Heterodimeric JAK–STAT activation as a mechanism of persistence to JAK2 inhibitor therapy

Chronic exposure to JAK2 inhibitors leads to reactivation of downstream signalling through the formation of heterodimers between JAK2 and other JAK kinases in myeloproliferative neoplasms, which can be overcome with Hsp90 inhibitors. Mutations in JAK kinases, in particular JAK2, are frequent in some malignancies and JAK inhibitors have been trialled for example in patients with myeloproliferative neoplasms (MPNs). Here, Ross Levine and colleagues demonstrate that MPN cells can persist under conditions of chronic JAK2 inhibition, because JAK2 forms a heterodimer with other JAK kinases, leading to persistent JAK2 activation. This mode of drug 'persistence' seems to occur in patients treated with JAK2 inhibitor. Therapeutic approaches that induce JAK2 degradation may therefore be more effective than treatment with JAK2 inhibitors alone. The identification of somatic activating mutations in JAK2 (refs 1–4) and in the thrombopoietin receptor gene (MPL)5 in most patients with myeloproliferative neoplasm (MPN) led to the clinical development of JAK2 kinase inhibitors6,7. JAK2 inhibitor therapy improves MPN-associated splenomegaly and systemic symptoms but does not significantly decrease or eliminate the MPN clone in most patients with MPN. We therefore sought to characterize mechanisms by which MPN cells persist despite chronic inhibition of JAK2. Here we show that JAK2 inhibitor persistence is associated with reactivation of JAK–STAT signalling and with heterodimerization between activated JAK2 and JAK1 or TYK2, consistent with activation of JAK2 in trans by other JAK kinases. Further, this phenomenon is reversible: JAK2 inhibitor withdrawal is associated with resensitization to JAK2 kinase inhibitors and with reversible changes in JAK2 expression. We saw increased JAK2 heterodimerization and sustained JAK2 activation in cell lines, in murine models and in patients treated with JAK2 inhibitors. RNA interference and pharmacological studies show that JAK2-inhibitor-persistent cells remain dependent on JAK2 protein expression. Consequently, therapies that result in JAK2 degradation retain efficacy in persistent cells and may provide additional benefit to patients with JAK2-dependent malignancies treated with JAK2 inhibitors.