PURPOSE OF REVIEW: The article discusses the promising agents that are approved or currently under investigation for the treatment of myelofibrosis and reviews the ongoing Janus kinase (JAK) inhibitors-based combinatorial strategies in this setting. RECENT FINDINGS: Myelofibrosis is a Philadelphia-negative myeloproliferative neoplasm with constitutive JAK/STAT activation. The JAK-inhibitor ruxolitinib is the only approved drug for this disease in the United States and Europe based on two randomized phase III studies that demonstrated clinically meaningful reduction in spleen size, improvement in symptoms, quality of life, and an overall survival advantage with prolonged follow-up. Emerging data have revealed the complex molecular architecture of myelofibrosis with clonal evolution playing a central role in disease progression or transformation. These molecular pathways may explain the heterogeneous benefits obtained by JAK-inhibitors in patients with myelofibrosis. In addition, the genetic and epigenetic mutations appear to work in concert with overactive JAK/STAT signaling and contribute to myelofibrosis pathogenesis and prognosis, suggesting a potential to exploit them as potential therapeutic targets. SUMMARY: Combining JAK-inhibitors with agents that target parallel prosurvival pathways or agents that enhance hematopoiesis may enhance efficacy and/or mitigate on-target myelosuppression, thereby extending the therapeutic benefits observed with JAK-inhibitors alone.
PURPOSE OF REVIEW: The article discusses the promising agents that are approved or currently under investigation for the treatment of myelofibrosis and reviews the ongoing Janus kinase (JAK) inhibitors-based combinatorial strategies in this setting. RECENT FINDINGS:Myelofibrosis is a Philadelphia-negative myeloproliferative neoplasm with constitutive JAK/STAT activation. The JAK-inhibitor ruxolitinib is the only approved drug for this disease in the United States and Europe based on two randomized phase III studies that demonstrated clinically meaningful reduction in spleen size, improvement in symptoms, quality of life, and an overall survival advantage with prolonged follow-up. Emerging data have revealed the complex molecular architecture of myelofibrosis with clonal evolution playing a central role in disease progression or transformation. These molecular pathways may explain the heterogeneous benefits obtained by JAK-inhibitors in patients with myelofibrosis. In addition, the genetic and epigenetic mutations appear to work in concert with overactive JAK/STAT signaling and contribute to myelofibrosis pathogenesis and prognosis, suggesting a potential to exploit them as potential therapeutic targets. SUMMARY: Combining JAK-inhibitors with agents that target parallel prosurvival pathways or agents that enhance hematopoiesis may enhance efficacy and/or mitigate on-target myelosuppression, thereby extending the therapeutic benefits observed with JAK-inhibitors alone.
Authors: Eric Van Den Neste; Marc André; Thomas Gastinne; Aspasia Stamatoullas; Corinne Haioun; Amine Belhabri; Oumedaly Reman; Olivier Casasnovas; Hervé Ghesquieres; Gregor Verhoef; Marie-José Claessen; Hélène A Poirel; Marie-Christine Copin; Romain Dubois; Peter Vandenberghe; Ioanna-Andrea Stoian; Anne S Cottereau; Sarah Bailly; Laurent Knoops; Franck Morschhauser Journal: Haematologica Date: 2018-01-19 Impact factor: 9.941
Authors: Seok Jin Kim; Dok Hyun Yoon; Hye Jin Kang; Jung Yong Hong; Ho Sup Lee; Sung Yong Oh; Ho-Jin Shin; Jee Hyun Kong; Jun Ho Yi; Kana Sakamoto; Young Hyeh Ko; Jooryung Huh; Seung-Sook Lee; Kengo Takeuchi; Dong-Yeop Shin; Cheolwon Suh; Won Seog Kim Journal: BMC Cancer Date: 2019-11-10 Impact factor: 4.430
Authors: Maria-Theresa Krauth; Sonja Burgstaller; Veronika Buxhofer-Ausch; Günther Gastl; Klaus Geissler; Felix Keil; Peter Krippl; Thomas Melchardt; Andreas Petzer; Holger Rumpold; Thamer Sliwa; Stefan Wöhrer; Albert Wölfler; Heinz Gisslinger Journal: Wien Klin Wochenschr Date: 2018-07-24 Impact factor: 1.704