A phase 2 study of canakinumab in patient with myelofibrosis: Results from part 1 Free

Introduction Myelofibrosis (MF) is a myeloproliferative neoplasm (MPN) for which the only approved therapies are JAK inhibitors which improve splenomegaly and disease-related symptoms. Inflammatory pathways beyond JAK-STAT are critical in the pathobiology of MF and contribute to patients' clinical manifestations. IL-1β is a master regulator of inflammation which is overexpressed in MPNs, preferentially supports the MPN mutant stem cell, and interacts with key cytokines that are implicated in fibrogenesis, inflammatory symptoms, and disease progression. Knockout of IL-1β in MPN mouse models led to an abrogated clinical phenotype, while pharmacologic inhibition of IL-1β resulted in reduction of reticulin fibrosis and osteosclerosis. Canakinumab is a fully human monoclonal antibody that binds to and neutralizes IL-1β. It is approved for rare inflammatory disorders with a safety profile that has been extensively studied in the CANTOS trial that assessed cardiovascular outcomes in high-risk patients (pts). Based upon these data, we designed a phase 2 study of canakinumab in pts with MF.

Methods NCT05467800 is a Myeloproliferative Neoplasm Research Consortium (MPN-RC) ongoing open-label, 2-part, phase 2 study of canakinumab in pts with MF. Part 1 enrolled pts with MF previously treated with or ineligible to receive a JAK inhibitor. Canakinumab was given subcutaneously at a dose of 200mg on day 1 of 21-day cycles. Primary response assessment occurred at week 24 following cycle 8. Responding pts could continue to receive canakinumab.

Eligible pts had platelets >25 x10⁹/L and a need for MF-directed therapy defined as ≥ 1 of the following: hemoglobin <10 g/dL, transfusion dependency, splenomegaly palpated ≥ 5cm below left costal margin, and/or MPN-SAF version 4.0 TSS ≥ 10.

The primary endpoint was overall response rate (ORR) including CR, PR, or CI after 8 cycles (24 weeks). A Bayesian optimal phase 2 (BOP2) design was used with an interim analysis performed after 10 pts.

Results In part 1, 14 pts were enrolled and 13 were treated. One pt discontinued prior to starting treatment due to rapidly progressive disease. Enrollment onto part 1 has closed with 2 pts remaining on treatment.

Median age was 70 y (range: 55-83). Eleven (84.6%) pts had received prior ruxolitinib. Median hemoglobin was 8.2 g/dL (range: 5.7-13.2), median platelet count was 114 x 10⁹/L (range: 21-484), and median WBC was 9.7 x 10⁹/L (range: 2.4-71.4). Five (38.5%) pts were transfusion dependent. Median MF-SAF TSS at baseline was 15 (range: 4-46). Median spleen volume at baseline was 1522 cm³ (range: 362cm³-2997cm³). Pts received a median of 9 cycles (range: 2-19). Three (23%) pts responded at week 24, achieving a CI-symptom response (TSS50). Six (46%) pts experienced progression of disease due to spleen volume increase.

Median hemoglobin was 8.2 g/dL at baseline, 7.9 g/dL at week 12, and 9.0 g/dL at week 24. Median platelet count was 114 x 10⁹/L at baseline, 98 x 10⁹/L at week 12, and 183 x 10⁹/L at week 24. Median MF-SAF TSS declined from 15 at baseline to 10 at week 12 and 9 at week 24.

Eleven (85%) pts exhibited symptom improvement during treatment (MF-SAF TSS percent change from baseline range -20% to -85%).

In pts with baseline hsCRP ≥ 1.0 (n = 8), canakinumab led to a reduction at week 24 (or EOT if prior to week 24) in 5/8 (62.5%) with a median decrease in CRP of 37%.

The most common adverse events (AEs) were anemia and thrombocytopenia and often attributed to underlying disease. Non-hematologic grade ≥ 3 AEs occurred in 3 pts and were deemed unrelated to canakinumab, except for one grade 3 increase in bilirubin that was possibly related per the treating physician.

Conclusion The IL-1β inhibitor, canakinumab, resulted in consistent symptom improvement and exhibited beneficial impact on cytopenias in pts with R/R MF while demonstrating a manageable toxicity profile. Consistent with pre-clinical data, inhibition of IL-1β had little impact on splenomegaly, an observation that was likely enhanced by frequent JAK inhibitor discontinuation prior to study start. Given the encouraging impact on MF symptoms, blood counts and reassuring safety profile, the study was amended to enroll pts on a stable dose of a JAK inhibitor (ruxolitinib, fedratinib, momelotinib, or pacritinib) who have the potential to benefit from additional therapy. Part 2 is currently enrolling at multiple sites and updated clinical and correlative data will be presented at the meeting.