Hereditary Chronic Neutrophilic Leukemia in a Four Generation Family without Transformation to Acute Leukemia

Chronic neutrophilic leukemia (CNL) is a rare myeloproliferative neoplasm (MPN) characterized by peripheral blood leukocytosis consisting primarily of segmented neutrophils and band forms, hypercellular bone marrow with granulocytosis, hepatosplenomegaly, and the presence of activating colony-stimulating factor 3 receptor (CSF3R) mutations. Blast transformation occurs frequently in patients with acquired CNL, with a median overall survival of 21 months from diagnosis. Typically, CSF3R mutations in CNL are thought to be somatic; however, we and others have reported rare cases of germline activating CSF3R mutations producing a familial CNL. Here we report the clinical course of a patient with CNL along with definitive evidence of inherited germline transmission of the CSF3R T618I mutation. Spanning four generations, with affected family members of ages 1.6 - 51 years, this is the largest reported pedigree of a family with familial CNL (Figure 1A). The proband is a 49-year-old female referred to our center with a history of lifelong leukocytosis and leukocyte count of 115.1 x 10 9/L with 75% granulocytes and 11% bands, platelet count of 341 x 10 9/L, and hemoglobin of 12.5 g/dL with hematocrit of 38%. The family history was also remarkable for leukocytosis. Prior therapies for the proband included imatinib, splenectomy, and hydroxyurea. Additional testing by our center revealed a T618I CSFR3 mutation, and the absence of mutations in ASXL1 and SETBP1 or a BCR-ABL translocation. Treatment with ruxolitinib resulted in improvement of her leukocyte count to 43.0 x 10 9/L with 73% granulocytes, and reduction in her alkaline phosphatase from 732 IU/L to 296 IU/L. There has been no evidence of gain of any known deleterious somatic mutations that frequently co-occur with somatic T618I CSF3R mutations in CNL in the patient to date. Germline analysis of genomic DNA extracted from cultured mesenchymal stromal cells from the proband and Sanger sequencing demonstrated a heterozygous T618I mutation. Mutational analysis of the proband's family members confirmed a heterozygous CSF3R T618I mutation in all living affected family members, while all unaffected family members tested were homozygous wild type. There has been no evidence of leukemic transformation in any affected family members to date. Mutational analysis was not feasible on the proband's deceased mother and brother with a putative CNL diagnosis due to lack of DNA samples; however, there was no evidence of transformation to acute leukemia in either of the two deceased family members. Because CSF3R can produce anti-apoptotic signaling, we hypothesized that autoactivating T618I mutations could prolong neutrophil survival. Polymorphonuclear cells (PMNs) isolated from the proband and from normal donors were cultured in vitro and apoptosis assessed at 24-hour intervals. Neutrophils expressing the CSF3R T618I had prolonged survival with a >40% decrease in apoptosis after 48 hours in culture (Figure 1B). RNA-seq followed by pathway analysis demonstrated significant decreases in activation of canonical apoptotic pathways in PMNs, including both the extrinsic and mitochondrial dependent pathways. Immunoblotting for candidate anti- and pro-apoptotic proteins revealed increased expression of the anti-apoptotic BCL2 family member MCL1 in T618I-expressing PMNs. Notably, inhibition of MCL1 using S63845 reversed the anti-apoptotic effect induced by ligand-activation of the CSF3R receptor in PMNs (P < 0.001, Figure 1C). In conclusion, we demonstrate hereditary CNL within a large family tree with no observed transformation to acute leukemia in any affected individuals up to age 51, suggesting a potentially more indolent course. Nonetheless, our observations highlight the need for germline testing of patients with CNL to better understand the natural history of CNL. Moreover, our data provide further insight into the pathobiology of CNL and potential novel targets for therapy. Figure 1 Figure 1. Disclosures Voorhees: Bristol-Myers Squibb Company.: Other: Data Safety & Monitoring; AbbVie Inc, Bristol-Myers Squibb Company; Consulting Agreement: GlaxoSmithKline, Novartis, Oncopeptides: Other: Advisory Committee.

Leukemia Cell Lines: In Vitro Models for the Study of Chronic Neutrophilic Leukemia

Chronic neutrophilic leukemia (CNL) is a rare myeloproliferative neoplasm that is genetically characterized by the absence of both the Philadelphia chromosome and BCR-ABL1 fusion gene and the high prevalence of mutations in the colony-stimulating factor 3 receptor (CSF3R). Additional disease-modifying mutations have been recognized in CNL samples, portraying a distinct mutational landscape. Despite the growing knowledge base on genomic aberrations, further progress could be gained from the availability of representative models of CNL. To address this gap, we screened a large panel of available leukemia cell lines, followed by a detailed mutational investigation with focus on the CNL-associated candidate driver genes. The sister cell lines CNLBC-1 and MOLM-20 were derived from a patient with CNL and carry CNL-typical molecular hallmarks, namely mutations in several genes, such as CSF3R, ASXL1, EZH2, NRAS, and SETBP1. The use of these validated and comprehensively characterized models will benefit the understanding of the pathobiology of CNL and help inform therapeutic strategies.

CSF3R T618I, SETBP1 G870S, SRSF2 P95H, and ASXL1 Q780* tetramutation co-contribute to myeloblast transformation in a chronic neutrophilic leukemia

Chronic neutrophilic leukemia (CNL) is a rare but serious myeloid malignancy. In a review of reported cases for WHO-defined CNL, CSF3R mutation is found in about 90% cases and confirmed as the molecular basis of CNL. Concurrent mutations are observed in CSF3R-mutated CNL patients, including ASXL1, SETBP1, SRSF2, JAK2, CALR, TET2, NRAS, U2AF1, and CBL. Both ASXL1 and SETBP1 mutations in CNL have been associated with a poor prognosis, whereas, SRSF2 mutation was undetermined. Our patient was a 77-year-old man and had no significant past medical history and symptoms with leukocytosis. Bone marrow (BM) aspirate and biopsy revealed a markedly hypercellular marrow with prominent left-shifted granulopoiesis. Next-generation sequencing (NGS) of DNA from the BM aspirate of a panel of 28 genes, known to be pathogenic in MDS/MPN, detected mutations in CSF3R, SETBP1, and SRSF2, and a diagnosis of CNL was made. The patient did not use a JAK-STAT pathway inhibitor (ruxolitinib) but started on hydroxyurea and alpha-interferon and developed pruritus after 4 months of diagnosis and nasal hemorrhage 1 month later. Then, the patient was diagnosed with CNL with AML transformation and developed intracranial hemorrhage and died. We repeated NGS and found that three additional mutations were detected: ASXL1, PRKDC, MYOM2; variant allele frequency (VAF) of the prior mutations in CSF3R, SETBP1, and SRSF2 increased. The concurrence of CSF3RT618I, ASXL1, SETBP1, and SRSF2 mutation may be a mutationally detrimental combination and contribute to disease progression and AML transformation, as well as the nonspecific treatment of hydroxyurea and alpha-interferon, but the significance and role of PRKDC and MYOM2 mutations were not undetermined.

A Case of Chronic Neutrophilic Leukemia Incidentally Detected by 18F-FDG PET/CT

Chronic neutrophilic leukemia (CNL) is a rare, potentially aggressive, myeloproliferative neoplasm. To the best of our knowledge, there are no previous reports dealing with 18F-FDG PET findings in CNL. We describe a case of CNL in a 69-year-old male, imaged with 18F-FDG PET/CT at diagnosis and during treatment.

Multiple myeloma coexisting colon carcinoma as the presenting symptom of a neutrophilic leukemoid reaction: a rare case report with genetic analysis

BackgroundLeukemoid reaction refers to reactive leukocytosis exceeding 50,000 cells/µl. Chronic neutrophilic leukemia is a rare clonal hematopoietic disorder characterized by sustained mature neutrophilia in the absence of monocytosis or basophilia. The differentiation between leukemoid reaction and chronic neutrophilic leukemia is problematic because both conditions share similar morphological features. Case presentationHere, we present an extremely rare case of a 62-year-old male patient who was initially diagnosed with chronic neutrophilic leukemia at another hospital. When the patient came to our hospital, no mutations in the CSF3R, SETBP1, ASXL1, TET2, SRSF2, SF3B1, ZRSR2 and U2AF1F genes were found by whole-exon sequencing. Further examination revealed the presence of immunoglobulin G kappa myeloma. Meanwhile, colonoscopy showed a mass in the colon, and biopsy confirmed the presence of colon adenocarcinoma. Therefore, we suggest that the increased white blood cell count in the patient was merely a neutrophilic leukemoid reaction caused by synchronous multiple myeloma and colon carcinoma.ConclusionThis is the first report of a case of coexisting multiple myeloma and colon carcinoma presenting with a neutrophilic leukemoid reaction. This case was presented to illustrate that the diagnosis of chronic neutrophilic leukemia must meet the strict WHO diagnostic criteria, especially if there is an underlying plasma cell disorder, and myeloid clonality must be demonstrated to make a distinction between chronic neutrophilic leukemia and leukemoid reaction. Meanwhile, this case provides us with a reference that further examination, especially pathological examination, should be performed on a patient diagnosed with multiple myeloma, who has extramedullary lesions, because other primary tumors may be also presenting the very similar symptoms. Pathological examination is helpful to differentiate the primary tumor from extramedullary invasion of multiple myeloma.