Abstract
The myeloproliferative neoplasm myelofibrosis is characterized by frequent deregulation of Janus kinase (JAK)/signal transducer and activator of transcription (STAT) signaling, and JAK inhibitors were shown to reduce splenomegaly and ameliorate disease-related symptoms. However, the mutant clone and bone marrow fibrosis persist in the majority of patients. Using preclinical models, we explored whether JAK and pan-deacetylase inhibitor combination yielded additional benefits. The combination of the JAK1/2 inhibitor ruxolitinib and panobinostat was investigated using two different mouse models of JAK2(V617F)-driven disease. A Ba/F3 JAK2(V617F) cell-driven leukemic disease model was used to identify tolerated and efficacious doses. The drugs were then evaluated alone and in combination in a mouse model of myeloproliferative neoplasm-like disease based on transplantation of bone marrow transduced with a retrovirus expressing JAK2(V617F). Exposures were determined in blood and tissues, and phosphorylated STAT5 and acetylated histone H3 pharmacodynamic readouts were assessed in spleen and bone marrow. Histologic analysis was conducted on spleen and bone marrow, including staining of reticulin fibers in the latter organ. The combination of ruxolitinib and panobinostat was found to have a more profound effect on splenomegaly, as well as on bone marrow and spleen histology, compared with either agent alone, and the analysis of pharmacodynamic readouts showed that ruxolitinib and panobinostat have nonoverlapping and complementary effects. Combining JAK1/2 and pan-deacetylase inhibitors was fairly well tolerated and resulted in improved efficacy in mouse models of JAK2(V617F)-driven disease compared with the single agents. Thus, the combination of ruxolitinib and panobinostat may represent a promising novel therapeutic modality for myeloproliferative neoplasms.
Highlights
The discovery in 2005 of the somatic activating JAK2V617F mutation in chronic myeloproliferative neoplasms (MPN) polycythemia vera, essential thrombocythemia, and primary myelofibrosis (PMF) provided a rationale for the development of Janus kinase (JAK)2 inhibitors [1], which rapidlyAuthors' Affiliations: 1Disease Area Oncology and 2Preclinical Safety, Discovery and Investigative Pathology, Novartis Institutes for BioMedical Research, Basel, SwitzerlandNote: Supplementary data for this article are available at Clinical Cancer Research Online.Ó2013 American Association for Cancer Research.entered clinical trials for patients with myelofibrosis [2]
The combination of ruxolitinib and panobinostat was found to have a more profound effect on splenomegaly, as well as on bone marrow and spleen histology, compared with either agent alone, and the analysis of pharmacodynamic readouts showed that ruxolitinib and panobinostat have nonoverlapping and complementary effects
Combining JAK1/2 and pan-deacetylase inhibitors was fairly well tolerated and resulted in improved efficacy in mouse models of JAK2V617F-driven disease compared with the single agents
Summary
The discovery in 2005 of the somatic activating JAK2V617F mutation in chronic myeloproliferative neoplasms (MPN) polycythemia vera, essential thrombocythemia, and primary myelofibrosis (PMF) provided a rationale for the development of Janus kinase (JAK) inhibitors [1], which rapidlyAuthors' Affiliations: 1Disease Area Oncology and 2Preclinical Safety, Discovery and Investigative Pathology, Novartis Institutes for BioMedical Research, Basel, SwitzerlandNote: Supplementary data for this article are available at Clinical Cancer Research Online (http://clincancerres.aacrjournals.org/).Ó2013 American Association for Cancer Research.entered clinical trials for patients with myelofibrosis [2]. Consistent with data obtained in preclinical animal models [3,4,5] JAK inhibitors have shown a rapid and durable reduction of splenomegaly in patients with myelofibrosis and a substantial improvement of constitutional symptoms [6,7,8]. To yield additional benefits for patients with myelofibrosis, combinations of JAK inhibitors with other agents seem warranted. Several other drugs are being explored clinically, including deacetylase inhibitors, immunomodulatory agents, smoothened antagonists, recombinant IFN-a, and the rapalog everolimus [10]. Some of these drugs have shown early signs of clinical activity, offering opportunities for eventual combinations with JAK inhibitors. Given the number of different agents being investigated, the choice and prioritization of the combination partner represents a considerable challenge
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