deregulation. Moreover, very recent studies have demonstrated significant JAK inhibitor-mediated effects within the T cell, natural killer cell and dendritic cell compartments following exposure to JAK inhibitors. In parallel, case reports of infections occurring following exposure to ruxolitinib, many of which are atypical, have focused research efforts on delineating JAK inhibitor-associated immunological consequences. Within this review article, we will describe what is currently known about MPN-associated immune deregulation and JAK inhibitor-mediated immunomodulation.

Entities:  

Keywords:  Dendritic cells; Immune; JAK; Myeloproliferative; T cells

Mesh:

Substances:

Year:  2015        PMID: 26292803     DOI: 10.1007/s11899-015-0284-z

Source DB:  PubMed          Journal:  Curr Hematol Malig Rep        ISSN: 1558-8211            Impact factor:   3.952


  77 in total

1.  Reactivation of hepatitis B virus infection following ruxolitinib treatment in a patient with myelofibrosis.

Authors:  G Caocci; F Murgia; L Podda; A Solinas; S Atzeni; G La Nasa
Journal:  Leukemia       Date:  2013-08-09       Impact factor: 11.528

2.  Kinase-deficient forms of Jak1 and Tyk2 inhibit interferon alpha signaling in a dominant manner.

Authors:  K Krishnan; R Pine; J J Krolewski
Journal:  Eur J Biochem       Date:  1997-07-01

3.  JAK inhibition with ruxolitinib versus best available therapy for myelofibrosis.

Authors:  Claire Harrison; Jean-Jacques Kiladjian; Haifa Kathrin Al-Ali; Heinz Gisslinger; Roger Waltzman; Viktoriya Stalbovskaya; Mari McQuitty; Deborah S Hunter; Richard Levy; Laurent Knoops; Francisco Cervantes; Alessandro M Vannucchi; Tiziano Barbui; Giovanni Barosi
Journal:  N Engl J Med       Date:  2012-03-01       Impact factor: 91.245

4.  JAK1/2 inhibition impairs T cell function in vitro and in patients with myeloproliferative neoplasms.

Authors:  Sowmya Parampalli Yajnanarayana; Thomas Stübig; Isabelle Cornez; Haefaa Alchalby; Kathrin Schönberg; Janna Rudolph; Ioanna Triviai; Christine Wolschke; Annkristin Heine; Peter Brossart; Nicolaus Kröger; Dominik Wolf
Journal:  Br J Haematol       Date:  2015-03-30       Impact factor: 6.998

5.  Activating mutation in the tyrosine kinase JAK2 in polycythemia vera, essential thrombocythemia, and myeloid metaplasia with myelofibrosis.

Authors:  Ross L Levine; Martha Wadleigh; Jan Cools; Benjamin L Ebert; Gerlinde Wernig; Brian J P Huntly; Titus J Boggon; Iwona Wlodarska; Jennifer J Clark; Sandra Moore; Jennifer Adelsperger; Sumin Koo; Jeffrey C Lee; Stacey Gabriel; Thomas Mercher; Alan D'Andrea; Stefan Fröhling; Konstanze Döhner; Peter Marynen; Peter Vandenberghe; Ruben A Mesa; Ayalew Tefferi; James D Griffin; Michael J Eck; William R Sellers; Matthew Meyerson; Todd R Golub; Stephanie J Lee; D Gary Gilliland
Journal:  Cancer Cell       Date:  2005-04       Impact factor: 31.743

Review 6.  Cytokines and transcription factors that regulate T helper cell differentiation: new players and new insights.

Authors:  Davide Agnello; Carla S R Lankford; Jay Bream; Akio Morinobu; Massimo Gadina; John J O'Shea; David M Frucht
Journal:  J Clin Immunol       Date:  2003-05       Impact factor: 8.317

Review 7.  Janus kinases in immune cell signaling.

Authors:  Kamran Ghoreschi; Arian Laurence; John J O'Shea
Journal:  Immunol Rev       Date:  2009-03       Impact factor: 12.988

8.  Whole blood transcriptional profiling reveals significant down-regulation of human leukocyte antigen class I and II genes in essential thrombocythemia, polycythemia vera and myelofibrosis.

Authors:  Vibe Skov; Caroline Hasselbalch Riley; Mads Thomassen; Thomas Stauffer Larsen; Morten K Jensen; Ole Weis Bjerrum; Torben A Kruse; Hans Carl Hasselbalch
Journal:  Leuk Lymphoma       Date:  2013-05-15

Review 9.  JAK2 activation by growth hormone and other cytokines.

Authors:  Michael J Waters; Andrew J Brooks
Journal:  Biochem J       Date:  2015-02-15       Impact factor: 3.857

10.  A randomized phase 2a efficacy and safety trial of the topical Janus kinase inhibitor tofacitinib in the treatment of chronic plaque psoriasis.

Authors:  W C Ports; S Khan; S Lan; M Lamba; C Bolduc; R Bissonnette; K Papp
Journal:  Br J Dermatol       Date:  2013-07       Impact factor: 9.302
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  27 in total

Review 1.  The role of the JAK/STAT signal pathway in rheumatoid arthritis.

Authors:  Charles J Malemud
Journal:  Ther Adv Musculoskelet Dis       Date:  2018-05-19       Impact factor: 5.346

Review 2.  Infectious Complications of Biological and Small Molecule Targeted Immunomodulatory Therapies.

Authors:  Joshua S Davis; David Ferreira; Emma Paige; Craig Gedye; Michael Boyle
Journal:  Clin Microbiol Rev       Date:  2020-06-10       Impact factor: 26.132

3.  Pharmacologic control of homeostatic and antigen-driven proliferation to target HIV-1 persistence.

Authors:  E A Innis; C Levinger; M A Szaniawski; E S C P Williams; J Alcamí; A Bosque; J T Schiffer; M Coiras; A M Spivak; V Planelles
Journal:  Biochem Pharmacol       Date:  2021-10-26       Impact factor: 5.858

Review 4.  Fatal Disseminated Tuberculosis and Concurrent Disseminated Cryptococcosis in a Ruxolitinib-treated Patient with Primary Myelofibrosis: A Case Report and Literature Review.

Authors:  Asuka Ogai; Kazuma Yagi; Fumimaro Ito; Hideharu Domoto; Tetsuya Shiomi; Kenko Chin
Journal:  Intern Med       Date:  2021-09-25       Impact factor: 1.282

5.  Fungal Infections with Ibrutinib and Other Small-Molecule Kinase Inhibitors.

Authors:  Marissa A Zarakas; Jigar V Desai; Georgios Chamilos; Michail S Lionakis
Journal:  Curr Fungal Infect Rep       Date:  2019-07-05

6.  Persistent polyomavirus-associated nephropathy in a patient with GvHD and treatment with the JAK1/2 inhibitor ruxolitinib.

Authors:  Matthias A Fante; Ernst Holler; Barbara Schmidt; Daniel Wolff; Yvonne Ehrl; Annelie Plentz
Journal:  Bone Marrow Transplant       Date:  2018-10-22       Impact factor: 5.483

Review 7.  The immune landscape in BCR-ABL negative myeloproliferative neoplasms: inflammation, infections and opportunities for immunotherapy.

Authors:  Marie Strickland; Lynn Quek; Bethan Psaila
Journal:  Br J Haematol       Date:  2021-10-07       Impact factor: 8.615

8.  Reactivation of Pulmonary Tuberculosis following Treatment of Myelofibrosis with Ruxolitinib.

Authors:  Maheen Z Abidi; Javeria Haque; Parvathi Varma; Horatiu Olteanu; Guru Subramanian Guru Murthy; Binod Dhakal; Parameswaran Hari
Journal:  Case Rep Hematol       Date:  2016-10-23

9.  Resolution of thrombocytopenia, but not polycythemia after ruxolitinib for polycythemia vera with detectable mutation in the exon 12 of the JAK2 gene.

Authors:  Grzegorz Helbig; Ryszard Wichary; Karolina Torba; Sławomira Kyrcz-Krzemień
Journal:  Med Oncol       Date:  2017-01-24       Impact factor: 3.064

Review 10.  Untwining Anti-Tumor and Immunosuppressive Effects of JAK Inhibitors-A Strategy for Hematological Malignancies?

Authors:  Klara Klein; Dagmar Stoiber; Veronika Sexl; Agnieszka Witalisz-Siepracka
Journal:  Cancers (Basel)       Date:  2021-05-26       Impact factor: 6.639
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