Evolutionary and immune microenvironment dynamics during neoadjuvant treatment of oesophagael adenocarcinoma.

Locally advanced oesophageal adenocarcinoma (EAC) remains difficult to treat because of common resistance to neoadjuvant therapy and high recurrence rates. The ecological and evolutionary dynamics responsible for treatment failure are incompletely understood. Here, we performed a comprehensive multi-omic analysis of samples collected from EAC patients in the MEMORI clinical trial, revealing major changes in gene expression profiles and immune microenvironment composition that did not appear to be driven by changes in clonal composition. Multi-region multi-timepoint whole exome (300x depth) and paired transcriptome sequencing was performed on 27 patients pre-, during and after neoadjuvant treatment. EAC showed major transcriptomic changes during treatment with upregulation of immune and stromal pathways and oncogenic pathways such as KRAS, Hedgehog and WNT. However, genetic data revealed that clonal sweeps were rare, suggesting that gene expression changes were not clonally driven. Additional longitudinal image mass cytometry was performed in a subset of 15 patients and T-cell receptor sequencing in 10 patients, revealing remodelling of the T-cell compartment during treatment and other shifts in microenvironment composition. The presence of immune escape mechanisms and a lack of clonal T-cell expansions were linked to poor clinical treatment response. This study identifies profound transcriptional changes during treatment with limited evidence that clonal replacement is the cause, suggesting phenotypic plasticity and immune dynamics as mechanisms for therapy resistance with pharmacological relevance.

Activating CBL mutations are associated with a distinct MDS/MPN phenotype.

Activating point mutations in CBL have recently been identified in diverse subtypes of myeloid neoplasms. Because detailed clinical and hematological characteristics of CBL-mutated cases is lacking, we screened 156 BCR-ABL and JAK2 V617F negative patients with myeloproliferative neoplasms (MPN) and overlap syndromes between myelodysplastic syndrome (MDS) and MPN (MPS/MPN) for mutations in exons 8 and 9 of CBL by denaturing high-performance liquid chromatography and direct sequencing. CBL mutations were identified in 16/156 patients (10%), of which five also carried mutations in EZH2 (n = 3) and TET2 (n = 2). Comprehensive clinical and hematological characteristics were available from 13/16 patients (81%). In addition to splenomegaly (77%), striking common hematological features were CML-like left-shifted leukocytosis (85%) with monocytosis (85%), anemia (100%), and thrombocytopenia (62%). Thrombocytosis was not observed in any patient. Relevant bone marrow features (n = 12) included hypercellularity (92%) with marked granulopoiesis (92%), nonclustered microlobulated megakaryocytes (83%), and marrow fibrosis (83%). Nine deaths (progression to secondary acute myeloid leukemia/blast phase, n = 7; cytopenia complications, n = 2) were recorded. Three-year survival rate was 27%, possibly indicating poor prognosis of CBL mutated MDS/MPN patients.

SNP array analysis of tyrosine kinase inhibitor-resistant chronic myeloid leukemia identifies heterogeneous secondary genomic alterations.

To elucidate whether tyrosine kinase inhibitor (TKI) resistance in chronic myeloid leukemia is associated with characteristic genomic alterations, we analyzed DNA samples from 45 TKI-resistant chronic myeloid leukemia patients with 250K single nucleotide polymorphism arrays. From 20 patients, matched serial samples of pretreatment and TKI resistance time points were available. Eleven of the 45 TKI-resistant patients had mutations of BCR-ABL1, including 2 T315I mutations. Besides known TKI resistance-associated genomic lesions, such as duplication of the BCR-ABL1 gene (n = 8) and trisomy 8 (n = 3), recurrent submicroscopic alterations, including acquired uniparental disomy, were detectable on chromosomes 1, 8, 9, 17, 19, and 22. On chromosome 22, newly acquired and recurrent deletions of the IGLC1 locus were detected in 3 patients, who had previously presented with lymphoid or myeloid blast crisis. This may support a hypothesis of TKI-induced selection of subclones differentiating into immature B-cell progenitors as a mechanism of disease progression and evasion of TKI sensitivity.

Prognostic implications of NOTCH1 and FBXW7 mutations in adult acute T-lymphoblastic leukemia.

BACKGROUND: NOTCH1 mutations have been associated with a favorable outcome in pediatric acute T-lymphoblastic leukemia. However, the results of studies on the prognostic significance of NOTCH1 mutations in adult T-lymphoblastic leukemia remain controversial. DESIGN AND METHODS: Here we have investigated the prognostic impact of mutations in the NOTCH1 pathway, in particular, the NOTCH1 and FBXW7 genes, in a large cohort of adult patients with T-lymphoblastic leukemia (n=126). We determined the occurrence of mutations in NOTCH1 and FBXW7 by DNA amplification and direct sequencing of polymerase chain reaction products. RESULTS: Mutations were identified in 57% and 12% of the NOTCH1 and FBXW7 genes, respectively. The characteristics of patients carrying NOTCH1 and/or FBXW7 (NOTCH1-FBXW7) mutations were similar to those with wild-type genes. Patients with NOTCH1-FBXW7 mutations more often showed a thymic immunophenotype (p=0.001). In the overall cohort, no significant differences were seen in the complete remission or event-free survival rates between patients with mutated or wild-type NOTCH1-FBXW7 (p=0.39). CONCLUSIONS: NOTCH1 and FBXW7 mutations were not predictive of outcome in the overall cohort of adult patients with T-lymphoblastic leukemia, but there was a trend towards a favorable prognostic impact of NOTCH1-FBXW7 mutations in the small subgroup of patients with low-risk ERG/BAALC expression status. Our findings further confirm the high frequency of NOTCH1 mutations in adult T-lymphoblastic leukemia.

Epigenetic control of differential expression of specific ERG isoforms in acute T-lymphoblastic leukemia.

Expression of ERG is of prognostic significance in acute myeloid leukemia (AML) and T-lymphoblastic leukemia (T-ALL) pointing to its role in leukemogenesis. To unravel its transcriptional regulation we analyzed the expression of ERG specific isoforms. Expression of the two main isoforms ERG2 and ERG3 was found in AML and normal CD34+ cells, whereas T-ALL blasts only expressed ERG isoforms harboring exon 5 (ERG3) lacking expression of ERG2. Bisulfite sequencing revealed hypermethylation of a CpG island within the ERG2 promoter region in T-ALL. Treatment of the T-lymphoblastic cell line BE13 with decitabine led to re-expression of ERG2 and pyrosequencing showed concordant DNA hypomethylation, thus confirming a methylation regulated expression of ERG2. Moreover, the identification of a new ERG isoform (ERG3Deltaex12) suggests the association with different interaction partners and adds to the complexity of downstream pathways mediated by the expression of specific ERG transcripts in acute leukemia.