August 26, 2024
Polycythemia vera (PV) is a chronic myeloproliferative neoplasm characterized by erythrocytosis in the context of a somatic JAK2 mutation and a hypercellular marrow with an atypical megakaryocyte morphology. Virtually, all patients with PV harbor a point activating JAK2 mutation, including >95% with JAKV617F and the remainder with other activating JAK2 mutations, including exon 12 [Citation1]. Beyond the JAK2 driver mutation, acquired subclonal mutations have been described in PV involving epigenetic regulation (i.e. TET2 and ASXL1), splicing (i.e. SRSF2), and cellular metabolism (i.e. IDH2) [Citation2]. While clinically derived risk factors including advanced age, thrombosis history, and leukocyte count influence survival outcomes, clonal genomics have recently been integrated into prognostication with the mutation-enhanced international prognostic systems for PV (MIPSS-PV), which highlights the adverse prognostic role of non-driver mutations [Citation3].
Current management of PV is based on risk stratification, favoring cytoreductive treatment in patients with higher risk of thrombosis. The principal goal of PV management is to optimize patients in a way that improves the quality of life and decreases PV-related events, namely, thrombotic events, progression to myelofibrosis, and transformation to blast phase, which are ultimately associated with poor prognosis. While low-dose aspirin and therapeutic phlebotomy are standard management for all risk groups, patients with high-risk PV are recommended to be treated with the addition of a cytoreductive agent. Furthermore, cytoreductive therapy should be considered in certain subgroups of low-risk PV, including patients intolerant of venesection, those with progressive splenomegaly, individuals with persistent leukocytosis or thrombocytosis, or cases of high symptom burden such as intractable pruritus [Citation4]. Regardless of the risk group or treatment strategy, a target hematocrit (Hct) of <45% is required, as control of this hematologic parameter is associated with a lower rate of cardiovascular death and major thrombosis [Citation5].
First-line drugs of choice for PV currently include hydroxyurea (HU) and pegylated interferon alfa-2a (peg-IFN). HU was first introduced as cytoreductive therapy for PV in 1970 and has, therefore, accumulated a significant amount of data endorsing efficacy and tolerability. Despite a lack of randomized control trials and continued debate over potential leukemogenicity, there is general agreement on the net benefit of HU. Early non-randomized trials demonstrated a lower incidence of early thrombosis in HU-treated patients compared to phlebotomy-only historical controls [Citation6]. A recent reappraisal of over 1000 patients enrolled in the ECLAP study confirmed less frequent fatal and non-fatal cardiovascular events with HU treatment compared to phlebotomy alone [Citation7]. However, approximately 25% of PV patients are considered intolerant to HU because of emergent toxicities or are resistant to HU due to lack of effective cytoreduction.