Literature DB >> 21126226

The use of structural biology in Janus kinase targeted drug discovery.

Nilda L Alicea-Velázquez1, Titus J Boggon.   

Abstract

The Janus kinases (or Jak kinases) mediate cytokine and growth factor signal transduction. Acquired or inherited Jak mutations can result in dysregulation of Jak-mediated signal transduction and can be critical to disease acquisition in neoplasias including acute myeloid, acute lymphoblastic and acute megakaryoblastic leukemias, and in rare X-linked severe combined immunodeficiency. The discovery of an acquired Jak2 point mutation, V617F, in significant numbers of patients with classical myeloproliferative disorders has increased the interest in development of Jak2-specific tyrosine kinase inhibitors and consequently there are now over 20 publically available structures of Jak kinase domains that describe all four family members, Jak1, Jak2, Jak3, and Tyk2. Here we review the recent advances in understanding the druggable structure and function of the Jak family, with a focus on the structural biology of the Jak kinase domain. We will discuss how these advances impact the development of Jak-targeted therapeutics.

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Year:  2011        PMID: 21126226      PMCID: PMC3786457          DOI: 10.2174/138945011794751528

Source DB:  PubMed          Journal:  Curr Drug Targets        ISSN: 1389-4501            Impact factor:   3.465


  81 in total

1.  A single amino acid substitution (Trp(666)-->Ala) in the interbox1/2 region of the interleukin-6 signal transducer gp130 abrogates binding of JAK1, and dominantly impairs signal transduction.

Authors:  C Haan; H M Hermanns; P C Heinrich; I Behrmann
Journal:  Biochem J       Date:  2000-07-01       Impact factor: 3.857

2.  Regulation of the Jak2 tyrosine kinase by its pseudokinase domain.

Authors:  P Saharinen; K Takaluoma; O Silvennoinen
Journal:  Mol Cell Biol       Date:  2000-05       Impact factor: 4.272

3.  Structural requirements of the interleukin-6 signal transducer gp130 for its interaction with Janus kinase 1: the receptor is crucial for kinase activation.

Authors:  Claude Haan; Peter C Heinrich; Iris Behrmann
Journal:  Biochem J       Date:  2002-01-01       Impact factor: 3.857

4.  Unexpected effects of FERM domain mutations on catalytic activity of Jak3: structural implication for Janus kinases.

Authors:  Y J Zhou; M Chen; N A Cusack; L H Kimmel; K S Magnuson; J G Boyd; W Lin; J L Roberts; A Lengi; R H Buckley; R L Geahlen; F Candotti; M Gadina; P S Changelian; J J O'Shea
Journal:  Mol Cell       Date:  2001-11       Impact factor: 17.970

5.  Structural and thermodynamic characterization of the TYK2 and JAK3 kinase domains in complex with CP-690550 and CMP-6.

Authors:  Jill E Chrencik; Akshay Patny; Iris K Leung; Brian Korniski; Thomas L Emmons; Troii Hall; Robin A Weinberg; Jennifer A Gormley; Jennifer M Williams; Jacqueline E Day; Jeffrey L Hirsch; James R Kiefer; Joseph W Leone; H David Fischer; Cynthia D Sommers; Horng-Chih Huang; E J Jacobsen; Ruth E Tenbrink; Alfredo G Tomasselli; Timothy E Benson
Journal:  J Mol Biol       Date:  2010-05-15       Impact factor: 5.469

Review 6.  Mutations in severe combined immune deficiency (SCID) due to JAK3 deficiency.

Authors:  L D Notarangelo; P Mella; A Jones; G de Saint Basile; G Savoldi; T Cranston; M Vihinen; R F Schumacher
Journal:  Hum Mutat       Date:  2001-10       Impact factor: 4.878

7.  Potent and selective inhibition of polycythemia by the quinoxaline JAK2 inhibitor NVP-BSK805.

Authors:  Fabienne Baffert; Catherine H Régnier; Alain De Pover; Carole Pissot-Soldermann; Gisele A Tavares; Francesca Blasco; Josef Brueggen; Patrick Chène; Peter Drueckes; Dirk Erdmann; Pascal Furet; Marc Gerspacher; Marc Lang; David Ledieu; Lynda Nolan; Stephan Ruetz; Joerg Trappe; Eric Vangrevelinghe; Markus Wartmann; Lorenza Wyder; Francesco Hofmann; Thomas Radimerski
Journal:  Mol Cancer Ther       Date:  2010-06-29       Impact factor: 6.261

8.  Structural mechanism for STI-571 inhibition of abelson tyrosine kinase.

Authors:  T Schindler; W Bornmann; P Pellicena; W T Miller; B Clarkson; J Kuriyan
Journal:  Science       Date:  2000-09-15       Impact factor: 47.728

9.  Prediction of the structure of human Janus kinase 2 (JAK2) comprising the two carboxy-terminal domains reveals a mechanism for autoregulation.

Authors:  K Lindauer; T Loerting; K R Liedl; R T Kroemer
Journal:  Protein Eng       Date:  2001-01

10.  Complex effects of naturally occurring mutations in the JAK3 pseudokinase domain: evidence for interactions between the kinase and pseudokinase domains.

Authors:  M Chen; A Cheng; F Candotti; Y J Zhou; A Hymel; A Fasth; L D Notarangelo; J J O'Shea
Journal:  Mol Cell Biol       Date:  2000-02       Impact factor: 4.272
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  15 in total

1.  Protection of porcine endothelial cells against apoptosis with interleukin-4.

Authors:  Sylvester M Black; Barbara A Benson; Damé Idossa; Gregory M Vercellotti; Agustin P Dalmasso
Journal:  Xenotransplantation       Date:  2011 Nov-Dec       Impact factor: 3.907

2.  JAK Kinase Inhibitors as Possible Treatment for Myeloproliferative Disorders and Cancer: Patent Highlight.

Authors:  Ahmed F Abdel-Magid
Journal:  ACS Med Chem Lett       Date:  2012-07-05       Impact factor: 4.345

3.  Structure-guided studies of the SHP-1/JAK1 interaction provide new insights into phosphatase catalytic domain substrate recognition.

Authors:  Nilda L Alicea-Velázquez; Jean Jakoncic; Titus J Boggon
Journal:  J Struct Biol       Date:  2013-01-04       Impact factor: 2.867

Review 4.  Epigenetic polypharmacology: A new frontier for epi-drug discovery.

Authors:  Daniela Tomaselli; Alessia Lucidi; Dante Rotili; Antonello Mai
Journal:  Med Res Rev       Date:  2019-06-20       Impact factor: 12.944

5.  Inhibition of Janus kinase/signal transducer and activator of transcription (JAK/STAT) signalling pathway in rheumatoid synovial fibroblasts using small molecule compounds.

Authors:  K Migita; Y Izumi; T Torigoshi; K Satomura; M Izumi; Y Nishino; Y Jiuchi; M Nakamura; H Kozuru; F Nonaka; K Eguchi; A Kawakami; S Motokawa
Journal:  Clin Exp Immunol       Date:  2013-12       Impact factor: 4.330

Review 6.  Targeting Janus Kinases and Signal Transducer and Activator of Transcription 3 to Treat Inflammation, Fibrosis, and Cancer: Rationale, Progress, and Caution.

Authors:  Uddalak Bharadwaj; Moses M Kasembeli; Prema Robinson; David J Tweardy
Journal:  Pharmacol Rev       Date:  2020-04       Impact factor: 25.468

7.  Artocarpus altilis CG-901 alters critical nodes in the JH1-kinase domain of Janus kinase 2 affecting upstream JAK/STAT3 signaling.

Authors:  Oyekanmi Nash; Olaposi Omotuyi; Joonku Lee; Byoung-Mog Kwon; Lucy Ogbadu
Journal:  J Mol Model       Date:  2015-10-07       Impact factor: 1.810

Review 8.  STAT3 inhibitors: finding a home in lymphoma and leukemia.

Authors:  Javier Munoz; Navjot Dhillon; Filip Janku; Stephanie S Watowich; David S Hong
Journal:  Oncologist       Date:  2014-04-04

9.  Enabling structure-based drug design of Tyk2 through co-crystallization with a stabilizing aminoindazole inhibitor.

Authors:  Maria A Argiriadi; Eric R Goedken; David Banach; David W Borhani; Andrew Burchat; Richard W Dixon; Doug Marcotte; Gary Overmeyer; Valerie Pivorunas; Ramkrishna Sadhukhan; Silvino Sousa; Nigel St John Moore; Medha Tomlinson; Jeffrey Voss; Lu Wang; Neil Wishart; Kevin Woller; Robert V Talanian
Journal:  BMC Struct Biol       Date:  2012-09-20

10.  Degradation of Janus kinases in CRLF2-rearranged acute lymphoblastic leukemia.

Authors:  Yunchao Chang; Jaeki Min; Jamie A Jarusiewicz; Marisa Actis; Shanshan Yu-Chen Bradford; Anand Mayasundari; Lei Yang; Divyabharathi Chepyala; Lisa J Alcock; Kathryn G Roberts; Stanley Nithianantham; Dylan Maxwell; Lauren Rowland; Randolph Larsen; Aman Seth; Hiroaki Goto; Toshihiko Imamura; Koshi Akahane; Baranda S Hansen; Shondra M Pruett-Miller; Elisabeth M Paietta; Mark R Litzow; Chunxu Qu; Jun J Yang; Marcus Fischer; Zoran Rankovic; Charles G Mullighan
Journal:  Blood       Date:  2021-12-09       Impact factor: 25.476
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