Clonal diversity is a consequence of cancer cell evolution driven by Darwinian selection. Precise characterization of clonal architecture is essential to understand the evolutionary history of tumor ...development and its association with treatment resistance. Here, using a single-cell DNA sequencing, we report the clonal architecture and mutational histories of 123 acute myeloid leukemia (AML) patients. The single-cell data reveals cell-level mutation co-occurrence and enables reconstruction of mutational histories characterized by linear and branching patterns of clonal evolution, with the latter including convergent evolution. Through xenotransplantion, we show leukemia initiating capabilities of individual subclones evolving in parallel. Also, by simultaneous single-cell DNA and cell surface protein analysis, we illustrate both genetic and phenotypic evolution in AML. Lastly, single-cell analysis of longitudinal samples reveals underlying evolutionary process of therapeutic resistance. Together, these data unravel clonal diversity and evolution patterns of AML, and highlight their clinical relevance in the era of precision medicine.
Background
Phenotypic characterization of immune cells in the bone marrow (BM) of patients with acute myeloid leukemia (AML) is lacking.
Methods
T‐cell infiltration was quantified on BM biopsies from ...13 patients with AML, and flow cytometry was performed on BM aspirates (BMAs) from 107 patients with AML who received treatment at The University of Texas MD Anderson Cancer Center. The authors evaluated the expression of inhibitory receptors (programmed cell death protein 1 PD1, cytotoxic T‐lymphocyte antigen 4 CTLA4, lymphocyte‐activation gene 3 LAG3, T‐cell immunoglobulin and mucin‐domain containing‐3 TIM3) and stimulatory receptors (glucocorticoid‐induced tumor necrosis factor receptor‐related protein GITR, OX40, 41BB a type 2 transmembrane glycoprotein receptor, inducible T‐cell costimulatory ICOS) on T‐cell subsets and the expression of their ligands (41BBL, B7‐1, B7‐2, ICOSL, PD‐L1, PD‐L2, and OX40L) on AML blasts. Expression of these markers was correlated with patient age, karyotype, baseline next‐generation sequencing for 28 myeloid‐associated genes (including P53), and DNA methylation proteins (DNA methyltransferase 3α, isocitrate dehydrogenase 1IDH1, IDH2, Tet methylcytosine dioxygenase 2 TET2, and Fms‐related tyrosine kinase 3 FLT3).
Results
On histochemistry evaluation, the T‐cell population in BM appeared to be preserved in patients who had AML compared with healthy donors. The proportion of T‐regulatory cells (Tregs) in BMAs was higher in patients with AML than in healthy donors. PD1‐positive/OX40‐positive T cells were more frequent in AML BMAs, and a higher frequency of PD1‐positive/cluster of differentiation 8 (CD8)‐positive T cells coexpressed TIM3 or LAG3. PD1‐positive/CD8‐positive T cells were more frequent in BMAs from patients who had multiply relapsed AML than in BMAs from those who had first relapsed or newly diagnosed AML. Blasts in BMAs from patients who had TP53‐mutated AML were more frequently positive for PD‐L1.
Conclusions
The preserved T‐cell population, the increased frequency of regulatory T cells, and the expression of targetable immune receptors in AML BMAs suggest a role for T‐cell–harnessing therapies in AML.
T‐cell subsets are preserved in the bone marrow of patients with acute myeloid leukemia. The expression of targetable immune checkpoints by T cells suggests that therapies harnessing T cells may benefit these patients.
Myeloid neoplasms with germline DDX41 mutations have been incorporated into the 2017 WHO classification. Limited studies describing the clinicopathologic features and mutation profile are available. ...We searched for myeloid neoplasms with a DDX41 gene mutation tested by an 81‐gene next‐generation sequencing panel over a 7‐month period. We identified 34 patients with myeloid neoplasms with DDX41 abnormalities; 26 (76%) men and 8 women (24%) median age, 70 years, 20 acute myeloid leukemia (AML), 10 myelodysplastic syndrome (MDS), 1 chronic myelomonocytic leukemia (CMML) and 3 myeloproliferative neoplasms (MPN). Fifty‐nine DDX41 variants were detected: 27 (46%) appeared somatic and 32 (54%) were presumably germline mutations. The majority of presumed germline mutations were upstream of the Helicase 2 domain (93%) and involved loss of the start codon (30%). The majority of somatic mutations were within the Helicase 2 domain (78%), with the missense mutation p.R525H being most common (67%). There was a significant difference in the location of germline or somatic mutations (P < .0001). Concomitant mutations were detected involving 19 genes, but only TP53 (n = 11, 32%), ASXL1 (n = 8, 24%), and JAK2 (n = 4, 12%) were recurrent. Twenty (59%) patients showed diploid cytogenetics. Twenty‐three (68%) patients presented with AML or MDS‐EB‐2, suggesting an association with high‐grade myeloid neoplasm. Patients with myeloid neoplasms carrying DDX41 mutations show male predominance (3:1), higher age at presentation, association with TP53 mutations, and association with high‐grade myeloid neoplasms in our cohort at a referral cancer center setting. These findings support the recognition of myeloid neoplasms with DDX41 mutation as unique, need for germline confirmation, and further assessment of family members.
To confirm that neoplastic monocyte-derived collagen- and fibronectin-producing fibrocytes induce bone marrow (BM) fibrosis in primary myelofibrosis (PMF), we injected PMF BM-derived ...fibrocyte-precursor CD14+/CD34- monocytes into the tail vein of NOD-SCID-γ (NSG) mice. PMF BM-derived CD14+/CD34- monocytes engrafted and induced a PMF-like phenotype with splenomegaly, myeloid hyperplasia with clusters of atypical megakaryocytes, persistence of the JAK2V617F mutation, and BM and spleen fibrosis. As control we used normal human BM-derived CD14+/CD34- monocytes. These monocytes also engrafted and gave rise to normal megakaryocytes that, like PMF CD14+/CD34--derived megakaryocytes, expressed HLA-ABC and human CD42b antigens. Using 2 clonogenic assays we confirmed that PMF and normal BM-derived CD14+/CD34- monocytes give rise to megakaryocyte colony-forming cells, suggesting that a subpopulation BM monocytes harbors megakaryocyte progenitor capacity. Taken together, our data suggest that PMF monocytes induce myelofibrosis-like phenotype in immunodeficient mice and that PMF and normal BM-derived CD14+/CD34- monocytes give rise to megakaryocyte progenitor cells.
Background
In a proportion of patients with chronic lymphocytic leukemia (CLL), resistance to Bruton tyrosine kinase (BTK) inhibitors (BTKi) is attributed to acquired BTK/phospholipase C gamma 2 ...(PLCG2) mutations. However, knowledge regarding additional genetic lesions associated with BTK/PLCG2 mutations, and gene mutations in patients lacking BTK/PLCG2 mutations, is limited.
Methods
Using targeted deep sequencing, mutations in 29 genes associated with CLL and/or the BCR signaling pathway were assessed in patients with CLL who developed resistance to BTK inhibition with ibrutinib/acalabrutinib at a single institution.
Results
The study group included 29 patients with BTKi‐resistant CLL, 23 patients with disease progression, and 6 patients with Richter transformation (RT). The median times to disease progression and RT were 33.3 months and 13.3 months, respectively. In 11 patients, sequencing was possible at both baseline (prior to treatment with BTKi) and at time of disease progression/RT. Of these patients, 4 demonstrated BTK mutations at the time of disease progression/RT; patients without BTK mutations frequently acquired mutations associated with disease progression/RT in TP53, SF3B1, and CARD11, whereas additional mutations were rare in patients with BTK‐mutated CLL. Sequencing of all 29 patients at the time of disease progression/RT identified BTK mutations at a frequency of 66%, including a novel V537I mutation. Among patients with disease progression, BTK mutations were observed in 16 patients (70%). The median time to disease progression was shorter in patients without BTK mutations compared with those with BTK‐mutated CLL. Among patients with RT, SF3B1 mutations were more frequent than BTK mutations (67% vs 50%). Following BTKi discontinuation, we sequential mutation analysis was performed in 2 patients with RT and 3 patients with disease progression in the setting of persistent disease. Both patients with RT demonstrated disappearance of BTK and expansion of TP53 mutations. All 3 patients with disease progression received venetoclax and demonstrated suppression of BTK mutations.
Conclusions
Longitudinal, targeted, multigene deep sequencing is informative for the clinical monitoring of mutational evolution in patients with CLL who are receiving BTKi.
A subset of Bruton tyrosine kinase (BTK) inhibitor resistant chronic lymphocytic leukemia (CLL) patients who do not acquire BTK mutations frequently demonstrate mutations in genes such as TP53 and SF3B1. Longitudinal, targeted, multigene deep sequencing is informative for the clinical monitoring of mutational evolution in patients with CLL who are receiving BTK inhibitors.
Summary Background Therapy-related myeloid neoplasms are secondary malignancies that are often fatal, but their risk factors are not well understood. Evidence suggests that individuals with clonal ...haemopoiesis have increased risk of developing haematological malignancies. We aimed to identify whether patients with cancer who have clonal haemopoiesis are at an increased risk of developing therapy-related myeloid neoplasms. Methods We did this retrospective case-control study to compare the prevalence of clonal haemopoiesis between patients treated for cancer who later developed therapy-related myeloid neoplasms (cases) and patients who did not develop these neoplasms (controls). All patients in both case and control groups were treated at MD Anderson Cancer Center (Houston, TX, USA) from 1997 to 2015. We used the institutional medical database to locate these patients. Patients were included as cases if they were treated for a primary cancer, subsequently developed therapy-related myeloid neoplasms, and had available paired samples of bone marrow from the time of therapy-related myeloid neoplasm diagnosis and peripheral blood from the time of primary cancer diagnosis. Patients were eligible for inclusion as age-matched controls if they were treated for lymphoma, received combination chemotherapy, and did not develop therapy-related myeloid neoplasms after at least 5 years of follow-up. We used molecular barcode sequencing of 32 genes on the pretreatment peripheral blood samples to detect clonal haemopoiesis. For cases, we also used targeted gene sequencing on bone marrow samples and investigated clonal evolution from clonal haemopoiesis to the development of therapy-related myeloid neoplasms. To further clarify the association between clonal haemopoiesis and therapy-related myeloid neoplasm development, we also analysed the prevalence of clonal haemopoiesis in an external cohort of patients with lymphoma who were treated in a randomised trial of front-line chemotherapy with cyclophosphamide, doxorubicin, vincristine, and prednisone, with or without melatonin. This trial was done at MD Anderson Cancer Center between 1999 and 2001 (protocol number 98-009). Findings We identified 14 cases and 54 controls. Of the 14 cases, we detected clonal haemopoiesis in the peripheral blood samples of ten (71%) patients. We detected clonal haemopoiesis in 17 (31%) of the 54 controls. The cumulative incidence of therapy-related myeloid neoplasms in both cases and controls at 5 years was significantly higher in patients with clonal haemopoiesis (30%, 95% CI 16–51) than in those without (7%, 2–21; p=0·016). In the external cohort, five (7%) of 74 patients developed therapy-related myeloid neoplasms, of whom four (80%) had clonal haemopoiesis; 11 (16%) of 69 patients who did not develop therapy-related myeloid neoplasms had clonal haemopoiesis. In the external cohort, the cumulative incidence of therapy-related myeloid neoplasms at 10 years was significantly higher in patients with clonal haemopoiesis (29%, 95% CI 8–53) than in those without (0%, 0–0; p=0·0009). In a multivariate Fine and Gray model based on the external cohort, the presence of clonal haemopoiesis significantly increased the risk of therapy-related myeloid neoplasm development (hazard ratio 13·7, 95% CI 1·7–108·7; p=0·013). Interpretation Preleukaemic clonal haemopoiesis is common in patients with therapy-related myeloid neoplasms at the time of their primary cancer diagnosis and before they have been exposed to treatment. Our results suggest that clonal haemopoiesis could be used as a predictive marker to identify patients with cancer who are at risk of developing therapy-related myeloid neoplasms. A prospective trial to validate this concept is warranted. Funding Cancer Prevention Research Institute of Texas, Red and Charline McCombs Institute for the Early Detection and Treatment of Cancer, NIH through MD Anderson Cancer Center Support Grant, and the MD Anderson MDS & AML Moon Shots Program.
The physiopathology of sepsis continues to be poorly understood, and despite recent advances in its management, sepsis is still a life-threatening condition with a poor outcome. If new diagnostic ...markers related to sepsis pathogenesis will be identified, new specific therapies might be developed and mortality reduced. Small regulatory non-coding RNAs, microRNAs (miRNAs), were recently linked to various diseases; the aim of our prospective study was to identify miRNAs that can differentiate patients with early-stage sepsis from healthy controls and to determine if miRNA levels correlate with the severity assessed by the Sequential Organ Failure Assessment (SOFA) score.
By using genome-wide miRNA profiling by microarray in peripheral blood leukocytes, we found that miR-150, miR-182, miR-342-5p, and miR-486 expression profiles differentiated sepsis patients from healthy controls. We also proved by quantitative reverse transcription-polymerase chain reaction that miR-150 levels were significantly reduced in plasma samples of sepsis patients and correlated with the level of disease severity measured by the SOFA score, but were independent of the white blood counts (WBC). We found that plasma levels of tumor necrosis factor alpha, interleukin-10, and interleukin-18, all genes with sequence complementarity to miR-150, were negatively correlated with the plasma levels of this miRNA. Furthermore, we identified that the plasma levels ratio for miR-150/interleukin-18 can be used for assessing the severity of the sepsis.
We propose that miR-150 levels in both leukocytes and plasma correlate with the aggressiveness of sepsis and can be used as a marker of early sepsis. Furthermore, we envision miR-150 restoration as a future therapeutic option in sepsis patients.
Clonal cytogenetic evolution with additional chromosomal abnormalities (ACAs) in chronic myelogenous leukemia (CML) is generally associated with decreased response to tyrosine kinase inhibitor (TKI) ...therapy and adverse survival. Although ACAs are considered as a sign of disease progression and have been used as one of the criteria for accelerated phase, the differential prognostic impact of individual ACAs in CML is unknown, and a classification system to reflect such prognostic impact is lacking. In this study, we aimed to address these questions using a large cohort of CML patients treated in the era of TKIs. We focused on cases with single chromosomal changes at the time of ACA emergence and stratified the 6 most common ACAs into 2 groups: group 1 with a relatively good prognosis including trisomy 8, −Y, and an extra copy of Philadelphia chromosome; and group 2 with a relatively poor prognosis including i(17)(q10), −7/del7q, and 3q26.2 rearrangements. Patients in group 1 showed much better treatment response and survival than patients in group 2. When compared with cases with no ACAs, ACAs in group 2 conferred a worse survival irrelevant to the emergence phase and time. In contrast, ACAs in group 1 had no adverse impact on survival when they emerged from chronic phase or at the time of CML diagnosis. The concurrent presence of 2 or more ACAs conferred an inferior survival and can be categorized into the poor prognostic group.
•Based on their impact on treatment and survival, ACAs in CML were stratified into good and poor prognostic groups.•ACAs in the good prognostic group showed no adverse impact on survival when they emerged from chronic phase or at the initial CML diagnosis.