Genetic and Epigenetic Signatures in Acute Promyelocytic Leukemia Treatment and Molecular Remission.

Acute myeloid leukemia (AML) is an aggressive, heterogeneous group of malignancies with different clinical behaviors and different responses to therapy. For many types of cancer, finding cancer early makes it easier to treat. Identifying prognostic molecular markers and understanding their biology are the first steps toward developing novel diagnostic tools or therapies for patients with AML. In this study, we defined proteins and genes that can be used in the prognosis of different acute leukemia cases and found possible uses in diagnostics and therapy. We analyzed newly diagnosed acute leukemia cases positive for t (15; 17) (q22; q21) PML-RAR alpha, acute promyelocytic leukemia (APL). The samples of bone marrow cells were collected from patients at the diagnosis stage, as follow-up samples during standard treatment with all-trans retinoic acid, idarubicin, and mitoxantrone, and at the molecular remission. We determined changes in the expression of genes involved in leukemia cell growth, apoptosis, and differentiation. We observed that WT1, CALR, CAV1, and MYC genes' expression in all APL patients with no relapse history was downregulated after treatment and could be potential markers associated with the pathology, thereby revealing the potential value of this approach for a better characterization of the prediction of APL outcomes.

Population-based targeted RNA sequencing reveals novel disease-related gene fusions in pediatric and adult T-ALL.

BACKGROUND: T-cell acute lymphoblastic leukemia (T-ALL) is a genetically diverse disease characterized by a heterogeneous profile of genetic lesions. Recent transcriptome studies identified a number of new T-ALL-related gene fusions. Novel gene fusions could be employed as disease-specific molecular markers and provide a better understanding of T-ALL biology, proving the need for further omics sequencing studies. METHODS: We performed a population-based analysis of 65 (26 pediatric and 39 adults) Lithuanian T-ALL patients. Targeted RNA sequencing (RNA-seq) was used to detect recurrent and novel T-ALL-related fusion transcripts and gene sequence variants. RT-qPCR was used to calculate the relative gene expression of fusion transcripts. RESULTS: We identified disease-related gene alterations in 57/65 (87.7%) T-ALL cases, of which four patients harbored gene fusions that affect ABL-class or JAK-STAT signaling pathways. Five novel gene fusions were detected in 4/65 (6.2%) T-ALL cases: CD99::ABL2 and ZEB1::GNAS in the same case, CTCF::ENKD1, DIAPH1::JAK2, and CDK6::NEK1. Novel fusion transcripts encode chimeric proteins that can potentially affect T-cell proliferation, apoptosis, and help to maintain leukemic cells. Importantly, novel fusion transcripts were not detected in the clinical remission samples attributing these fusions to the leukemic compartment. CONCLUSIONS: We report a similar incidence rate of recurrent gene alterations affecting T-ALL-related molecular signaling pathways in both Lithuanian T-ALL patients and other T-ALL studies. Our data suggest that newly identified gene fusions are specific to leukemic T-cells and provide new molecular insights on T-ALL pathogenesis. Further research is needed to confirm these findings.

Low incidence of ABL-class and JAK-STAT signaling pathway alterations in uniformly treated pediatric and adult B-cell acute lymphoblastic leukemia patients using MRD risk-directed approach - a population-based study.

BACKGROUND: ABL-class and JAK-STAT signaling pathway activating alterations have been associated with both a poor post-induction minimal residual disease (MRD) response and an inferior outcome in B-cell acute lymphoblastic leukemia (B-ALL). However, in most of the studies patients received non-uniform treatment. METHODS: We performed a population-based analysis of 160 (122 pediatric and 38 adult) Lithuanian BCR-ABL1-negative B-ALL patients who had been uniformly treated according to MRD-directed NOPHO ALL-2008 protocol. Targeted RNA sequencing and FISH analysis were performed in cases without canonical B-ALL genomic alterations (high hyperdiploids and low hypodiploids included). RESULTS: We identified ABL-class fusions in 3/160 (1.9%) B-ALL patients, and exclusively in adults (p = 0.003). JAK-STAT pathway fusions were present in 4/160 (2.5%) cases. Of note, P2RY8-CRLF2 fusion was absent in both pediatric and adult B-ALL cases. Patients with ABL-class or JAK-STAT pathway fusions had a poor MRD response and were assigned to the higher risk groups, and had an inferior event-free survival (EFS) / overall survival (OS) compared to patients without these fusions. In a multivariate analysis, positivity for ABL-class and JAK-STAT fusions was a risk factor for worse EFS (p = 0.046) but not for OS (p = 0.278) in adults. CONCLUSIONS: We report a low overall frequency of ABL-class and JAK-STAT fusions and the absence of P2RY8-CRLF2 gene fusion in the Lithuanian BCR-ABL1 negative B-ALL cohort. Future (larger) studies are warranted to confirm an inferior event-free survival of ABL-class/JAK-STAT fusion-positive adult patients in MRD-directed protocols.

Outcomes of relapsed or refractory acute myeloid leukemia patients failing venetoclax-based salvage therapies.

OBJECTIVES AND METHODS: We conducted a retrospective analysis to evaluate the outcomes of 28 heavily pretreated (median 3 (2-6) treatment lines, sixteen (57%) allotransplanted) relapsed/refractory acute myeloid leukemia patients who had failed salvage venetoclax-based therapies. RESULTS: The median age was 59 years (20-80), 20 patients (71%) had ECOG 2-4 status, and 18 patients (64%) were stratified to European Leukemia Network 2017 adverse risk group. The most common mutations were ASXL1 (21%), RUNX1 (18%), FLT3 ITD/TKD (18%), PTPN11 (15%), NRAS/KRAS (15%), and WT1 (15%). Twenty-two patients (79%) received different post-venetoclax salvage therapies with the overall response rate of 23% (complete remission + morphological leukemia-free state). Three of six (50%) patients achieved complete remissions after therapy with venetoclax + actinomycin D ± low-dose cytarabine. The remaining 6 patients did not receive any further salvage treatment mainly due to poor general condition. The median overall survival was 3.9 months for all patients (4.3 for those receiving post-venetoclax salvage vs 1.3 months receiving palliative care alone, P < .001). CONCLUSIONS: Though the remission rate and survival of patients failing venetoclax are poor, a small proportion of these R/R AML patients may still respond to cautious intensification of chemotherapy with venetoclax.

Corrigendum to "HDAC and HMT Inhibitors in Combination with Conventional Therapy: A Novel Treatment Option for Acute Promyelocytic Leukemia".

[This corrects the article DOI: 10.1155/2019/6179573.].

HDAC and HMT Inhibitors in Combination with Conventional Therapy: A Novel Treatment Option for Acute Promyelocytic Leukemia.

Acute promyelocytic leukemia (APL) is characterized by PML-RARA translocation, which causes the blockage of promyelocyte differentiation. Conventional treatment with Retinoic acid and chemotherapeutics is quite satisfactory. However, there are still patients who relapse or develop resistance to conventional treatment. To propose new possibilities for acute leukemia treatment, we studied the potential of histone deacetylase (HDAC) inhibitor and histone methyl transferase (HMT) inhibitor to enhance conventional therapy in vitro and ex vivo. NB4 and HL60 cell lines were used as an in vitro model; APL patient bone marrow mononuclear cells were used as an ex vivo model. Cell samples were treated with Belinostat (HDAC inhibitor) and 3-Deazaneplanocin A (HMT inhibitor) in combination with conventional treatment (Retinoic acid and Idarubicin). We demonstrated that the combined treatment used in the study had slightly higher effect on cell proliferation inhibition than conventional treatment. Also, enhanced treatment showed stronger effect on induction of apoptosis and on suppression of metabolism. Moreover, the treatment accelerated granulocytic cell differentiation and caused chromatin remodelling (increased H3K14 and H4 acetylation levels). In vitro and ex vivo models showed similar response to the treatment with different combinations of 3-Deazaneplanocin A, Belinostat, Retinoic acid, and Idarubicin. In conclusion, we suggest that 3-Deazaneplanocin A and Belinostat enhanced conventional acute promyelocytic leukemia treatment and could be considered for further investigations for clinical use.

Impact of the Uridine⁻Cytidine Kinase Like-1 Protein and IL28B rs12979860 and rs8099917 SNPs on the Development of Hepatocellular Carcinoma in Cirrhotic Chronic Hepatitis C Patients-A Pilot Study.

Background and objectives: The hepatitis C virus (HCV) is the major causative agent of hepatocellular carcinoma (HCC) in the western world. The efficacy of surveillance programs for early detection of HCC is not satisfactory: many tumors are diagnosed at the late, incurable stages. Therefore, there is a need in reliable prognostic markers for the proper follow-up of HCV-positive patients. The aim of the present study was to assess the prognostic value of the uridine⁻cytidine kinase-like protein 1 (UCKL-1), a putative oncoprotein, together with genetically determined polymorphisms in the interleukin 28B (IL28B) gene (rs12979860, rs8099917) in the development of HCC in HCV-positive cirrhotic patients. Materials and Methods: We included 32 HCV cirrhotic patients, 21 (65.6%) of whom had HCC. The expression of UCKL-1 was assessed in liver tissue sections, using immunohistochemistry. For IL28B rs12979860 and rs8099917 genotype analysis, the corresponding genomic regions were amplified by polymerase chain reaction (PCR) with appropriate primers. Results: We have found that UCKL-1 expression was significantly increased in HCC (p = 0.003). The presence of rs8099917 TT single-nucleotide polymorphism (SNP) elevated the chances of HCC manifestation more than sevenfold (OR = 7.3, p = 0.0273). The presence of rs12979860 CC SNP also heightened HCC chances more than sevenfold (OR = 7.5, p = 0.0765). Moreover, in the HCC group, a combination of IL28B rs12979860 non-TT and rs8099917 TT genotypes was observed more often, compared with the non-HCC group. Other combinations of IL28B rs12979860 and rs8099917 SNIPs were associated with a reduced risk of HCC development, approximately at the same extent. Conclusions: The presence of IL28B rs8099917 TT and rs12979860 CC SNPs, but not the intensity of UCKL-1 expression, is strongly associated with increased chances of HCC development in HCV-positive cirrhotic patients.

A population-based single nucleotide polymorphism array analysis of genomic aberrations in younger adult acute lymphoblastic leukemia patients.

Adult acute lymphoblastic leukemia (ALL) is characterized by a high frequency of abnormal karyotypes some of which are related to outcome. Single nucleotide polymorphism (SNP) array analysis provides a highly sensitive platform to detect large and small genomic aberrations. SNP array profiling data in adult ALL are limited and further systematic studies of this patient group are needed. We performed a population-based SNP array analysis of genomic aberrations and their influence on survival in 66 Lithuanian 18-65 year old ALL patients diagnosed between 2007 and 2013. Most aberrations were detected in chromosome arm 9p, chromosome arm 6q, chromosome arm 13q, and chromosome 17. The recurrently targeted copy number abnormalities involved several leukemia-related genes-CDKN2A/B, MLL, IKZF1, PAX5, RB1, TP53, and ETV6. We identified several new recurrent aberrations with possible new target genes: SMARCA4 in 19p13.2, RNASEL in 1q25.3, ARHGEF12 in 11q23.3, and LYL1 in 19p13.2. Aberrations in chromosome 13 and the RB1 gene as well as CDKN2A/B gene status were related to the outcome.

Clear cell sarcoma expressing a novel chimerical transcript EWSR1 exon 7/ATF1 exon 6.

Clear cell sarcoma harbours recurrent translocation, resulting in EWSR1/ATF1 or less commonly EWSR1/CREB1 fusion. To date, six types of EWSR1/ATF1 fusion have been reported, of which three are in-frame and encode functional proteins. We present a reverse transcription - polymerase chain reaction analysis of a tumour near the hallux of the right foot. The sequencing of obtained fragments revealed the presence of a novel chimerical transcript-the in-frame fusion between EWSR1 exon 7 and ATF1 exon 6 that represents the fourth in-frame type of EWSR1/ATF1 fusion identified in clear cell sarcomas.

Dose-dense high-dose methylprednisolone and rituximab in the treatment of relapsed or refractory high-risk chronic lymphocytic leukemia.

This study evaluated the efficacy and safety of dose-dense high-dose methylprednisolone (HDMP) plus rituximab (Rtx) in patients with high-risk CLL. Twenty-nine patients with relapsed or progressive CLL with adverse cytogenetics (17p deletion, TP53 mutation, 11q deletion, and/or trisomy 12) and/or progression within 12 months of fludarabine treatment were included. HDMP (1 g/m(2)) was administered daily for 5 days of each treatment course. Rtx was administered on days 1 (375 mg/m(2)) and 5 (500 mg/m(2)) of the first treatment course, on days 1 (500 mg/m(2)) and 5 (500 mg/m(2)) of the second course, and on day 1 (500 mg/m(2)) of courses 3-6. The cycles were repeated every 21 days. The overall response rate (ORR) was 62%, and 28% of patients had stable disease. In 13 patients with 17p deletion/TP53 mutation, ORR was 69%. After 22 months, the median progression-free and overall survivals were 12 and 31 months, respectively. The most frequent toxicity was hyperglycemia, and three deaths occurred in the study. Dose-dense treatment with HDMP and Rtx is an effective therapy with a favorable safety profile in patients with high-risk CLL, including those with 17p deletion/TP53 mutation.

Identification of characteristic IGF2BP expression patterns in distinct B-ALL entities.

Insulin-like growth factor 2 mRNA-binding proteins IGF2BP1, IGF2BP2, and IGF2BP3 have been shown to have diagnostic and prognostic utility in a number of epithelial and soft tissue tumors. Still, little is known about the expression of these molecules in different types of leukemia and our study aims to fill this gap. By using an RT-qPCR approach, we have systemically analyzed the expression of three IGF2BP coding genes in normal hematopoietic tissues and distinct acute lymphoblastic leukemia (ALL) entities. We show that low/negative IGF2BP1 and IGF2BP3 and high IGF2BP2 levels are characteristic to healthy donor bone marrow and peripheral blood whereas different B-ALL entities displayed characteristic perturbations of IGF2BP expression patterns. Namely, we have identified significant associations of overexpressed IGF2BP1 with ETV6/RUNX1-positive (r(2)=0.7891, y=0.8105x-0.4471, p<0.0001), underexpressed IGF2BP2 with E2A/PBX1-positive (p<0.01), and overexpressed IGF2BP2 and IGF2BP3 with MLL/AF4-positive (r(2)=0.6571, y=0.1507x-0.2722, p<0.0001, and r(2)=0.7022, y=0.6482x-0.7660, p<0.0001, respectively) leukemia. Secondly, based on transcript expression dynamics during follow-up, we conclude that overexpression of only IGF2BP1 is inherent characteristic of ETV6/RUNX1-positive leukemic blasts in contrast to IGF2BP3 which remained stably expressed throughout the monitoring period and upon the achievement of molecular remission. Finally, our data suggest that IGF2BP3 might be a marker of disease aggressiveness in BCR/ABL1-positive ALL as consistently increasing levels of this transcript during follow-up predicted eventual leukemia relapse by three months. Altogether, our results highlight the potential utility of IGF2BP profiling in precursor B lymphoid neoplasms as the functions of IGF2BPs in normal and malignant hematopoiesis are further delineated.

Recent advances in quantitative chimerism analysis.

Quantitative chimerism analysis is a diagnostic tool used to monitor engraftment kinetics after allogeneic stem cell transplantation. It reflects the proportion of recipient and donor genotypes and is based on the identification of genetic markers characteristic to a given transplant pair. Currently, PCR amplification of short tandem repeats and single-nucleotide polymorphism-specific quantitative real-time PCR are the most widely used techniques for this purpose. In this review, we will address advances as well as technology-specific imperfections, of both techniques that have emerged over the recent years. We will discuss new principles that may simplify assay design, and improve its robustness and reliability. A better chimerism assay could then guide clinical interventions and may, eventually, improve the outcome of allogeneic stem cell transplantation.

Single nucleotide polymorphism-based system improves the applicability of quantitative PCR for chimerism monitoring.

Recently, several studies demonstrated the feasibility of a real-time quantitative PCR (qPCR) approach for chimerism monitoring. qPCR offers a fast, sensitive, and elegant quantification of genotypes. However, before it becomes an established method for routine chimerism monitoring, a qPCR marker set for every transplant pair should be available. This requirement poses a major challenge since the genetic markers for qPCR--short insertions/deletions (Indels) and single nucleotide polymorphisms (SNPs)--published to-date do not guarantee applicability for every transplant pair. The aim of our study was to design and validate a new SNP allele-specific system to supplement an already existing Indel primer panel and improve applicability of the qPCR approach for chimerism status monitoring. Here, we present an approach for an economical in-house design of SNP allele-specific qPCR primers/probe sets with a locus-individualized reference system that allows for the accurate quantification of the respective informative locus using a simple DeltaDeltaCt method. We designed primers/probe sets specific for seven biallelic SNP loci and validated them in a population of 30 transplant pairs. Repeatability varied depending on the amount of quantifiable genotype. The combination of our SNP-qPCR system and Indel primers increased recipient genotype identification from 86.6% to 96.6% when tested in a population of our transplant pairs. These results demonstrate the feasibility of our SNP-based qPCR approach to improve the applicability of a qPCR for chimerism monitoring.

ModA and ModB, two ADP-ribosyltransferases encoded by bacteriophage T4: catalytic properties and mutation analysis.

Bacteriophage T4 encodes three ADP-ribosyltransferases, Alt, ModA, and ModB. These enzymes participate in the regulation of the T4 replication cycle by ADP-ribosylating a defined set of host proteins. In order to obtain a better understanding of the phage-host interactions and their consequences for regulating the T4 replication cycle, we studied cloning, overexpression, and characterization of purified ModA and ModB enzymes. Site-directed mutagenesis confirmed that amino acids, as deduced from secondary structure alignments, are indeed decisive for the activity of the enzymes, implying that the transfer reaction follows the Sn1-type reaction scheme proposed for this class of enzymes. In vitro transcription assays performed with Alt- and ModA-modified RNA polymerases demonstrated that the Alt-ribosylated polymerase enhances transcription from T4 early promoters on a T4 DNA template, whereas the transcriptional activity of ModA-modified polymerase, without the participation of T4-encoded auxiliary proteins for middle mode or late transcription, is reduced. The results presented here support the conclusion that ADP-ribosylation of RNA polymerase and of other host proteins allows initial phage-directed mRNA synthesis reactions to escape from host control. In contrast, subsequent modification of the other cellular target proteins limits transcription from phage early genes and participates in redirecting transcription to phage middle and late genes.

T4 early promoter strength probed in vivo with unribosylated and ADP-ribosylated Escherichia coli RNA polymerase: a mutation analysis.

The consensus sequence of T4 early promoters differs in length, sequence and degree of conservation from that of Escherichia coli sigma(70) promoters. The enzyme interacting with these promoters, and transcribing the T4 genome, is native host RNA polymerase, which is increasingly modified by the phage-encoded ADP-ribosyltransferase, Alt. T4 early transcription is a very active process, possibly out-competing host transcription. The much stronger T4 promoters enhance viral transcription by a factor of at least two and the Alt-catalysed ADP-ribosylation of the host enzyme triggers an additional enhancement, again by a factor of about two. To address the question of which promoter elements contribute to the increasing transcriptional activity directed towards phage genes, the very strong E. coli promoter, Ptac, was sequentially mutated towards the sequence of the T4 early promoter consensus. Second, mutations were introduced into the highly conserved regions of the T4 early promoter, P8.1. The co-occurrence of the promoter-encoding plasmid pKWIII and vector pTKRI, which expresses Alt in E. coli, constitutes a test system that allows comparison of the transcriptional activities of phage and bacterial promoters, in the presence of native, or alternatively ADP-ribosylated RNA polymerase. Results reveal that T4 early promoters exhibit a bipartite structure, capable of strong interaction with both types of RNA polymerase. The -10, -16, -42 and -52 regions are important for transcript initiation with the native polymerase. To facilitate acceleration of transcription, the ADP-ribosylated enzyme requires not only the integrity of the -10, -16 and -35 regions, but also that of position -33, and even more importantly, maintenance of the upstream promoter element at position -42. The latter positions introduced into the E. coli Ptac promoter render this mutant promoter responsive to Alt-ADP-ribosylated RNA polymerase, like T4 early promoters.