Complex Cytogenetic Abnormalities Research Articles

Targeting the redox vulnerability of acute myeloid leukaemia cells with a combination of auranofin and vitamin C.

Acute myeloid leukaemia (AML) is a heterogeneous disease characterized by complex molecular and cytogenetic abnormalities. Pro-oxidant cellular redox status is a common hallmark of AML cells, providing a rationale for redox-based anticancer strategy. We previously discovered that auranofin (AUF), initially used for the treatment of rheumatoid arthritis and repositioned for its anticancer activity, can synergize with a pharmacological concentration of vitamin C (VC) against breast cancer cell line models. In this study, we observed that this drug combination synergistically and efficiently killed cells of leukaemic cell lines established from different myeloid subtypes. In addition to an induced elevation of reactive oxygen species and ATP depletion, a rapid dephosphorylation of 4E-BP1 and p70S6K, together with a strong inhibition of protein synthesis were early events in response to AUF/VC treatment, suggesting their implication in AUF/VC-induced cytotoxicity. Importantly, a study on 22 primary AML specimens from various AML subtypes showed that AUF/VC combinations at pharmacologically achievable concentrations were effective to eradicate primary leukaemic CD34+ cells from the majority of these samples, while being less toxic to normal cord blood CD34+ cells. Our findings indicate that targeting the redox vulnerability of AML with AUF/VC combinations could present a potential anti-AML therapeutic approach.

Clinicopathologic features of relapsed CD19(-) B-ALL in CD19-targeted immunotherapy: Biological insights into relapse and LILRB1 as a novel B-cell marker for CD19(-) B lymphoblasts.

The mechanism of relapsed CD19(-) B-ALL after anti-CD19 immunotherapy (Kymriah [CART-19] and blinatumomab) is under active investigation. Our study aims to assess LILRB1 as a novel B-cell marker for detecting CD19(-) B-lymphoblasts and to analyze the clinicopathologic/genetic features of such disease to provide biological insight into relapse. Six patients (3 males/3 females, median age of 14 years) with relapsed CD19(-) B-ALL were analyzed for cytogenetic/genetic profile and immunophenotype. CD19(-) B-ALL emerged after an interval of 5.8 months following anti-CD19 therapy. Five of six patients had B-cell aplasia, indicative of a persistent effect of CART or blinatumomab at relapse. Importantly, LILRB1 was variably expressed on CD19(-) and CD19(+) B lymphoblasts, strong on CD34(+) lymphoblasts and dim/partial on CD34(-) lymphoblasts. Three of six patients with paired B-ALL samples (pre- and post-anti-CD19 therapy) carried complex and different cytogenetic abnormalities, either as completely different or sharing a subset of cytogenetic abnormalities. LILRB1 can be used as a novel B-cell marker to identify CD19(-) B lymphoblasts. The emergence of CD19(-) B-ALL appears to be associated with complex cytogenetic evolutions. The mechanism of CD19(-) B-ALL relapse under anti-CD19 immune pressure remains to be explored by comprehensive molecular studies.

The Role of t(11;14) in Tailoring Treatment Decisions in Multiple Myeloma.

Multiple myeloma (MM) represents a hematological neoplasia with an uncontrolled proliferation of malignant plasma cells and complex cytogenetic abnormalities. t(11;14) has emerged as a crucial genetic aberration and is one of the most common primary translocations in MM. Patients harboring t(11;14) represent a distinctive subgroup with a clinical profile that differs from t(11;14)-negative MM risk categories. One of the key features linked with t(11;14) is the BCL2 dependency, indicating vulnerability to BCL2 inhibition. BCL2 inhibitors, such as venetoclax, demonstrated impressive efficacy alone or in combination with other anti-myeloma drugs in patients with RRMM accompanied by t(11;14) and BCL2 overexpression. Therefore, t(11;14) plays a key role in both risk stratification and informed decision making towards a tailored therapy. In this review, we highlight the biology of t(11;14) in MM cells, summarize the current evolving role of t(11;14) in the era of novel agents and novel targeted therapies, illuminate current efficacy and safety data of BCL2-based treatment options and explore the future prospects of individualized precision medicine for this special subgroup of patients with MM.

CNVs Numbers Scoring System Was a Good Prognostic Risk Stratification for NDMM with Whole Genomic Mapping Array

Multiple myeloma (MM) is a genetically heterogeneous disease characterized by plasma cell clonal proliferation. Due to the potential complex cytogenetic abnormalities, the clinical progresses are heterogeneous. Thus, genome-wide identification of cytogenetic abnormalities is necessary given the limitations of traditional cytogenetic detecting methods. In this study, we utilized whole genomic mapping methods Cytoscan 750K array to analyze the genomic copy number variations (CNVs) of 611 Newly Diagnosed MM (NDMM) from The First Affiliated Hospital of Soochow University. The results showed that 95.3% of NDMM patients harbored the chromosome alterations including structural or numerical abnormalities, and most of them (67.3%) were accompanied both, including 23.7% with only structural abnormalities and 4.3% with only numerical abnormalities. The average number of CNV per patient was 9. In addition, we have identified 34 common CNV events with a frequency of ≥5%, 5 of which were high frequency (≥20%), including dup(1)(q21q44) (50.2%), del(14)(q22q32) (24.9%), del(1)(p31p12) (21.9%), del(13)(q12q22) (21.9%) and dup(19)(p13p12) (20.6%). Additionally, 6 CNVs with median frequency (≥15% and <20%) included dup(6)(p25p12) (16.9%), dup(9)(q21q34) (18.2%), del(16)(q12q24) (18.7%), del(8)(p23p12) (17.5%), dup(11)(q13q25) (15.7%) and del(22)(q11q12) (15.4%). And the other 23 CNVs were low frequency (<15%), including del(6)(q24q27) (14.6%), del(X)(p22q25) (14.1%), dup(X)(q28) (13.7%), dup(8) (q11q24) (12.6%), del(17)(p13p12) (11%) and so on. Most CNVs were closely related with clinical risk factors of MM such as LDH. Prognostic analysis based on the VRD treatment (n=353, the median follow-up was 22 months) showed that patients with only numerical abnormalities had a better progress free survival (PFS) outcome than that with structural abnormalities only or with both, although they seemed to have the similar overall survival (OS) rate. Furthermore, univariate analysis showed that 6 CNVs were correlated with poor PFS including 1q+, 4q-, 6q-, 12p-, 16q-, 17p-, and 5 CNVs were correlated with poor OS including 1p-, 4q-, 7p-, 12p-, 17p-. For the effect of counts of CNV events on MM prognosis, the receiver operating characteristic (ROC) curve analysis was performed to calculate the best cutoff, with a result of 23 CNV events. Therefore, MM patients were divided into 4 subgroups according to the counts of CNV they harbored, including high complexity group (CNVs≥23, n=32) which excluded patients with chromothripsis (more than 10 CNVs on the same chromosome) , median complexity group (10≤CNVs<23, n=168), low complexity group (1≤CNVs<10, n=324), and no CNVs group (n=73). The patients in high complexity group had the worst prognosis of PFS and OS (media PFS 18 months, media OS 29 months, P<0.001). As expected, some common high risk clinical factors such as 1q+, 17p-, DS III, ISS III, serum Ca++,β2-MG and plasma cells in BM were gradually increased among the group from low to high complexity, but decreased in the rate of complete remission (CR), which suggested that the risk classification system was reliable. Importantly, univariate and multivariate COX regression analysis showed that CNV≥23 was an independent prognostic risk factor affecting both PFS and OS in NDMM patients. Over all, we utilized a large MM cohort to identify recurrent and potential driver CNV events, and their correlation with prognosis. In addition, the count of CNVs in NDMM patient was creatively considered to be the basis for prognostic risk stratification.

SPECTRUM OF CYTOGENETIC ABNORMALITIES IN PEDIATRIC PATIENTS WITH ACUTE MYELOID LEUKEMIA

Objective: To determine the frequency and types of cytogenetic abnormalities in pediatric Acute Myeloid Leukemia. Material and Methods: This cross-sectional study was conducted from January 2021 to October 2021 in Hematology department of the CHUGHTAI Institute of Pathology in Lahore Pakistan. Total 60 patients who were newly diagnosed with Acute myeloid leukemia in CHUGHTAI Institute of Pathology and were also referred from Children Hospital Lahore were included. Patients under the age of 16 years and from both gender were included. Informed consent was taken from patient’s guardian/parents. Patients had their bone marrow aspirates processed for standard G-banding and their karyotypes were examined using a cyto-vision system, where the number of chromosomes was counted and examined for any changes, such as damaged, missing, rearranged, or additional copies of chromosomes. Morphology, immunophenotyping of aspirate, and trephine biopsy are used to make the diagnosis of AML. Data was entered in SPSS version 23.0. Result: There were total 60 patients included in the study. The mean age was 10.2+ 3.2 years. There were n=32(53.3%) males and n=28(46.6%) female. Normal karyotype was observed in n=36(60%) patients, abnormal were seen in n=14(23.3%) and unsuccessful was shown in n=10(16.6%) patients. Favorable cytogenetic results were seen in n=6 (10%), intermediate in n=41 (68.3%), and unfavorable in n=4 (6.6%) cases. t(8;21) (q22:q22) and t(15;17)(q24;q21) were found in 8.3% and 1.6% of our study population respectively which have favorable prognosis . One of our patients had complex cytogenetic abnormalities, including [del5p, del7q, del11q-17+] which shows poor prognosis. Conclusion: The study discovered that 14 (23.3%) of the total pediatric patients with acute myeloid leukemia showed aberrant cytogenetic abnormalities. Chromosomal abnormalities should be identified as early as possible since they can be used for AML risk stratification and prediction of prognosis. Keywords: Acute myeloid leukemia, Complex cytogenetic, Cyto-vision, Karyotype, Morphology, Pediatric

TP53 Gene Deletion or Mutation in Newly Diagnosed Multiple Myeloma Patients By FISH with Cytoscan Arrays and Targeted Panel Sequencing

Background Multiple myeloma (MM) is a plasma cell clonal malignant disease. In the past 20 years, the progression free survival rate and overall survival rate of patients have been significantly improved, however, due to the potential complex cytogenetic abnormalities, the clinical progresses are heterogeneous and the clinical benefits of patients are not consistent, especially for high-risk patients. In Chinese clinical practice, 17p-, t(4;14), t(14;16) are considered high-risk cytological abnormalities for newly diagnosed multiple myeloma (NDMM) patients according to R-ISS stage and 2022 Chinese guidelines for diagnose and treatment for MM. As a genome guardian, TP53 plays an important role in regulating cell cycle, apoptosis, aging, DNA repair and maintaining gene stability. But the threshold of deletion positive proportion with clinical significance by CD138-sorted FISH was unclear. TP53 mutation is also not regularly examined in Chinese patients. For that aim, our center has taken TP53 seriously as a heterogeneity problem for clinical discussion. Methods The clinical data of 248 NDMM patients in the First Affiliated Hospital of Soochow University of a VRD clinical study, with VRD in combination with autologous stem cell transplantation or VRD treatment for 8 cycles, from September 1, 2018 to August 31, 2021, were analyzed retrospectively. The samples for CD138-sorted FISH, CytoScan and targeted panel sequencing are obtained from the Multiple Myeloma Specialized Disease Bank of the National Center for Clinical Medical Research of Hematological Diseases. Results In this study, the deletion rate of TP53 was 13.0% (32/248), the mutation rate was 2.0% (5/248), the incidence of any TP53 event was 14.5% (36/248), and the incidence of double allele event was 0.8% (2/248). The detection rate of TP53 gene mutation was low, which was related to the short clinical application time of targeted panel sequencing with CD138-sorted samples. All patients with TP53 deletion or mutation were DS-III stage, with anemia (72.2%), hypoalbuminemia (58.3%) and renal insufficiency (38.9%). The most common accompanied abnormalities were 13q14- (63.9%), followed by t (4;14), 1q21+, t (11;14). Abnormal karyotypes were detected by FISH and CytoScan, indicating gene complexity and instability, and the clonal evolution, which is the root of disease recurrence and progression. The positive rate of TP53 mutation of one case study increased from 7.87% at the first recurrence to 53.44% at the second recurrence with 3rd line therapy (Figure 1a), indicating that TP53 gene lead to disease progression and the formation of multidrug resistance. In terms of induction effects, patients with TP53 gene abnormalities had ≥VGPR with 77.8%, lower than that of negative group (84.8%, P=0.0627)(Figure 1b). The median follow-up time is 20 months (1-42 months). Compared with negative ones, TP53 positive subgroup had an adverse PFS result (33 months vs not reached, P=0.0403), while the OS difference hasn't been clinical significant (both not reached, P=0.0541) (Figure 1c). The result showed that TP53 deletion with more than 50% was an independent adverse factor associated with poor prognosis of NDMM patients (PFS: HR=2.2441, 95%CI 1.117-5.335, P=0.0025; OS: HR=2.771, 95%CI 1.006-7.629, P=0.049). The prognosis of patients with TP53 deletion more than 50% was significantly worse than that of the negative group (PFS 25months vs not reached, P=0.0032, OS not reached P=0.0198), but TP53 deletion less than 50% had no difference compared with negative group. (Figure 1d).Conclusions Patients with TP53 deletion or mutation have obvious clinical symptoms and are prone to cytogenetic abnormalities such as 1q+, 1p-, -13, IgH translocation, chromosome abnormality and so on. TP53 deletion with more than 50% was an independent adverse factor associated with poor prognosis of NDMM patients, as a result, TP53 deletion more than 50% is the clinical significant threshold for clinical use. This study comprehensively describes the detection of genetic abnormalities and prognostic survival analysis of NDMM patients by using FISH, CytoScan and targeted panel sequencing. Identifying the real high-risk patients, we can earlier take targeted and more active measures, such as intensive induction treatment, tandem transplantation or CART treatment, to better deepen and consolidate the therapeutic effect for long-term survival benefits of patients. Figure 1View largeDownload PPTFigure 1View largeDownload PPT Close modal

Differentiation and prognostic stratification of acute myeloid leukemia by serum-based spectroscopy coupling with metabolic fingerprints.

Acute myeloid leukemia (AML) is a heterogeneous disease characterized by complex molecular and cytogenetic abnormalities. New approaches to predict the prognosis of AML have increasingly attracted attention. There were 98 non-M3 AML cases and 48 healthy controls were enrolled in the current work. Clinically routine assays for cytogenetic and molecular genetic analyses were performed on the bone marrow samples of patients with AML. Meanwhile, metabolic profiling of these AML subjects was also performed on the serum samples by combining Ag nanoparticle-based surface-enhanced Raman spectroscopy (SERS) with proton nuclear magnetic resonance (NMR) spectroscopy. Although most of the routine biochemical test showed no significant differences between the M0-M2 and M5 groups, the metabolic profiles were significantly different either between AML subtypes or between prognostic risk subgroups. Specific SERS bands were screened to serve as potential markers for AML subtypes. The results demonstrated that the classification models for M0-M2 and M5 shared two bands (i.e., 1328 and 741 cm-1 ), all came from nucleic acid signals. Furthermore, Metabolic profiles provided various differential metabolites responsible for different AML subtypes, and we found altered pathways mainly included energy metabolism like glycolysis, pyruvate metabolism, and metabolisms of nucleic acid bases as well as specific amino acid metabolisms. It is concluded that integration of SERS and NMR provides the rational and could be reliable to reveal AML differentiation, and meanwhile lay the basis for experimental and clinical practice to monitor disease progression and prognostic evaluation.

Assessing the Role of BCOR/BCORL1 and Other Historically Low-Frequency Somatic Mutations in Myelodysplastic Syndromes

Background: Myelodysplastic syndromes (MDS) represent a heterogeneous group of malignancies that are characterized by aberrant hematopoiesis and consequently abnormal blood counts. Patients with MDS have an increased likelihood of developing acute myeloid leukemia (AML). Next generation sequencing (NGS) is currently being used to study the genetic landscapes of diverse cancer types in finer detail than has previously been possible, owing to its ease-of-use and widespread availability. Crucially, the accuracy and broad breadth of genomic coverage provided by NGS approaches may permit the study of mutations that are rare in MDS patients, yet well studied in AML or other cancer types. Based on the fact that much less is known about particular rare somatic mutations in MDS, we decided to investigate 6 genes. IDH1 and IDH2 are targetable in patients with AML. Mutations in JAK2 are found in high proportions in patients with myeloproliferative neoplasms (MPNs) or MDS/MPN overlap neoplasms. Finally, other mutations in genes such as BCOR, BCORL1, and MUTYH also occur in MDS patients with appreciable-but generally low-frequencies such that their overall impact on MDS patients is largely unknown.Methods: We utilized the Tempus LENS platform to retrospectively characterize 236 MDS patients who underwent genomic-testing with the Tempus|xT assay (DNA-seq of 595-648 genes at 500x coverage; full transcriptome RNA-seq; data accessed on 06/28/2021). The patient population was 28% female, with a median age of 71.6 years. Mutations identified included germline and/or somatic single nucleotide variants (though we only considered somatic variants in this study), insertions/deletions and copy number variations (gains defined as ≥8 copies). For a subset of patients processed at Rush University Medical Center (RUMC), we additionally performed a curated clinical investigation into laboratory variables, prognostic data, treatment history and outcomes data.Results: Within the Tempus MDS dataset, we observed a range of mutation frequencies. In total, 58 patients had mutations in at least one of either: JAK2, BCOR, IDH2, IDH1, BCORL1, and MUTYH. When comparing the observed frequencies against values that have previously been reported, mutations in these 6 genes occurred with higher frequency in our dataset while most other mutations were in accordance with the relative frequencies reported by other sources (Table 1). We observed the largest deviation from expectation for BCOR. Whereas prior reports list this mutation as occurring with a frequency of <5%, greater than 10% of the records we analyzed contained a mutation in either BCOR (n=24, 10.16%) or BCORL1 (n=6, 2.54%). Four records in the dataset had mutations in both BCOR and BCORL1; a total of 26 records (11%) thus contained mutations in one of these two genes. Of these 26 patients, 50% were female and the median age was 70 years. The most commonly observed co-mutations with BCOR/BCORL1 were-in order of frequency-RUNX1 (50%), ASXL1 (23%), DNMT3A (23%), SF3B1 (19%), and STAG2 (19%). Additional data were derived from detailed clinical investigation into a limited subset of 4 patients who were treated at RUMC and who had mutations in either BCOR or BCORL1. Revised International Prognostic Scoring System (IPSS-R) scores were: high/very high (2) and low (2). Three of the four patients displayed complex karyotypes and three of the four progressed to AML.Conclusions: We identified a higher frequency of BCOR/BCORL1 mutations among patients with MDS than has been previously reported. At the same time, most other mutation frequencies were in relative accordance with existing reports. We observed complex cytogenetic abnormalities in 75% of patients for which we had extensive clinical information. Our data suggest an association between BCOR/BCORL1 mutations and complex karyotypes, a finding that may establish a prognostic role of BCOR/BCORL1 and have potential therapeutic implications. This hypothesis is, however, subject to further investigation and will require larger sample sizes that are likely to become available with the rapidly increasing utilization of next generation sequencing techniques and availability of high-quality, curated clinical information. [Display omitted] DisclosuresHockenberry: Tempus Labs, Inc: Current Employment, Current holder of stock options in a privately-held company. Okeke: Tempus Labs, Inc: Current Employment. Mahon: Tempus Labs, Inc: Current Employment. Hassane: Tempus Labs, Inc: Current Employment. Enschede: Tempus Labs, Inc: Current Employment, Current holder of stock options in a privately-held company. Shammo: Novartis: Consultancy, Honoraria, Research Funding, Speakers Bureau; Astra zeneca: Research Funding; CTI pharma: Research Funding; Stemline therapeutics: Research Funding; Kartos Pharma: Research Funding; Takeda: Consultancy, Current equity holder in publicly-traded company, Current holder of individual stocks in a privately-held company, Honoraria, Research Funding; Abbvie: Current holder of individual stocks in a privately-held company, Research Funding; Baxter: Current holder of stock options in a privately-held company; sanofi: Consultancy, Honoraria, Speakers Bureau; NS Pharma: Membership on an entity's Board of Directors or advisory committees; Incyte: Consultancy, Honoraria, Research Funding, Speakers Bureau; BMS: Consultancy, Honoraria, Research Funding, Speakers Bureau; Apellis: Consultancy, Membership on an entity's Board of Directors or advisory committees; Alexion: Consultancy, Honoraria, Research Funding, Speakers Bureau.

Characterisation of the Tumour Proteome in Primary Extramedullary Multiple Myeloma Identifies Key Proteins Associated with Transendothelial Migration

Introduction: Extramedullary multiple myeloma (EMM) refers to the spread of clonal plasma cells to tissues extending outside of the bone marrow microenvironment. EMM is present at the time of diagnosis in 6-10% of patients, however, this increases to 13-26% in patients with disease progression and relapse. Cancer cells are suspected to spread to new tissues and organs via the circulatory system as a result of molecular changes that allow malignant cells to escape the bone marrow (BM). For example, downregulation of CXCR4 (C-X-C Motif Chemokine Receptor 4), an important factor in cellular homing to the BM, has frequently been reported to be linked to the EMM phenotype. In addition, the majority of patients presenting with EMM have highly complex cytogenetic abnormalities and high-risk cytogenetic markers such as t(14;16). As EMM is an indicator of a more aggressive disease, more intensive treatment, including combination chemotherapy, is often recommended. Many of the underlying molecular mechanisms accompanying EMM are yet to be characterised. Our mass-spectrometry (MS)-based proteomic study provides insight into the unique molecular mechanisms associated with EMM, identifying key proteins linked to the progression of medullary multiple myeloma (MM) to EMM.Methods: Label-free liquid chromatography mass spectrometric analysis of age and gender matched medullary MM (n=8) and EMM (n=9) bone-marrow derived mononuclear cells (MNCs) was carried out using a Thermo Orbitrap Fusion Tribrid mass spectrometer (Thermo Fisher Scientific). Proteome Discoverer 2.2 using Sequest HT (Thermo Fisher Scientific) and a percolator were employed for the identification of peptides and proteins. For protein identification, the following search parameters were used: (i) 0.02 Da for MS/MS mass tolerance, (ii) 10 ppm for peptide mass tolerance, (iii) variable modification settings for methionine oxidation, (iv) fixed modification settings in relation to carbamido-methylation and (v) tolerance for up to two missed cleavages. Peptide probability was set to high confidence. Datasets were imported into Progenesis QI (version 2.0) software for further analysis. Data was filtered based on an ANOVA p-value of ≤0.05, fold change >1.5 between experimental groups, and proteins with ≥1 unique peptides contributing to the identification. Proteins with less than 70% valid values were removed from the analysis. G:profiler and STRING were utilized for functional enrichment and the characterisation of protein interaction patterns.Results: Our quantitative MS-based proteomic analysis identified a total of 492 proteins with significantly altered abundances between EMM and MM bone marrow MNC. Of these significant proteins, 275 were found to be increased in EMM compared to medullary MM and 217 were found to be decreased in EMM compared to medullary MM. Hierarchical clustering was performed to highlight the proteomic profile associated with extramedullary disease (Figure 1A). KEGG pathway analysis and gene ontology (GO) analysis of proteins found to be increased in EMM indicated an increase in proteins associated with cell adhesion, invasion, and migration pathways (Figure 1B). Interestingly, several proteins involved in leukocyte transendothelial migration were significantly increased in EMM indicating their potential involvement in the dissemination of MM cells from the bone marrow microenvironment to distal tissues (Figure 1C). Among the proteins found to be involved in this biological pathway was junctional adhesion molecule-A (F11R), a protein previously reported to play a role in EMD pathophysiology [1]. Other proteins involved in MM invasion and migration including Rho-associated protein kinase 2 (ROCK2), Ras-related C3 botulinum toxin substrate 1 (Rac1) and platelet endothelial cell adhesion molecule (PECAM-1) were significantly increased in EMM.Conclusion: Using high-resolution mass spectrometry to characterise the tumour proteome of MM patients with extramedullary disease, we have identified a significant increase in the abundance of proteins associated with leukocyte transendothelial invasion in primary EMM samples. Our study provides further insight into the molecular mechanisms within EMM and thus holds potential to enhance current efforts to provide a more personalised therapeutic approach for EMM patients.

Primary myelofibrosis in untreated sickle cell disease: Are adult patients at higher risk for developing hematological myeloid neoplasms?

Primary myelofibrosis in untreated sickle cell disease: Are adult patients at higher risk for developing hematological myeloid neoplasms?

P-128: Accompanying with additional complex karyotype is a poor prognostic factor in patients with multiple myeloma with high-risk cytogenetics in the era of novel agents

<h3>Background</h3> High-risk cytogenetic abnormality (CA) influences the prognosis of multiple myeloma (MM) even in the era of novel agents. However, prognostic heterogeneity could exist in MM patients with high-risk CA and additional cytogenetic aberrations are possibly correlated with worse outcomes. We conducted a retrospective study in patients with MM with high-risk CA to evaluate whether the outcomes are different in each high-risk group and whether the existence of additional chromosomal abnormalities would lead to poor outcomes. <h3>Method</h3> Patients with newly diagnosed MM (NDMM) in our institute between February 2006 and December 2020 were enrolled in this retrospective cohort. We analyzed only patients who were treated with novel agents including proteasome inhibitor and/or immunomodulatory drugs. All of cytogenetic abnormalities were analyzed from bone marrow samples. In this cohort, we defined high-risk CA as del(17p), t(4;14), t(14;16), and/or 1q21 gain, all of which were identified using FISH analysis. We surveyed additional chromosomal aberrations using G-banding testing. Complex chromosomal abnormality was defined as three or more chromosomal aberrations accompanying with at least one structural aberration. The survival was calculated by the Kaplan Meier method, and statistical analysis was performed by the Log-rank test. Factors affecting OS and PFS were evaluated using Cox proportional hazard model. <h3>Results</h3> We analyzed 36 MM patients who had high-risk CA at initial diagnosis. Twelve patients had del(17p), 16 had t(4;14), four had 1q21 gain, and four had more than one high-risk CA; two patients with t(4;14) and 1q21 gain, one with del(17p) and 1q21 gain and one with del(17p), t(4;14), and 1q21 gain. G-banding testing showed that patterns of complex chromosomal abnormality were found in nine patients. No significant differences in progression-free survival (PFS) and overall survival (OS) were seen between each high-risk CA group. The tendency of shorter PFS and OS was observed in patients with concurrent complex chromosomal karyotype than patients with no additional chromosomal aberrations. Furthermore, we found that the existence of complex cytogenetic abnormality by G-banding was correlated with poor PFS by multivariate analysis (hazard ratio 4.01, 95% confidence interval 1.35–11.9, p=0.012). In addition, seven of nine MM patients with complex chromosomal karyotype had concurrent plasmacytoma. <h3>Conclusion</h3> Although the limitation of retrospective study design and the small sample size exists, our findings indicate that the coexistence of complex chromosomal abnormality, probably which reflects aggressive disease status like extraosseous or extramedullary disease, could be associated with poor prognoses of MM patients with high-risk CA.

TP53 Mutations in Acute Myeloid Leukemia: Still a Daunting Challenge?

TP53 is a key tumor suppressor gene with protean functions associated with preservation of genomic balance, including regulation of cellular senescence, apoptotic pathways, metabolism functions, and DNA repair. The vast majority of de novo acute myeloid leukemia (AML) present unaltered TP53 alleles. However, TP53 mutations are frequently detected in AML related to an increased genomic instability, such as therapy‐related (t-AML) or AML with myelodysplasia-related changes. Of note, TP53 mutations are associated with complex cytogenetic abnormalities, advanced age, chemoresistance, and poor outcomes. Recent breakthroughs in AML research and the development of targeted drugs directed at specific mutations have led to an explosion of novel treatments with different mechanisms. However, optimal treatment strategy for patients harboring TP53 mutations remains a critical area of unmet need. In this review, we focus on the incidence and clinical significance of TP53 mutations in de novo and t-AML. The influence of these alterations on response and clinical outcomes as well as the current and future therapeutic perspectives for this hardly treatable setting are discussed.

Complex cytogenetic abnormalities in chronic myeloid leukemia resulting in early progression to blast crisis: a case report

IntroductionBCR-ABL1, resulting from t(9;22), is the oncogenic driver of chronic myeloid leukemia and the therapeutic target of the disease. Molecular studies have been the gold standard modality for patient assessment since the advent of tyrosine kinase inhibitor therapy. In spite of that, there are cytogenetic abnormalities that can render the disease unresponsive to conventional therapy, thus making cytogenetics an important component of patient management guidelines.Case presentationWe present a case of a Tajik, Afghan patient with chronic myeloid leukemia with del(6)(q23.3q27), t(9;22)(q34;q11.2), monosomy 11, monosomy 12, and marker chromosome who, despite having typical clinical and hematological disease with initial response to therapy, progressed to blast crisis very early and thus required special interventions.ConclusionCytogenetic monitoring is an important pillar in the management of patients with chronic myeloid leukemia that cannot be ignored. It should therefore be a part of patient management not only during diagnosis but also during management. We present an unusual cytogenetic abnormality in a patient with chronic myeloid leukemia that resulted in early disease progression.

Sequencing of RNA in single cells reveals a distinct transcriptome signature of hematopoiesis in GATA2 deficiency

AbstractConstitutional GATA2 deficiency caused by heterozygous germline GATA2 mutations has a broad spectrum of clinical phenotypes, including systemic infections, lymphedema, cytopenias, and myeloid neoplasms. Genotype–phenotype correlation is not well understood mechanistically in GATA2 deficiency. We performed whole transcriptome sequencing of single hematopoietic stem and progenitor cells from 8 patients, who had pathogenic GATA2 mutations and myelodysplasia. Mapping patients' cells onto normal hematopoiesis, we observed deficiency in lymphoid/myeloid progenitors, also evident from highly constrained gene correlations. HSPCs of patients exhibited distinct patterns of gene expression and coexpression compared with counterparts from healthy donors. Distinct lineages showed differently altered transcriptional profiles. Stem cells in patients had dysregulated gene expression related to apoptosis, cell cycle, and quiescence; increased expression of erythroid/megakaryocytic priming genes; and decreased lymphoid priming genes. The prominent deficiency in lympho-myeloid lineages in GATA2 deficiency appeared at least partly due to the expression of aberrant gene programs in stem cells prior to lineage commitment. We computationally imputed cells with chromosomal abnormalities and determined their gene expression; DNA repair genes were downregulated in trisomy 8 cells, potentially rendering these cells vulnerable to second-hit somatic mutations and additional chromosomal abnormalities. Cells with complex cytogenetic abnormalities showed defects in genes related to multilineage differentiation and cell cycle. Single-cell RNA sequencing is powerful in resolving transcriptomes of cell subpopulations despite a paucity of cells in marrow failure. Our study discloses previously uncharacterized transcriptome signatures of stem cells and progenitors in GATA2 deficiency, providing a broad perspective of potential mechanisms by which germline mutations modulate early hematopoiesis in a human disease. This trial was registered at www.clinicaltrials.gov as NCT01905826, NCT01861106, and NCT00001620.

Myeloid neoplasms in the setting of sickle cell disease: an intrinsic association with the underlying condition rather than a coincidence; report of 4 cases and review of the literature

Myeloid neoplasms occasionally occur in patients with sickle cell disease, and the underlying connection between the two diseases is unclear. Herein, we retrospectively analyzed four cases of sickle cell disease patients who developed myeloid neoplasm. Age at time of diagnosis ranged from 27 to 59 years with a median of 35.5 years. Two patients were treated with hydroxyurea and the other two with supportive care alone, with one out of the four patients receiving additional treatment with hematopoietic stem cell transplant. Three patients presented with leukocytosis, and the remaining patient presented with pancytopenia. Two patients were diagnosed with myelodysplastic syndrome/myeloproliferative neoplasm, one with myelodysplastic syndrome, and the other with acute myeloid leukemia. All four cases demonstrated certain degrees of myelodysplasia and complex cytogenetic abnormalities with − 7/7q- and/or − 5/5q- or with 11q23 (KMT2A) rearrangement. This cytogenetic profile resembles that seen in therapy-related myeloid neoplasm, suggesting that myeloid neoplasm in the setting of sickle cell disease may represent a subcategory of the disease distinct from de novo myeloid neoplasm in general. Extensive literature review further demonstrates this similarity in cytogenetic profile, as well as in other associated pathologic features. Potential etiology includes therapy for sickle cell disease, disease-related immunomodulation, or disease-related chronic inflammation. We hypothesize that constant hematopoietic hyperplasia, stimulated by a hemolysis-induced cytokine storm, may increase the chance of somatic mutations/cytogenetic aberrations, resulting in transformation of myeloid precursors. This group of myeloid neoplasms seems to herald a dismal clinical outcome, with median survival <1 year, although the exact pathogenesis and biology of the disease remain to be investigated by large cohorts in future studies.

Extended Experience with a Very Low Dose, Metronomic, Subcutaneous Decitabine Regimen Intended to Deplete DNMT1 without Cytotoxicity

Rationale: Dose-reduction of a nucleoside analog reduces cytotoxicity and hence can increase safety, but with less cytotoxicity-driven efficacy as a trade-off. Such an efficacy trade-off, however, may not apply to the nucleoside analog decitabine, because it has a molecular-targeted action of depleting DNA methyltransferase 1 (DNMT1) separable from cytotoxicity, and that occurs and is saturated at low concentrations. In fact, higher decitabine doses/concentrations, by causing cytotoxicity, limit feasible exposure times for this molecular effect that can cytoreduce p53-null, chemorefractory myeloid malignancies via terminal-differentiation instead of apoptosis, simultaneously sparing normal hematopoiesis. Hence, we designed decitabine application to avoid cytotoxicity and increase DNMT1-targeting and describe here results in 69 patients (25 of whom were previously described with shorter follow-up (NCT01165996)(J Clin Invest 2015; 125(3):1043-55]). Methods: IRB approved Myeloid Malignancy Registry (16-020) and Sample Repository protocols (5024) curated demographic, laboratory, intervention, outcome, and mutational data in myeloid malignancy patients after written informed consent; 69 of 1694 patients in the Registry received the alternative decitabine regimen: (i) Dose: 0.1-0.2 mg/kg (~3.5-5 mg/m2), verified to deplete DNMT1 without cytotoxicity in primate and human studies; (ii) Schedule: 1-2X/week, frequent and distributed, to increase S-phase dependent DNMT1-depletion; (iii) Route: subcutaneous, to avoid high peak concentrations.A standard starting dose of 0.2 mg/kg was reduced to 0.15 mg/kg if infection risk was high (e.g., ANC&lt;500). Frequency of administration was dictated by disease aggression and response: e.g., 2X/week on consecutive days for myeloblasts &gt;10% or for lack of response to 1X/week. Neutropenia from treatment was managed by interruption then resumption upon neutrophil recovery (same dose or lower by 0.05 mg/kg). Routine anti-emetic prophylaxis was not required. Results: Non-cytotoxic DNMT1-depletion was confirmed by bone marrow gH2AX and DNMT1 measurements (published for 1st25 patients). The 69 patients had MDS 54%, MDS/MPN 14%, MPN 17% and AML 15%. Their median age was 69 years (range 45-89). Prior therapies (77%) were 5-azacytidine 29%, lenalidomide 19%, erythropoietin 26%, hydroxyurea 7%, ruxolitinib 7%, cytarabine 4%. The side-effect was neutropenia (non-cytotoxic DNMT1-depletion skews myeloid differentiation away from GMP and to EMK), complicated by fever/infection in 31 patients (45%), with 1 septic death. Eight of these 31 patients (25%) had fever/infection before treatment. Blood count improvements meeting IWG criteria for response (hematologic improvement [HI]/complete remission [CR]) occurred in 30 patients (43%; CR 14%) (Fig 1A) and were durable(median treatment duration in HI/CR 82 weeks [range 14-347]). Treatment decreased bone marrow myeloblasts, even in cases without HI/CR (Fig 1B). HI/CR was achieved in MDS/AML containing monosomy 7, trisomy 8, complex cytogenetic abnormalities and/or multiple mutations (Fig 1C). Cytogenetics were normalized in 10/36 (28%) (Fig 1C). Patients with HI/CR had better overall survival (median 31 vs18 months) (p=0.036) (Fig 1D). Predictors of HI/CR were higher baseline neutrophils (median 3.04 vs 1.23 x109/L; p=0.002)and higher marrow cellularity (median 70 vs48%; p=0.044)(Fig 1E, F). Conclusion: Myeloid malignancies containing diverse genetic abnormalities responded sustainably (up to 6.5 years follow-up) to a decitabine regimen designed and demonstrated to be non-cytotoxic yet DNMT1-targeting, consistent with scientific data validating DNMT1 as a mutation-agnostic target that operates in a final common pathway of myeloid transformation. Although this single-agent regimen is non-curative, we postulate that avoidance of cytotoxicity, combined with target-validity, enabled sustained disease control/transfusion-freedom in several patients. Reported links between some mutations, e.g., in TET2, and decitabine response could be via higher neutrophils that in turn enable frequent decitabine exposures, a basic requirement for response. Also fundamental, HI/CR requires not just suppression of malignant clones but marrow capacity to support and recover functional hematopoiesis, suggesting why low baseline marrow cellularity predicted non-response. Disclosures Maciejewski: Novartis: Consultancy; Alexion: Consultancy. Saunthararajah:Novo Nordisk: Consultancy; EpiDestiny: Consultancy, Equity Ownership, Patents &amp; Royalties. OffLabel Disclosure: Alternative dose and scheduling of Decitabine for myeloid neoplasms

Plasma Cell-free DNA chromosomal instability score as early predictor to monitor tumor burden in response to therapeutic in multiple myeloma patients

Multiple myeloma (MM) is a plasma cell malignancy characterized by chromosomal instabilities (CIN), including complex cytogenetic and molecular abnormalities. Cell-free DNA (cfDNA) offers the potential for minimally invasive genome-wide profiling of tumor alterations in monitoring tumor burden without tumor biopsy and may be associated with cancer precision medicine and patient prognosis. The better response is associated with improved overall survival (OS) in MM, but data on early response at treatment two cycle to predictor the prognosis are limited.

Clinical implications of clonal chromosomal abnormalities in Philadelphia negative cells in CML patients after treated with tyrosine kinase inhibitors

Emergence of clonal chromosomal abnormalities in Philadelphia chromosome-negative (CCA/Ph-) cells in chronic myeloid leukemia (CML) patients during the treatment with tyrosine kinase inhibitors (TKIs) is an interesting phenomenon. Although previous studies revealed some potential impact of CCA/Ph- on CML patients’ outcome, clinical significance of CCA/Ph- in CML patients remains to be further elucidated. We retrospectively reviewed the patients with CML evaluated at Genoptix Medical Laboratory in Carlsbad, California from 2005 to 2015. Twenty-four CML patients with CCA/Ph- cells were identified. These include 18 patients with single chromosomal abnormality, 4 patients with double chromosomal abnormalities, and two patients with complex cytogenetic abnormalities. In addition to trisomy 8 and monosomy 7, we identified that 20q- was also a common abnormality in CCA/Ph- cells. Most of the patients with CCA/Ph- cells demonstrated no significant dysplasia or increased blasts with two exceptions: one patient with persistent 7q- exhibiting mild dysmegakaryopoiesis, suggestive of an early evolving myelodysplastic syndrome, and another patient with complex cytogenetic abnormalities who developed acute myeloid leukemia after gained MLL amplification. One patient with complex cytogenetic abnormalities showed optimal response to TKI treatment, no overt dysplasia, and no disease progression during almost 4-years of follow-up. More interestingly, FISH tests could identify more cases with double chromosomal abnormalities and these cases showed suboptimal responses to TKI treatments. Our observation indicates that 20q- was also a common abnormality in CCA/Ph- cells, further FISH tests revealed additional CCA/Ph-, and the majority of CML patients with two or more chromosomal abnormalities in Ph- cells showed inferior response to TKI treatments. The results of our study suggest that CML cases with CCA/Ph- may represent a group of patients with heterogeneous genetic alterations.

Biclonal splenic marginal zone lymphoma with T cell-rich background and aggressive transformation to large cell lymphoma

Marginal zone B cell lymphomas (MZL) are biologically heterogeneous, rarely demonstrating biclonality, complex cytogenetic abnormalities, or T cell predominance. We report a case of biclonal splenic MZL, T cell-rich variant with an abnormal karyotype that progressed to large B cell lymphoma. A 74-year-old female presented with pancytopenia, weight loss, fever, and splenomegaly. Microscopically, the spleen revealed an extensive, vaguely nodular lymphoid proliferation, composed of small lymphocytes, majority of which were reactive T cells. B cells were mostly small and < 5% of total lymphocytes. Focal follicular dendritic cell networks were present, but germinal centers were absent. Flow cytometric analysis revealed two distinct CD5 and CD10 negative B cell clones, one kappa positive and one lambda positive. Conventional cytogenetic analysis revealed the following abnormal karyotype: 47,XX,add(7)(q36),del(7)(q22),add(21)(p11.2),+mar[10]/46,XX[10]. Immunoglobulin heavy chain gene rearrangement showed two monoclonal peaks of different magnitude, consistent with biclonality. Overall, these features favored a low-grade splenic MZL. The staging bone marrow biopsy was normocellular with few interstitial lymphoid aggregates, composed of small lymphocytes, consistent with minimal involvement by low-grade B cell lymphoma. The patient improved without adjuvant chemotherapy; however, 12 months later, she developed anemia and lymphocytosis. Subsequent bone marrow biopsy showed extensive involvement by a large B cell lymphoma and complex karyotype with the previously identified abnormalities, as well as additional numerical and structural aberrations, consistent with cytogenetic evolution and biclonal gene rearrangement. These findings were consistent with transformation. This case demonstrates a unique pathological presentation of splenic MZL with disease progression, highlighting the importance of an integrated approach for lymphoma classification and the difficulties in diagnosing such cases.

Molecular Neuropathology in Practice: Clinical Profiling and Integrative Analysis of Molecular Alterations in Glioblastoma

Molecular profiling of glioblastoma has revealed complex cytogenetic, epigenetic, and molecular abnormalities that are necessary for diagnosis, prognosis, and treatment. Our neuro-oncology group has developed a data-driven, institutional consensus guideline for efficient and optimal workup of glioblastomas based on our routine performance of molecular testing. We describe our institution’s testing algorithm, assay development, and genetic findings in glioblastoma, to illustrate current practices and challenges in neuropathology related to molecular and genetic testing. We have found that coordination of test requisition, tissue handling, and incorporation of results into the final pathologic diagnosis by the neuropathologist improve patient care. Here, we present analysis of O6-methylguanine-DNA-methyltransferase promoter methylation and next-generation sequencing results of 189 patients, obtained utilizing our internal processes led by the neuropathology team. Our institutional pathway for neuropathologist-driven molecular testing has streamlined the management of glioblastoma samples for efficient return of results for incorporation of genomic data into the pathological diagnosis and optimal patient care.