Background: Chronic myelomonocytic leukemia (CMML) is a universally fatal adult myeloid neoplasm with a median survival of 32 months and no approved therapies that alter its natural history. Although most patients initially present asymptomatically, disease progression (DP) is inevitable and its biological triggers remain poorly understood. Anecdotes and small case series suggest that acute inflammatory events (AIE) may precipitate hyperleukocytosis and DP in some patients, but fragmented care in the U.S. has hindered large-scale retrospective analyses. To address this gap, we launched a prospective, multi-institutional observational study to systematically evaluate the relationship between AIEs and DP. Our aim is to identify modifiable, cell-extrinsic stressors that contribute to disease destabilization and inform strategies for prolonging the indolent phase of CMML.

Methods: We enrolled patients with WHO-defined CMML in a clinically asymptomatic state, defined by: (1) MPN-SAF TSS <20, (2) no CMML-directed therapy, (3) no symptomatic splenomegaly, and (4) transfusion independence. Key exclusions included active malignancy, uncontrolled infection, or inability to attend monthly visits. Over 24 months, participants underwent monthly interviews to document AIEs, including flares of chronic illness e.g. gout, infections, surgery procedures, cardiovascular events, and trauma. AIE severity was graded by hospitalization status. Blood samples were collected at each visit, with bone marrow collected when clinically indicated. Cytokine profiling was performed using Olink Reveal assays, and genomic data were integrated to assess mutation-specific inflammatory patterns. DP was defined by worsening symptoms (MPN-SAF TSS ≥20 with ≥50% increase), new transfusion needs, therapy initiation, symptomatic splenomegaly, or transformation to CMML-2/AML. Descriptive statistics summarized baseline and AIE data. Progression-free (PFS) and overall survival (OS) were analyzed using Kaplan–Meier and Cox regression models.

Results: A total of 102 patients were enrolled over 2 years, with a median follow-up of 1 year (range, 0.5–1.5). The median age was 72 years; 71 were male and 31 female. By FAB criteria, 38 had myeloproliferative-type CMML, and 8 met WHO 2022 criteria for CMML-2. CPSS-Mol risk distribution was: 49.0% low, 26.5% intermediate-1, 37.3% intermediate-2, and 3.99% high.

A total of 260 AIE were recorded in 77 patients. The most common AIEs were surgical procedures (n=115 events in 53 patients), flares of chronic disease (n=99 in 38), and infections (n=87 in 47). DP occurred in 28 patients: 18 met symptom-defined criteria, 13 met disease-defined criteria, and 3 met both.

Longitudinal labs showed significant post-AIE increases in WBC (6.29 → 7.73 ×10⁹/L, p = 0.02) and platelets (112 → 131 ×10⁹/L, p = 0.03), with no change in hemoglobin (p = 0.27). Progressors had significantly lower hemoglobin than non-progressors (11.6 vs. 12.7 g/dL, p = 0.037), with no differences in WBC or platelet counts (p > 0.5).

Among those with DP, 25 of 28 had at least one AIE. AIE presence was significantly associated with DP (OR 3.76, p = 0.04). Flares of chronic disease conferred a threefold increased risk of DP (OR 3.37, p = 0.008) and remained an independent risk factor after adjusting for CPSS-Mol risk (OR 3.6, p = 0.009). Severe AIEs requiring hospitalization trended toward higher risk but were not statistically significant (OR 2.3, p = 0.09).

Among the 44 patients with genomic data, all AIE-positive patients (29/29) harbored at least one epigenetic regulator mutations (TET2, DNMT3A, ASXL1, IDH1/2), compared to 12/15 AIE-negative patients (p = 0.034). Signaling mutations (JAK2, CBL, NRAS, KRAS) were also enriched in AIE-positive cases (11/29 vs. 1/15, p = 0.035). No significant differences were found in spliceosome or tumor suppressor mutations. No genomic features distinguished progressors from non-progressors, regardless of whether there was an AIE.

Conclusion: In this interim analysis of a prospective multi-institutional CMML cohort, AIE were significantly associated with DP. Ongoing work is aimed at sequentially annotating genomic alterations and profiling secreted factors before and after AIEs. While this study continues to accrue and mature, these findings support inflammation as a modifiable driver to CMML biology and progression and lay the groundwork for future studies investigating inflammatory or supportive interventions to delay disease evolution.

This content is only available as a PDF.
2025
Sign in via your Institution