ETV6-ACSL6 fusion gene in myeloid neoplasms: clinical spectrum, current practice, and outcomes

Imatinib-Induced Clinical Response in ETV6::ACSL6 Myeloid Neoplasm with Eosinophilic Pneumonitis: A Case Report

BACKGROUND Myeloid neoplasms with [em]ETV6::ACSL6[/em] fusions are extremely rare entities that are characterized by eosinophilic and/or basophilic leukocytosis. While they clinically mimic myeloid neoplasms with eosinophilia and tyrosine kinase fusions such as [em]ETV6::PDGFRB[/em], they have not been shown to be responsive to imatinib. There are currently no effective treatments available and clinical outcomes are poor. CASE REPORT We report a rare case of a 71-year-old man with a history of myelodysplastic syndrome/neoplasms (MDS) with mutated [em]SF3B1[/em] and multilineage dysplasia treated with luspatercept followed by azacitidine. However, he developed clonal evolution of disease to MDS with hypereosinophilia. Chromosome analysis identified t(5;12)(q31;p13). Fluorescence in situ hybridization was negative for [em]FIP1L1/PGFFRA[/em] or [em]PDGFRB[/em] gene rearrangement, but RNA-sequencing identified the [em]ETV6::ACSL6[/em] fusion. He received a hematopoietic cell transplantation with achievement of complete remission but subsequently relapsed, with chromosome analysis again revealing t(5;12)(q31;p13) [[em]ETV6::ACSL6[/em]]. He rapidly clinically deteriorated and developed refractory respiratory failure due to acute eosinophilic pneumonitis. He received a prolonged course of high-dose steroids without adequate improvement of the eosinophilia. Based on reports showing good response to tyrosine kinase inhibitors in patients with the [em]ETV6::PDGFRB[/em] fusion, treatment was switched to imatinib, leading to rapid normalization of absolute eosinophil counts, with clinical improvement. CONCLUSIONS Our findings suggest that imatinib should be considered for patients with a myeloid neoplasm with an [em]ETV6::ACSL6[/em] fusion who are refractory to corticosteroids. Further molecular investigations are needed to elucidate the underlying mechanism of imatinib sensitivity in [em]ETV6::ASCL6[/em]-associated disease, given the absence of genetic involvement of a tyrosine kinase.

Novel ETV6::RAPGEF6 fusion gene in chronic eosinophilic leukemia: compiling evidence on the role of IL3 overexpression in tumorigenesis

Chronic eosinophilic leukemia (CEL) is a rare myeloproliferative neoplasm. Diagnosis of CEL is often challenging, notably because of the lack of recurrent and specific molecular event. We report here a case of CEL occurring in a 49-year-old man who presented a persistent hypereosinophilia (HE) associated with anemia and thrombopenia. Karyotyping showed a translocation t(5;12)(q31;p13). Targeted RNA Sequencing identified a novel ETV6::RAPGEF6 fusion gene, confirmed by RT-PCR. Despite several lines of treatment, the patient died after 16 months of duration with transformation to acute myeloid leukemia (AML).Contrary to myeloid/lymphoid neoplasms with eosinophilia and tyrosine kinase gene fusions (MLN-TK), where fusion genes are both class defining and involve tyrosine kinase genes as the 3' partner, fusion genes are exceedingly rare in non-MLN-TK myeloid malignancies with HE. The most reported fusion gene is ETV6::ACSL6, in rare cases. Previously, overexpression of IL3 (interleukin 3) has been described in myeloid neoplasms with ETV6::ACSL6 (previously named ACS2). In our case of CEL with the ETV6::RAPGEF6 fusion, we also demonstrated overexpression of IL3, which could potentially result from the proximity of the IL3 gene to RAPGEF6, similar to what is observed with ACSL6 and IL3. The use of RNA sequencing in routine diagnosis of CEL could provide evidence for clonal event such as gene fusion, improving diagnosis as well as prognosis and therapeutic approaches.

A case of adult ETV6-ASCL6 fusion gene positive chronic myeloproliferative tumor and literature review

ETV6-ASCL6 fusion gene plays an important role in hematopoiesis and hematological malignancies, but it is rare in hematological diseases. This paper describes a case of etv6-ascl6 fusion gene positive patient who was successively diagnosed as myelofibrosis, eosinophilic leukemia, basophilic leukemia and secondary acute myeloid leukemia. The clinical manifestations and disease evolution have its unique characteristics.

World Health Organization and International Consensus Classification of eosinophilic disorders: 2024 update on diagnosis, risk stratification, and management

DISEASE OVERVIEW

The eosinophilias encompass a broad range of non-hematologic (secondary or reactive) and hematologic (primary or clonal) disorders with the potential for end-organ damage.

DIAGNOSIS

Hypereosinophilia (HE) has generally been defined as a peripheral blood eosinophil count greater than 1.5 × 109/L, and may be associated with tissue damage. After the exclusion of secondary causes of eosinophilia, diagnostic evaluation of primary eosinophilias relies on a combination of various tests. They include morphologic review of the blood and marrow, standard cytogenetics, fluorescence in situ hybridization, molecular testing and flow immunophenotyping to detect histopathologic or clonal evidence for an acute or chronic hematolymphoid neoplasm.

RISK STRATIFICATION

Disease prognosis relies on identifying the subtype of eosinophilia. After evaluation of secondary causes of eosinophilia, the 2022 World Health Organization and International Consensus Classification endorse a semi-molecular classification scheme of disease subtypes. This includes the major category "myeloid/lymphoid neoplasms with eosinophilia and tyrosine kinase gene fusions" (MLN-eo-TK), and the MPN subtype, "chronic eosinophilic leukemia" (CEL). Lymphocyte-variant HE is an aberrant T-cell clone-driven reactive eosinophila, and idiopathic hypereosinophilic syndrome (HES) is a diagnosis of exclusion.

RISK-ADAPTED THERAPY

The goal of therapy is to mitigate eosinophil-mediated organ damage. For patients with milder forms of eosinophilia (e.g., <1.5 × 109/L) without symptoms or signs of organ involvement, a watch and wait approach with close follow-up may be undertaken. Identification of rearranged PDGFRA or PDGFRB is critical because of the exquisite responsiveness of these diseases to imatinib. Pemigatinib was recently approved for patients with relapsed or refractory FGFR1-rearranged neoplasms. Corticosteroids are first-line therapy for patients with lymphocyte-variant HE and HES. Hydroxyurea and interferon-α have demonstrated efficacy as initial treatment and in steroid-refractory cases of HES. Mepolizumab, an interleukin-5 (IL-5) antagonist monoclonal antibody, is approved by the U.S Food and Drug Administration for patients with idiopathic HES. Cytotoxic chemotherapy agents, and hematopoietic stem cell transplantation have been used for aggressive forms of HES and CEL, with outcomes reported for limited numbers of patients. Targeted therapies such as the IL-5 receptor antibody benralizumab, IL-5 monoclonal antibody depemokimab, and various tyrosine kinase inhibitors for MLN-eo-TK, are under active investigation.

Prognostic value of fatty acid metabolism-related genes in colorectal cancer and their potential implications for immunotherapy

Introduction

Colorectal cancer is one of the most common gastrointestinal cancers and the second leading cause of cancer-related death. Although colonoscopy screening has greatly improved the early diagnosis of colorectal cancer, its recurrence and metastasis are still significant problems. Tumour cells usually have the hallmark of metabolic reprogramming, while fatty acids play important roles in energy storage, cell membrane synthesis, and signal transduction. Many pathways of fatty acid metabolism (FAM) are involved in the occurrence and development of colon cancer, and the complex molecular interaction network contains a variety of genes encoding key enzymes and related products.

Methods

Clinical information and RNA sequencing data were collected from TCGA and GEO databases. The prognosis model of colon cancer was constructed by LASSO-Cox regression analysis among the selected fatty acid metabolism genes with differential expression. Nomogram for the prognosis model was also constructed in order to analyze its value in evaluating the survival and clinical stage of the colon cancer patients. The differential expression of the selected genes was verified by qPCR and immunohistochemistry. GSEA and GSVA were used to analyze the enrichment pathways for high- and low-risk groups. CIBERSORT was used to analyze the immune microenvironment of colon cancer and to compare the infiltration of immune cells in the high- and low-risk groups. The "circlize" package was used to explore the correlation between the risk score signature and immunotherapy for colon cancer.

Results

We analysed the differential expression of 704 FAM-related genes between colon tumour and normal tissue and screened 10 genes with prognostic value. Subsequently, we constructed a prognostic model for colon cancer based on eight optimal FAM genes through LASSO Cox regression analysis in the TCGA-COAD dataset, and its practicality was validated in the GSE39582 dataset. Moreover, the risk score calculated based on the prognostic model was validated as an independent prognostic factor for colon cancer patients. We further constructed a nomogram composed of the risk score signature, age and American Joint Committee on Cancer (AJCC) stage for clinical application. The colon cancer cohort was divided into high- and low-risk groups according to the optimal cut-off value, and different enrichment pathways and immune microenvironments were depicted in the groups.

Discussion

Since the risk score signature was significantly correlated with the expression of immune checkpoint molecules, the prognostic model might be able to predict the immunotherapy response of colon cancer patients. In summary, our findings expand the prognostic value of FAM-related genes in colon cancer and provide evidence for their application in guiding immunotherapy.

Description of an Institutional Cohort of Myeloid Neoplasms Carrying ETV6-Locus Deletions or ETV6 Rearrangements

The gene encoding for transcription factor ETV6 presents recurrent lesions in hematologic neoplasms, most notably the ETV6-RUNX1 rearrangement in childhood B-ALL. The role of ETV6 for normal hematopoiesis is unknown, but loss of its function probably participates in oncogenic procedures. In myeloid neoplasms, ETV6-locus (12p13) deletions are rare but recurrent; ETV6 translocations are even rarer, but those reported seem to have phenotype-defining consequences. We herein describe the genetic and hematologic profile of myeloid neoplasms with ETV6 deletions (10 cases), or translocations (4 cases) diagnosed in the last 10 years in our institution. We find complex caryotype to be the most prevalent cytogenetics among patients with 12p13 deletion (8/10 patients), with most frequent coexisting anomalies being monosomy 7 or deletion 7q32 (5/10), monosomy 5 or del5q14-15 (5/10), and deletion/inversion of chromosome 20 (5/10), and most frequent point mutation being TP53 mutation (6/10 patients). Mechanisms of synergy of these lesions are unknown. We describe the entire genetic profile and hematologic phenotype of cases with extremely rare ETV6 translocations, confirming the biphenotypic T/myeloid nature of acute leukemia associated to ETV6-NCOA2 rearrangement, the association of t (1;12) (p36; p13) and of the CHIC2-ETV6 fusion with MDS/AML, and the association of the ETV6-ACSL6 rearrangement with myeloproliferative neoplasm with eosinophilia. Mutation of the intact ETV6 allele was present in two cases and seems to be subclonal to the chromosomal lesions. Decoding the mechanisms of disease related to ETV6 haploinsufficiency or rearrangements is important for the understanding of pathogenesis of myeloid neoplasms and fundamental research must be guided by observational cues.

Myeloid neoplasm with ETV6::ACSl6 fusion: landscape of molecular and clinical features

OBJECTIVES

Since the publication of the third edition, the WHO classification of tumors of hematopoietic and lymphoid disorders has introduced the disease entity of 'myeloid/lymphoid neoplasms with eosinophilia and PDGFRB rearrangement', in which the most common chromosomal abnormality is t(5;12) (q32;p13.2), and this abnormality generates the ETV6::PDGFRB fusion gene. However, there have been patients with hematologic features and chromosomal abnormalities that are extremely similar to those carrying ETV6::PDGFRB fusion. These rare disorders harbor ETV6::ACSL6 fusion, and only sporadic cases have been reported at present.

METHODS

We report a patient with chronic eosinophilic leukemia (CEL) carrying chromosome translocation t(5;12)(q32;p13.2), and we present the clinical features. In addition, we conducted a literature review to collect all reported cases and summarized the genetic and clinical profiling as well as the treatments and outcomes.

RESULT

In addition to our patient, a total of 19 cases have been previously reported, including 6 variants of ETV6::ACSL6 and 3 reciprocals. We identified a novel variant of the ETV6::ACSL6 transcript in our patient, and the breakpoint was flanked by exon 2 of ETV6 and exon 2 of ACSL6. The cellular morphology features consisted of myeloproliferative neoplasm (MPN); myelodysplastic/myeloproliferative neoplasm (MDS/MPN), specifically CEL; and acute myelocytic leukemia (AML). The treatments and outcomes varied greatly depending on the type of disease, although tyrosine kinase inhibitors (TKIs) were not effective.

CONCLUSION

In contrast to neoplasms with ETV6::PDGFRB fusion, myeloid neoplasms with ETV6::ACSL6 fusion have unique characteristics.

t(5;12)(q31;p13)/ETV6::ACSL6 and t(6;9)(p23;q34)/DEK::NUP214 concurrence in acute myeloid leukemia: an unusual association of two rare abnormalities

The translocation t(5;12)(q31;p13)/ETV6::ACSL6 is a rare cytogenetic abnormality, although it is reported in various myeloid malignancies. To date, only 16 cases of t(5;12) and ETV6::ACSL6 rearrangement, confirmed by either molecular or Fluorescence In Situ Hyridization (FISH) analysis, have been reported. Eosinophilia is a distinctive and common feature associated with this rearrangement. Although few cases have been described, the prognosis of patients with ETV6::ACSL6 is considered poor. We report two additional cases of t(5;12)(q31;p13)/ETV6::ACLS6 rearrangement and eosinophilia. Unusually, in our cases, the ETV6::ACSL6 rearrangement occurred at the relapse of Acute Myeloid Leukemia (AML) patients who had t(6;9)(p23;q34)/DEK::NUP214 rearrangement at disease onset. The concurrence of these two rare abnormalities has never been reported and may suggest a cooperative role of t(5;12) and t(6;9), leading to disease relapse. Moreover, at relapse, both cases presented with eosinophilia, further strengthening the association of t(5;12) with eosinophilia in myeloid malignancies. Given the poor prognosis and the non-responsiveness to tyrosine kinase inhibitors of cases of ETV6::ACSL6 rearrangement, in contrast to cases of ETV6::PDGFRB rearrangement, we recommend the introduction of testing for this abnormality in myeloid malignancies with eosinophilia.