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Discovery of Potent and Selective Pyrazolopyrimidine Janus Kinase 2 Inhibitors

  • Emily J. Hanan (1475086)
  • Anne van Abbema (1947484)
  • Kathy Barrett (1600633)
  • Wade S. Blair (235574)
  • Jeff Blaney (2019937)
  • Christine Chang (111265)
  • Charles Eigenbrot (1346406)
  • Sean Flynn (2019655)
  • Paul Gibbons (114343)
  • Christopher A. Hurley (1947685)
  • Jane R. Kenny (2004868)
  • Janusz Kulagowski (2019931)
  • Leslie Lee (2019928)
  • Steven R. Magnuson (1817026)
  • Claire Morris (2019940)
  • Jeremy Murray (114312)
  • Richard M. Pastor (2019946)
  • Tom Rawson (2019934)
  • Michael Siu (1503160)
  • Mark Ultsch (1947487)
  • Aihe Zhou (2019943)
  • Deepak Sampath (640340)
  • Joseph P. Lyssikatos (1551277)
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Publication date
November 2012
Icon DOI
10.1021/jm3012239.s001

Abstract

The discovery of somatic Jak2 mutations in patients with chronic myeloproliferative neoplasms has led to significant interest in discovering selective Jak2 inhibitors for use in treating these disorders. A high-throughput screening effort identified the pyrazolo­[1,5-<i>a</i>]­pyrimidine scaffold as a potent inhibitor of Jak2. Optimization of lead compounds <b>7a</b>–<b>b</b> and <b>8</b> in this chemical series for activity against Jak2, selectivity against other Jak family kinases, and good in vivo pharmacokinetic properties led to the discovery of <b>7j</b>. In a SET2 xenograft model that is dependent on Jak2 for growth, <b>7j</b> demonstrated a time-dependent knock-down of pSTAT5, a downstream target of Jak2

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