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1. A novel α,β-unsaturated ketone inhibits leukemia cell growth as PARP1 inhibitor.

Author

Zhao W, Mo M, Yu J, Cheng S, Long G, Luo Z, Liang W, Yan C, Luo H, and Sun B

Subjects
Humans, Cell Cycle, Cell Proliferation, Cell Division, Annexin A5, Poly (ADP-Ribose) Polymerase-1, Leukemia drug therapy
Abstract

Leukemia is a malignant disease of the hematopoietic system, in which clonal leukemia cells accumulate and inhibit normal hematopoiesis in the bone marrow and other hematopoietic tissues as a result of uncontrolled proliferation and impaired apoptosis, among other mechanisms. In this study, the anti-leukemic effect of a compound (SGP-17-S) extracted from Chloranthus multistachys, a plant with anti-inflammatory, antibacterial and anti-tumor effects, was evaluated. The effect of SGP-17-S on the viability of leukemic cell was demonstrated by MTT assay, cell cycle, and apoptosis were assessed by flow cytometry using PI staining and Annexin V/PI double staining. Combinations of network pharmacology and cellular thermal shift assay (CETSA) with western blot were used to validate agents that act on leukemia targets. The results showed that SGP-17-S inhibited the growth of leukemia cells in a time- and dose-dependent manner. SGP-17-S blocked HEL cells in the G2 phase, induced apoptosis, decreased Bcl-2 and caspase-8 protein expression, and increased Bax and caspase-3 expression. In addition, CETSA revealed that PARP1 is an important target gene for the inhibition of HEL cell growth, and SGP-17-S exerted its action on leukemia cells by targeting PARP1. Therefore, this study might provide new solutions and ideas for the treatment of leukemia., (© 2024. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published
2024
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2. Global burden of leukemia attributable to occupational exposure to formaldehyde from 1990 to 2019.

Author

Xu Y, Liu Y, Sun H, Gong X, Yu G, Zhai C, Hu W, Zong Q, Yu Y, Tang Y, Zhang M, Wang F, and Zou Y

Subjects
Humans, Life Expectancy, Quality-Adjusted Life Years, Global Burden of Disease, Global Health, Occupational Exposure, Leukemia chemically induced, Leukemia epidemiology
Abstract

The objective of this study was to evaluate the worldwide burden of leukemia owing to occupational exposure to formaldehyde (OEF) from 1990 to 2019. Data on leukemia due to OEF were obtained from the Global Burden of Disease Study (GBD) 2019. By region, age, sex, and disease subtype, the numbers and age-standardized rates (ASRs) associated with deaths, years of life lost (YLLs), years lived with disability (YLDs), and disability-adjusted life years (DALYs) were analyzed. Annual average percentage change (AAPC) was used to estimate disease burden trends from 1990 to 2019. To measure the risk of leukemia due to OEF, the population attributable fraction (PAF) was introduced. From 1990 to 2019, the number of deaths, DALYs, YLLs, and YLDs for leukemia caused by OEF increased by 44%, 34%, 33%, and 124%, respectively. Regarding the change in ASRs, the age-standardized YLDs (ASYLDs) rate of leukemia due to OEF, which was 38.03% (AAPC = 1.17 [95% confidence interval [CI] 1.11, 1.23]), indicated an increased trend. But the age-standardized mortality rate (ASMR), age-standardized DALY (ASDALY) rate, and age-standardized YLL (ASYLL) rate showed decline trends, with - 11.90% (AAPC =  - 0.41 [95% CI - 0.45, - 0.37]), - 14.19% (AAPC =  - 0.5 [95% CI - 0.55, - 0.45]), and - 14.97% (AAPC =  - 0.53 [95% CI - 0.58, - 0.48]), respectively. In terms of PAFs, there were increasing trends in PAFs of age-standardized deaths, ASDALYs, ASYLLs, and ASYLDs for leukemia caused by OEF, with 20.15% (95% uncertainty interval [UI] 11.76%, 30.25%), 36.28% (95% UI 21.46%, 53.42%), 51.91% (95% UI 35.05%, 72.07%), and 36.34% (95% UI 21.58%, 53.63%), respectively. Across the socio-demographic index (SDI) regions, the leukemia burden caused by OEF was concentrated in middle and high-middle SDI regions. Besides, OEF poses a more serious risk for acute leukemia among the leukemia subtype. Globally, leukemia caused by OEF remains a public health burden. Policies must be developed to avoid the burden of leukemia caused by OEF., (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published
2024
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3. Multiplex technologies for the assessment of minimal residual disease and low-level mutation detection in leukaemia: mass spectrometry versus next-generation sequencing.

Author

Shanmuganathan N and Branford S

Subjects
Cost-Benefit Analysis, DNA Mutational Analysis economics, DNA Mutational Analysis standards, High-Throughput Nucleotide Sequencing economics, High-Throughput Nucleotide Sequencing methods, High-Throughput Nucleotide Sequencing standards, Humans, Mass Spectrometry methods, Mass Spectrometry standards, Mutation Rate, Reproducibility of Results, Sensitivity and Specificity, Biomarkers, Tumor, DNA Mutational Analysis methods, Leukemia diagnosis, Leukemia etiology, Mutation, Neoplasm, Residual diagnosis
Abstract

With the focus of leukaemia management shifting to the implications of low-level disease burden, increasing attention is being paid on the development of highly sensitive methodologies required for detection. There are various techniques capable of identification of measurable residual disease (MRD) either evidencing as relevant mutation detection [e.g. nucleophosmin 1 (NPM1) mutation] or trace levels of leukaemic clonal populations. The vast majority of these methods only permit detection of a single clone or mutation. However, mass spectrometry and next-generation sequencing enable the interrogation of multiple genes simultaneously, facilitating a more complete genomic profile. In the present review, we explore the methodologies of both techniques in conjunction with the important advantages and limitations associated with each assay. We also highlight the evidence and the various instances where either technique has been used and propose future strategies for MRD detection., (© 2021 British Society for Haematology and John Wiley & Sons Ltd.)

Published
2022
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4. Phase 1 and pharmacokinetic study of bolus-infusion flavopiridol followed by cytosine arabinoside and mitoxantrone for acute leukemias.

Author

Karp JE, Smith BD, Resar LS, Greer JM, Blackford A, Zhao M, Moton-Nelson D, Alino K, Levis MJ, Gore SD, Joseph B, Carraway H, McDevitt MA, Bagain L, Mackey K, Briel J, Doyle LA, Wright JJ, and Rudek MA

Subjects
Acute Disease, Adult, Aged, Antineoplastic Combined Chemotherapy Protocols pharmacokinetics, Chemotherapy, Adjuvant, Cytarabine pharmacokinetics, Dose-Response Relationship, Drug, Drug Administration Schedule, Female, Flavonoids administration & dosage, Humans, Infusion Pumps, Male, Middle Aged, Mitoxantrone pharmacokinetics, Piperidines administration & dosage, Young Adult, Antineoplastic Combined Chemotherapy Protocols therapeutic use, Cytarabine administration & dosage, Flavonoids pharmacokinetics, Leukemia drug therapy, Leukemia metabolism, Mitoxantrone administration & dosage, Piperidines pharmacokinetics
Abstract

Flavopiridol is a protein bound, cytotoxic, cyclin-dependent kinase inhibitor. Flavopiridol given by 1-hour bolus at 50 mg/m(2) daily 3 times followed by cytosine arabinoside and mitoxantrone (FLAM) is active in adults with poor-risk acute leukemias. A pharmacologically derived "hybrid" schedule (30-minute bolus followed by 4-hour infusion) of flavopiridol was more effective than bolus administration in refractory chronic lymphocytic leukemia. Our phase 1 trial "hybrid FLAM" in 55 adults with relapsed/refractory acute leukemias began at a total flavopiridol dose of 50 mg/m(2) per day 3 times (20-mg/m(2) bolus, 30-mg/m(2) infusion). Dose-limiting toxicity occurred at level 6 (30-mg/m(2) bolus, 70-mg/m(2) infusion) with tumor lysis, hyperbilirubinemia, and mucositis. Death occurred in 5 patients (9%). Complete remission occurred in 22 (40%) across all doses. Overall and disease-free survivals for complete remission patients are more than 60% at more than 2 years. Pharmacokinetics demonstrated a dose-response for total and unbound plasma flavopiridol unrelated to total protein, albumin, peripheral blast count, or toxicity. Pharmacodynamically, flavopiridol inhibited mRNAs of multiple cell cycle regulators, but with uniform increases in bcl-2. "Hybrid FLAM" is active in relapsed/refractory acute leukemias, with a recommended "hybrid" dose of bolus 30 mg/m(2) followed by infusion of 60 mg/m(2) daily for 3 days. This clinical trial is registered at www.clinicaltrials.gov as #NCT00470197.

Published
2011
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5. A phase 2 study of sorafenib combined with conventional therapies in refractory central nervous system leukemia.

Author

Chen X, Huang J, Xu N, Fan Z, Nie D, Huang F, Sun Q, Zhang X, Liang X, Shi P, Wang Z, Liu H, Xu J, Dai M, Yu G, Zhang Y, Sun J, Liu Q, and Xuan L

Subjects
Central Nervous System, Humans, Recurrence, Retrospective Studies, Sorafenib, Central Nervous System Neoplasms drug therapy, Graft vs Host Disease, Leukemia
Abstract

Background: Patients with refractory central nervous system leukemia (CNSL) have a dismal prognosis and lack effective therapy. Case reports have shown that sorafenib is effective against brain metastases, including leukemia., Methods: To explore the efficacy of sorafenib combined with conventional therapies for refractory CNSL, a phase 2 study was conducted. The primary end point was the complete remission rate (CRR) within 8 weeks of treatment. Secondary end points included the overall response rate (ORR), event-free survival (EFS), overall survival (OS), and adverse events (AEs)., Results: Twenty-six patients with refractory CNSL were enrolled; they included 17 with isolated CNSL, 7 with hematological relapse, and 2 with another extramedullary relapse. After 8 weeks of treatment, 21 patients achieved complete remission, 2 achieved partial remission, and 3 achieved no remission for a CRR of 80.8% (95% CI, 62.1%-91.5%) and an ORR of 88.5% (95% CI, 71.0%-96.0%). Twenty patients survived, and 6 died. The 2-year EFS and OS rates were 75.0% (95% CI, 54.5%-88.3%) and 76.9% (95% CI, 54.2%-90.4%), respectively. Six patients experienced grade 3 or 4 treatment-related AEs, including moderate chronic graft-vs-host disease (n = 3), grade 3 or 4 acute graft-vs-host disease (n = 2), and grade 3 skin rash (n = 1). No treatment-related deaths occurred during the therapy of refractory CNSL., Conclusions: Sorafenib combined with conventional therapies is effective and safe for refractory CNSL., Lay Summary: Sorafenib combined with conventional therapies is effective and safe for refractory central nervous system leukemia., (© 2022 American Cancer Society.)

Published
2022
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6. Antitumour effect of odoroside A and its derivative on human leukaemia cells through the ROS/JNK pathway.

Author

Hu X, Chen T, Zhang S, Zhang Q, Li C, and Wang X

Subjects
Animals, Antineoplastic Agents, Phytogenic administration & dosage, Antineoplastic Agents, Phytogenic isolation & purification, Apoptosis drug effects, Autophagy drug effects, Cardenolides administration & dosage, Cardenolides isolation & purification, Cell Proliferation drug effects, Dose-Response Relationship, Drug, HL-60 Cells, Humans, K562 Cells, Leukemia pathology, MAP Kinase Signaling System drug effects, Male, Mice, Mice, Inbred BALB C, Mice, Nude, Nerium chemistry, Reactive Oxygen Species metabolism, Time Factors, Xenograft Model Antitumor Assays, Antineoplastic Agents, Phytogenic pharmacology, Cardenolides pharmacology, Leukemia drug therapy
Abstract

Oleandrigenin-3-O-β-D-diginoside (a derivative of odoroside A), isolated and purified by our group, has seldom been explored for its pharmacological activity. This study aimed at clarifying the mechanisms towards the leukaemia-suppressive role of odoroside A (compound #1) and its derivative, oleandrigenin-3-O-β-D-diginoside (compound #2) isolated from Nerium oleander. Viability and nuclear morphology change were assessed by CCK-8 assay and fluorescence microscope, respectively. Then, the cell apoptosis and autophagy induced by the compounds were detected by flow cytometry and Western blot. Xenograft model of nude mice was also applied to measure the leukaemia-suppressive effects of compound #2 in vivo. The result displayed that compound #1 and compound #2 inhibited the proliferation of HL60 and K562 cells and stronger effects were found in HL60 than K562 cells. Both of the compounds induced a dose-dependent apoptosis and autophagy in HL60 cells, where compound #2 was more potent than compound #1. Compound #2 also demonstrated a time-dependent apoptosis and autophagy in HL60 cells. Furthermore, ROS generation and JNK phosphorylation occurred in a dose-dependent manner in the cells treated with compound #2. Mitochondria also played critical role, proved by the decrease of Bcl-2, the release of cyto c to cytosol and the activation of caspase-3 and caspase-9. Moreover, the antitumour effects of compound #2 were validated in the nude mouse xenograft model in vivo. Odoroside A and its derivative inhibited the growth of leukaemia by inducing apoptosis and autophagy through the activation of ROS/JNK pathway. These results suggest that the compounds can serve as potential antitumour agents against leukaemia, especially acute myeloid leukaemia (AML)., (© 2021 Nordic Association for the Publication of BCPT (former Nordic Pharmacological Society). Published by John Wiley & Sons Ltd.)

Published
2022
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7. Melatonin: A promising agent targeting leukemia.

Author

Shafabakhsh R, Mirzaei H, and Asemi Z

Subjects
Angiogenesis Inhibitors pharmacology, Antineoplastic Agents pharmacology, Apoptosis, Cell Proliferation, DNA Damage, Gene Expression Regulation, Leukemic, Humans, Oxidation-Reduction, Oxygen metabolism, Antineoplastic Agents therapeutic use, Leukemia drug therapy, Melatonin therapeutic use
Abstract

Leukemia or cancer of blood is a well-known cancer, which affects a range of people from newborns to the very old. It is a public health problem throughout the world. By way of treatment, due to the lack of specific anticancer therapies, common treatments of leukemia lead to severe side effects. Nonspecific anticancer drugs result in inhibition of normal cell growth and thereby their necrosis. Moreover, drug resistance is an additional problem, which stands in the way of leukemia treatment. Thus, finding new treatments for leukemia is essential. Melatonin, as a natural product, has been shown to be effective in a wide variety of diseases such as coronary heart disease, schizophrenia, chronic pain, and Alzheimer's disease. In addition, melatonin levels have been observed to be altered in different cancers, such as breast cancer, colorectal cancer endometrial cancer, and hematopoetical cancers. Anticancer features of melatonin such as pro-oxidation, apoptosis induction, antiangiogenesis property and metastasis and invasion inhibition suggest that this natural compound can be used as a potential agent in novel therapeutic strategies for cancers. Also, it has been reported that melatonin has positive and protective effects on different physiological reactions and in normal bone marrow cells suggesting effectiveness in leukemia therapy. Thus, the aim of our paper was to depict and summarize the main molecular targets of melatonin on leukemia models., (© 2019 Wiley Periodicals, Inc.)

Published
2020
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8. The Bone Marrow Niche - The Tumor Microenvironment That Ensures Leukemia Progression.

Author

Cardoso BA

Subjects
Bone Marrow drug effects, Bone Marrow Cells drug effects, Bone Marrow Cells metabolism, Hematopoiesis drug effects, Humans, Leukemia drug therapy, Stem Cell Niche drug effects, Bone Marrow metabolism, Disease Progression, Leukemia pathology, Tumor Microenvironment drug effects
Abstract

The human body requires a constant delivery of fresh blood cells that are needed to maintain body homeostasis. Hematopoiesis is the process that drives the formation of new blood cells from a single stem cell. This is a complex, orchestrated and tightly regulated process that occurs within the bone marrow. When such process is faulty or deregulated, leukemia arises, develops and thrives by subverting normal hematopoiesis and availing the supplies of this rich milieu.In this book chapter we will describe and characterize the bone marrow microenvironment and its key importance for leukemia expansion. The several components of the bone marrow niche, their interaction with the leukemic cells and the cellular pathways activated within the malignant cells will be emphasized. Finally, novel therapeutic strategies to target this sibling interaction will also be discussed.

Published
2020
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12. PROteolysis‐Targeting Chimeras (PROTACs) in leukemia: overview and future perspectives.

Author

Vicente, André T. S. and Salvador, Jorge A. R.

Subjects
LEUKEMIA, DRUG discovery, STEM cell transplantation, HEMATOPOIETIC system, PROTEOLYSIS
Abstract

Leukemia is a heterogeneous group of life‐threatening malignant disorders of the hematopoietic system. Immunotherapy, radiotherapy, stem cell transplantation, targeted therapy, and chemotherapy are among the approved leukemia treatments. Unfortunately, therapeutic resistance, side effects, relapses, and long‐term sequelae occur in a significant proportion of patients and severely compromise the treatment efficacy. The development of novel approaches to improve outcomes is therefore an unmet need. Recently, novel leukemia drug discovery strategies, including targeted protein degradation, have shown potential to advance the field of personalized medicine for leukemia patients. Specifically, PROteolysis‐TArgeting Chimeras (PROTACs) are revolutionary compounds that allow the selective degradation of a protein by the ubiquitin–proteasome system. Developed against a wide range of cancer targets, they show promising potential in overcoming many of the drawbacks associated with conventional therapies. Following the exponential growth of antileukemic PROTACs, this article reviews PROTAC‐mediated degradation of leukemia‐associated targets. Chemical structures, in vitro and in vivo activities, pharmacokinetics, pharmacodynamics, and clinical trials of PROTACs are critically discussed. Furthermore, advantages, challenges, and future perspectives of PROTACs in leukemia are covered, in order to understand the potential that these novel compounds may have as future drugs for leukemia treatment. [ABSTRACT FROM AUTHOR]

Published
2024
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15. KMT2A is targeted by miR-361-3p and modulates leukemia cell's abilities to proliferate, migrate and invade.

Author

Xu, Dan, Jiang, Jinlong, He, Guangsheng, Zhou, Haixia, and Ji, Chengfu

Subjects
ACUTE myeloid leukemia, LEUKEMIA, ACUTE leukemia, CELL motility
Abstract

The lives and safety of humans are significantly threatened by acute myeloid leukemia (AML), which is proven to be the most prevalent acute leukemia. This work is therefore intended to investigate and analyze the expressions of miR-361-3p and Histone Lysine Methyltransferase 2A (KMT2A) in tissues and cell lines of AML and identify an advanced and novel target for the therapy of AML. The qRT-PCR and western blot assays were conducted to find expressions of miR-361-3p/KMT2A in AML PB and cell lines. After then, tests using CCK-8 and EdU were run to see how KMT2A affected the growth of AML cells. Transwell migration and invasion assay was conducted to evaluate KMT2A's contribution to the migration and invasion of AML cells. ENCORI and miRWalk predicted the association between KMT2A and miR-361-3p, and the dual-luciferase reporter experiment verified it. Furthermore, rescue studies were used to ascertain how KMT2A affected the miR-361-3p-regulated AML cells' abilities to proliferate, migrate, and invade. miR-361-3p was poorly expressed while KMT2A was abundantly expressed. Additionally, KMT2A downregulation prevented AML cells from proliferating. PCNA and Ki-67 protein levels fell when KMT2A was silent. Furthermore, AML cells' motility, invasion, and metastasis were inhibited by low KMT2A expression. KMT2A was also identified as a direct target of miR-361-3p and negatively correlated with miR-361-3p. Finally, the over-expression of KMT2A partially reversed the inhibitory effects of up-regulation of miR-361-3p. A potential therapeutic candidate target for the treatment of AML may be miR-361-3p/KMT2A. [ABSTRACT FROM AUTHOR]

Published
2023
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18. The relationship of p53, BCL-2, sphingosine and sphingosine-1-phosphate in leukemia patients.

Author

Hassan, Hala F., Faraj, Safaa A., Maleek, Muthana I., and AL-Badri, Zainulabdeen

Subjects
BONE marrow cancer, SPHINGOSINE-1-phosphate, LEUKEMIA, TUMOR suppressor proteins, HEMATOLOGIC malignancies
Abstract

Leukemia is a malignancy of the blood that occurs when a certain part of the life span of a blood cell, its division, or its precursor is improperly regulated. A large group of cells that develop from a single cell are formed once the cell begins to multiply uncontrollably. Cancers affecting the bone marrow, lymph nodes, and blood are referred to as "hematological malignancies. Chronic Myeloid Leukemia (CML), Chronic Lymphocytic Leukemia (CLL), Acute Myeloid Leukemia (AML), and Acute Lymphoblastic Leukemia (ALL), Chronic Lymphocytic Leukemia (CLL), and lymphoma are all included. Lymphoma and myeloma In this classification, targeting different signaling pathways is a potential newer treatment for leukemia. The main naturally occurring base found in sphingolipids is sphingosine (SPH). It is a key component of sphingolipids, a group of lipids found in cell membranes that also includes the significant phospholipid sphingomyelin. Sphingosine-1-Phosphate (S1P) is a signaling sphingolipids, also known as lysosphingolipid. Sphingosine-1-phosphate and sphingosine are highly expressed by leukemia cells. The tumor suppressor protein p53 is a protein that is made using the TP53 gene. This protein controls cell division by acting as a tumor suppressor, which means it prevents cells from proliferating and growing too quickly or in an uncontrolled manner. It has a positive interaction with the BCL2 protein, which controls whether a cell dies or survives by preventing an apoptotic kind of cell death. The BCL2 gene is located on chromosome 18, and numerous B-cell leukemias and lymphomas exhibit the transfer of the BCL-2 gene to another chromosome. The study was conducted on 80 individuals (40 participants and 40 controls). Result showed a highly significant difference at p=0.05 of values of SPH (7.6), p53 (16), and BCL-2 (6.4) in patients when compared with controls values (3.9, 1.4, and 2.4) respectively except value of S1P increased in patients but not significant. Therefore can concluded the SPH increased with leukemia and led to development of leukemia because it associated as signaling for cell proliferation and increasing p53and BCL-2. [ABSTRACT FROM AUTHOR]

Published
2023

19. Subclones with variants of uncertain clinical significance might contribute to ineffective hemopoiesis and leukemia predisposition.

Author

Giudice, Valentina, Serio, Bianca, Errichiello, Santa, Ferrara, Idalucia, Galdiero, Alessandra, Bertolini, Angela, Visconti, Roberta, De Novellis, Danilo, Guariglia, Roberto, Luponio, Serena, Morini, Denise, Corte, Anna Maria Della, Sessa, Anna Maria, Verdesca, Francesco, Langella, Maddalena, Izzo, Barbara, and Selleri, Carmine

Subjects
HEMATOPOIESIS, LEUKEMIA, ACUTE myeloid leukemia, HEMATOLOGIC malignancies, PROGNOSIS
Abstract

Background: Splicing modifications, genomic instability, and hypomethylation are central mechanisms promoting myelodysplasia and acute myeloid leukemia (AML). In this real-life retrospective study, to elucidate pathophysiology of clonal hemopoiesis in hematological malignancies, we investigated clinical significance of mutations in leukemia-related genes of known pathogenetic significance and of variants of uncertain clinical significance (VUS) in a cohort of patients with MDS and AML. Methods: A total of 59 consecutive subjects diagnosed with MDS, 48 with AML, and 17 with clonal cytopenia with unknown significance were screened for somatic mutations in AML-related genes by next-generation sequencing. Results: We showed that TET2, SETBP1, ASXL1, EZH2, RUNX1, SRSF2, DNMT3A, and IDH1/2 were commonly mutated. MDS patients also showed a high genetic complexity, especially for SETBP1. Moreover, the presence of SETBP1 wild-type or two or more simultaneous VUS variants identified a subgroup of AML and MDS patients with better outcome, while the presence of single SETBP1 VUS variant was related to a worse prognosis, regardless TET2 mutational status. Conclusions: In conclusions, we linked both pathogenic and VUS variants in AML-related genes to clonal hematopoiesis; therefore, we proposed to consider those variants as prognostic markers in leukemia and myelodysplasia. However, further studies in larger prospective cohorts are required to validate our results. [ABSTRACT FROM AUTHOR]

Published
2023
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20. 川楝子醇提物通过线粒体途径诱导白血病 CEM 细胞的凋亡.

Author

吴慧婷, 朱大诚, 徐笑明, and 常 娜

Subjects
POISONS, BCL-2 genes, BCL-2 proteins, CHINESE medicine, BAX protein, P53 antioncogene
Abstract

Copyright of Chinese Journal of Tissue Engineering Research / Zhongguo Zuzhi Gongcheng Yanjiu is the property of Chinese Journal of Tissue Engineering Research and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2023
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21. Therapeutic targeting of leukemia stem cells in acute myeloid leukemia.

Author

Barbosa, Karina and Deshpande, Aniruddha J.

Subjects
ACUTE myeloid leukemia, STEM cells, MYELOID cells, HEMATOPOIETIC stem cells, LEUKEMIA
Abstract

One of the distinguishing properties of hematopoietic stem cells is their ability to self-renew. Since self-renewal is important for the continuous replenishment of the hematopoietic stem cell pool, this property is often hijacked in blood cancers. Acute myeloid leukemia (AML) is believed to be arranged in a hierarchy, with self-renewing leukemia stem cells (LSCs) giving rise to the bulk tumor. Some of the earliest characterizations of LSCs were made in seminal studies that assessed the ability of prospectively isolated candidate AML stem cells to repopulate the entire heterogeneity of the tumor in mice. Further studies indicated that LSCs may be responsible for chemotherapy resistance and therefore act as a reservoir for secondary disease and leukemia relapse. In recent years, a number of studies have helped illuminate the complexity of clonality in bone marrow pathologies, including leukemias. Many features distinguishing LSCs from normal hematopoietic stem cells have been identified, and these studies have opened up diverse avenues for targeting LSCs, with an impact on the clinical management of AML patients. This review will discuss the role of self-renewal in AML and its implications, distinguishing characteristics between normal and leukemia stem cells, and opportunities for therapeutic targeting of AML LSCs. [ABSTRACT FROM AUTHOR]

Published
2023
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22. A novel organic arsenic derivative MZ2 remodels metabolism and triggers mtROS-mediated apoptosis in acute myeloid leukemia.

Author

Chen, Guopeng, She, Wenyan, Yu, Chaochao, Rouzi, Tuerxunayi, Li, Xinqi, Ma, Linlu, Zhang, Nan, Jiang, Hongqiang, Liu, Xiaoyan, Wu, Jinxian, Wang, Qian, Shen, Hui, and Zhou, Fuling

Subjects
ACUTE myeloid leukemia, MASS spectrometry, ARSENIC, PYRUVATE dehydrogenase kinase, ENERGY metabolism, METABOLISM, PRELEUKEMIA
Abstract

Purpose: Acute myeloid leukemia (AML) is one of the most common neoplasms in adults, and it is difficult to achieve satisfactory results with conventional drugs. Here, we synthesized a novel organic arsenic derivative MZ2 and evaluated its ability to remodel energy metabolism to achieve anti-leukemia. Methods: MZ2 was characterized by the average 1-min full mass spectra analysis. Biological methods such as Western blot, qPCR, flow cytometry and confocal microscopy were used to assess the mode and mechanism of MZ2-induced death. The in vivo efficacy of MZ2 was assessed by constructing a patient-derived xenograft (PDX) AML model. Results: Unlike the precursor organic arsenical Z2, MZ2 can effectively reduce the level of aerobic glycolysis. Our in-depth found that MZ2 inhibited the expression of PDK2 in a dose-dependent manner and did not affect the expression of LDHA, another key enzyme of the glycolytic pathway. MZ2 reconstituted energy metabolism to induce the generation of mitochondrial ROS (mtROS) and then triggerd intrinsic apoptosis pathway. We also assessed whether MZ2 generates autophagy and results showed that MZ2 can induce autophagy of AML cells, which may be associated with the precursor organic arsenic drug. In vivo, MZ2 effectively attenuated leukemia progression in mice, and immunohistochemical results suggested its PDK2 inhibitory effect. Conclusion: In summary, the novel organic arsine derivative MZ2 exhibited excellent anti-tumor effects in acute myeloid leukemia, which may provide a potential strategy for the treatment of acute myeloid leukemia. [ABSTRACT FROM AUTHOR]

Published
2023
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23. ART714 is a best-in-class antileukemic 2-carbon-linked dimeric artemisinin derivative.

Author

Kagan, Amanda B., Moses, Blake S., Lapidus, Rena, Mott, Bryan T., Rai, Ganesha, Anders, Nicole M., Hoag, Stephen W., Rudek, Michelle A., and Civin, Curt I.

Subjects
ARTEMISININ derivatives, ACUTE myeloid leukemia, PROTEIN-tyrosine kinase inhibitors, KINASE inhibitors, VENETOCLAX
Abstract

Purpose: It has become increasingly clear that new multiagent combination regimens are required to improve survival rates in acute myeloid leukemia (AML). We recently reported that ART631, a first-in-class 2-carbon-linked artemisinin-derived dimer (2C-ART), was not only efficacious as a component of a novel three-drug combination regimen to treat AML, but, like other synthetic artemisinin derivatives, demonstrated low clinical toxicity. However, we ultimately found ART631 to have suboptimal solubility and stability properties, thus limiting its potential for clinical development. Methods: We assessed 22 additional 2C-ARTs with documented in vivo antimalarial activity for antileukemic efficacy and physicochemical properties. Our strategy involved culling out 2C-ARTs inferior to ART631 with respect to potency, stability, and solubility in vitro, and then validating in vivo pharmacokinetics, pharmacodynamics, and efficacy of one 2C-ART lead compound. Results: Of the 22 2C-ARTs, ART714 was found to have the most optimal in vitro solubility, stability, and antileukemic efficacy, both alone and in combination with the BCL2 inhibitor venetoclax (VEN) and the kinase inhibitor sorafenib (SOR). ART714 was also highly effective in combination with VEN and the FMS-like tyrosine kinase 3 inhibitor gilteritinib (GILT) against MOLM14 AML xenografts. Conclusion: We identified ART714 as our best-in-class antileukemic 2C-ART, based on in vitro potency and pharmacologic properties. We established its in vivo pharmacokinetics and demonstrated its in vitro cooperativity with VEN and SOR and in vivo activities of combinations of ART714, VEN, and GILT. Additional research is indicated to define the optimal niche for the use of ART714 in treatment of AML. [ABSTRACT FROM AUTHOR]

Published
2023
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25. The prognostic and therapeutic potential of HO-1 in leukemia and MDS.

Author

Sadeghi, Mohammad, Fathi, Mehrdad, Gholizadeh Navashenaq, Jamshid, Mohammadi, Hamed, Yousefi, Mehdi, Hojjat-Farsangi, Mohammad, Namdar, Afshin, Movasaghpour Akbari, Ali Akbar, and Jadidi-Niaragh, Farhad

Subjects
LEUKEMIA, MYELODYSPLASTIC syndromes, ACUTE myeloid leukemia, LYMPHOBLASTIC leukemia, HEMATOLOGIC malignancies
Abstract

Background: Heme oxygenase-1 (HO-1), a heme-degrading enzyme, is proven to have anti-apoptotic effects in several malignancies. In addition, HO-1 is reported to cause chemoresistance and increase cell survival. Growing evidence indicates that HO-1 contributes to the course of hematological malignancies as well. Here, the expression pattern, prognostic value, and the effect of HO-1 targeting in HMs are discussed. Main body: According to the recent literature, it was discovered that HO-1 is overexpressed in myelodysplastic syndromes (MDS), chronic myeloid leukemia (CML), acute myeloblastic leukemia (AML), and acute lymphoblastic leukemia (ALL) cells and is associated with high-risk disease. Furthermore, in addition to HO-1 expression by leukemic and MDS cells, CML, AML, and ALL leukemic stem cells express this protein as well, making it a potential target for eliminating minimal residual disease (MRD). Moreover, it was concluded that HO-1 induces tumor progression and prevents apoptosis through various pathways. Conclusion: HO-1 has great potential in determining the prognosis of leukemia and MDS patients. HO-1 induces resistance to several chemotherapeutic agents as well as tyrosine kinase inhibitors and following its inhibition, chemo-sensitivity increases. Moreover, the exact role of HO-1 in Chronic Lymphocytic Leukemia (CLL) is yet unknown. While findings illustrate that MDS and other leukemic patients could benefit from HO-1 targeting. Future studies can help broaden our knowledge regarding the role of HO-1 in MDS and leukemia. C7s1tZ_Vi-gUBcV-QiSC3w Video abstract [ABSTRACT FROM AUTHOR]

Published
2023
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27. Bone marrow-targetable Green Tea Catechin-Based Micellar Nanocomplex for synergistic therapy of Acute myeloid leukemia.

Author

Bae, Ki Hyun, Lai, Fritz, Mong, Jamie, Niibori-Nambu, Akiko, Chan, Kiat Hwa, Her, Zhisheng, Osato, Motomi, Tan, Min-Han, Chen, Qingfeng, and Kurisawa, Motoichi

Subjects
ACUTE myeloid leukemia, BONE marrow, BONE marrow diseases, GREEN tea
Abstract

Background: Currently available anti-leukemia drugs have shown limited success in the treatment of acute myeloid leukemia (AML) due to their poor access to bone marrow niche supporting leukemic cell proliferation. Results: Herein, we report a bone marrow-targetable green tea catechin-based micellar nanocomplex for synergistic AML therapy. The nanocomplex was found to synergistically amplify the anti-leukemic potency of sorafenib via selective disruption of pro-survival mTOR signaling. In vivo biodistribution study demonstrated about 11-fold greater bone marrow accumulation of the nanocomplex compared to free sorafenib. In AML patient-derived xenograft (AML-PDX) mouse model, administration of the nanocomplex effectively eradicated bone marrow-residing leukemic blasts and improved survival rates without noticeable off-target toxicity. Conclusion: This study may provide insights into the rational design of nanomedicine platforms enabling bone marrow-targeted delivery of therapeutic agents for the treatment of AML and other bone marrow diseases. [ABSTRACT FROM AUTHOR]

Published
2022
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28. 川楝子醇提物通过线粒体途径诱导白血病CEM细胞的凋亡 .

Author

吴慧婷, 朱大诚, 徐笑明, and 常娜

Subjects
BCL-2 genes, BCL-2 proteins, BAX protein, CHINESE medicine, APOPTOTIC bodies
Abstract

Copyright of Chinese Journal of Tissue Engineering Research / Zhongguo Zuzhi Gongcheng Yanjiu is the property of Chinese Journal of Tissue Engineering Research and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2022
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30. Advances and Future Goals in Acute Myeloid Leukaemia Therapy.

Author

Bittar, Gianfranco, De Oliveira-Gomes, Diana, and Rivero, Gustavo

Subjects
ACUTE myeloid leukemia, LEUKEMIA, EPIGENETICS, THERAPEUTICS, IMMUNOLOGY
Abstract

The treatment of acute myeloid leukaemia (AML) remains challenging, given the disease's heterogeneous genomics, epigenetics and immunology. Although novel drugs are rapidly being developed, the outcomes of patients with AML remain suboptimal, especially among individuals older than 75 years and those with primary relapsed/refractory disease. While molecular characterization can inform the use of targeted therapies, several limitations, including low response rates and short durations of remission when targeted agents are used as monotherapies, restrict the efficacy of this strategy. It is likely that combining targeted agents with either chemotherapy or hypomethylating agents will help to advance the field. Here, we review current cytogenetic and genomic European LeukemiaNet risk-stratification models for AML. We present the cases of three patients with AML that illustrate the therapeutic recommendations for patients in specific genomic subgroups, emphasizing recent results with a hypomethylating agent plus B-cell lymphoma 2 inhibitor therapy in elderly patients. Finally, we summarize data from clinical trials that promise to improve AML therapy. [ABSTRACT FROM AUTHOR]

Published
2022
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31. Curcumin activates NLRC4, AIM2, and IFI16 inflammasomes and induces pyroptosis by up-regulated ISG3 transcript factor in acute myeloid leukemia cell lines.

Author

Zhou, Yuru, Kong, Yunyuan, Jiang, Mei, Kuang, Linju, Wan, Jinhua, Liu, Shuyuan, Zhang, Qian, Yu, Kuai, Li, Na, Le, Aiping, and Zhang, Zhanglin

Subjects
ACUTE myeloid leukemia, MYELOID cells, CURCUMIN, PYROPTOSIS, INFLAMMASOMES
Abstract

Curcumin, the primary bioactive component isolated from turmeric, has been found to possess a variety of biological functions, including anti-leukemia activity. However, the effect of curcumin in different leukemia cells vary. In this study, we demonstrated that curcumin induced the expression of AIM2, IFI16, and NLRC4 inflammasomes in leukemia cells U937 by increasing the expression levels of ISG3 transcription factor complex, which activated caspase 1, promoted cleavage of GSDMD, and induced pyroptosis. We also found that pyroptosis executor GSDMD was not expressed in two curcumin-insensitive cells HL60 and K562 cells. In addition, exogenous overexpression of GSDMD by lentiviral transduction in K562 cells increased the anti-cancer activity of curcumin, and inhibiting the expression of GSDMD by shRNA enhanced U937 cells to resist curcumin. The results showed that inducing pyroptosis is a novel mechanism underlying the anti-leukemia effects of curcumin. [ABSTRACT FROM AUTHOR]

Published
2022
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32. Post‐transplant maintenance therapy in patients with FLT3‐mutated acute myeloid leukemia: Real‐world treatment patterns and outcomes.

Author

Griffin, James D., Song, Yan, Yang, Hongbo, Freimark, Jonathan, and Shah, Manasee V.

Subjects
ACUTE myeloid leukemia, HEMATOPOIETIC stem cell transplantation, TREATMENT effectiveness, OVERALL survival, DIAGNOSIS
Abstract

Objectives: Maintenance therapy is one strategy to prolong survival in patients with acute myeloid leukemia (AML) following hematopoietic stem cell transplantation (HSCT). We evaluated real‐world treatment patterns and outcomes in patients with newly diagnosed FLT3‐mutated AML receiving HSCT after complete remission with first‐line chemotherapy. Methods: A global, retrospective chart review to evaluate maintenance therapy and outcomes in patients with FLT3‐mutated AML after HSCT. Results: Data from 1208 charts from eight countries showed that most patients (n = 765 [63.3%]) received no maintenance therapy after HSCT, 219 (18.1%) received FLT3 inhibitor maintenance therapy, and 224 (18.5%) received other types of maintenance therapy. No systematic differences were observed in healthcare resource utilization across the three groups. Clinical benefit was observed with FLT3 inhibitor maintenance over no maintenance therapy with relapse‐free survival (adjusted hazard ratio [HR] 0.57 [95% CI 0.34‐0.94], P <.05). FLT3 inhibitor and other maintenance also demonstrated overall survival benefit over no maintenance (adjusted HR 0.50 [95% CI 0.28‐0.89] and 0.46 [95% CI 0.23‐0.91], respectively; both P <.05). Conclusions: Real‐world maintenance therapies after HSCT in patients with FLT3‐mutated AML were heterogeneous. While overall use of healthcare resources was not significantly increased in patients receiving maintenance therapy versus those who did not, clinical outcomes were improved. [ABSTRACT FROM AUTHOR]

Published
2021
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40. Towards a Better Understanding of Cohesin Mutations in AML.

Author

Cuartero, Sergi, Innes, Andrew J., and Merkenschlager, Matthias

Subjects
HEMATOPOIETIC stem cells, ACUTE myeloid leukemia, CELL proliferation
Abstract

Classical driver mutations in acute myeloid leukemia (AML) typically affect regulators of cell proliferation, differentiation, and survival. The selective advantage of increased proliferation, improved survival, and reduced differentiation on leukemia progression is immediately obvious. Recent large-scale sequencing efforts have uncovered numerous novel AML-associated mutations. Interestingly, a substantial fraction of the most frequently mutated genes encode general regulators of transcription and chromatin state. Understanding the selective advantage conferred by these mutations remains a major challenge. A striking example are mutations in genes of the cohesin complex, a major regulator of three-dimensional genome organization. Several landmark studies have shown that cohesin mutations perturb the balance between self-renewal and differentiation of hematopoietic stem and progenitor cells (HSPC). Emerging data now begin to uncover the molecular mechanisms that underpin this phenotype. Among these mechanisms is a role for cohesin in the control of inflammatory responses in HSPCs and myeloid cells. Inflammatory signals limit HSPC self-renewal and drive HSPC differentiation. Consistent with this, cohesin mutations promote resistance to inflammatory signals, and may provide a selective advantage for AML progression. In this review, we discuss recent progress in understanding cohesin mutations in AML, and speculate whether vulnerabilities associated with these mutations could be exploited therapeutically. [ABSTRACT FROM AUTHOR]

Published
2019
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41. Targeting Pim kinases in hematological cancers: molecular and clinical review.

Author

Bellon, Marcia and Nicot, Christophe

Subjects
KINASES, HEMATOLOGIC malignancies, TRAFFIC signs & signals, LYMPHOPROLIFERATIVE disorders, PROTEIN-tyrosine kinases, CELL communication
Abstract

Decades of research has recognized a solid role for Pim kinases in lymphoproliferative disorders. Often up-regulated following JAK/STAT and tyrosine kinase receptor signaling, Pim kinases regulate cell proliferation, survival, metabolism, cellular trafficking and signaling. Targeting Pim kinases represents an interesting approach since knock-down of Pim kinases leads to non-fatal phenotypes in vivo suggesting clinical inhibition of Pim may have less side effects. In addition, the ATP binding site offers unique characteristics that can be used for the development of small inhibitors targeting one or all Pim isoforms. This review takes a closer look at Pim kinase expression and involvement in hematopoietic cancers. Current and past clinical trials and in vitro characterization of Pim kinase inhibitors are examined and future directions are discussed. Current studies suggest that Pim kinase inhibition may be most valuable when accompanied by multi-drug targeting therapy. [ABSTRACT FROM AUTHOR]

Published
2023
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42. Arsenic trioxide and all-trans-retinoic acid selectively exert synergistic cytotoxicity against FLT3-ITD AML cells via co-inhibition of FLT3 signaling pathways.

Author

Wang, Li-Na, Tang, Yan-Lai, Zhang, Yin-Chuan, Zhang, Zu-Han, Liu, Xiao-Jian, Ke, Zhi-Yong, Li, Yu, Tan, Hui-Zhen, Huang, Li-Bin, and Luo, Xue-Qun

Subjects
ARSENIC trioxide, ACUTE myeloid leukemia treatment, RETINOIC acid receptors, LEUKEMIA, CELL lines, PROGNOSIS
Abstract

FLT3-ITD mutations occur in approximately 30% of acute myeloid leukemia (AML) and are associated with a poor outcome. Currently available FLT3 inhibitors havein vitrobut limited clinical activity in FLT3-ITD AML. Reports have shown that an arsenic trioxide (ATO)/all-trans-retinoic acid (ATRA) combination improves prognosis in acute promyelocytic leukemia, especially with FLT3-ITD, and ATO or ATRA alone enhances apoptosis in FLT3-ITD AML cells treated with FLT3 inhibitors, providing a rationale to investigate the role of ATO/ATRA in FLT3-ITD AML. Here, we demonstrate that an ATO/ATRA combination selectively exerts synergistic cytotoxicity against FLT3-ITD AML cell lines (MV4;11/MOLM-13). The signaling pathways affected by ATO/ATRA include FLT3/STAT5/MYC, FLT3/STAT5/E2F1, FLT3/ERK/ATF5 and FLT3/AKT/ATF5.ATF5 may function as an oncogene in FLT3-ITD AML. Our findings provide experimental evidence that supports further exploration of ATO/ATRA in FLT3-ITD AMLin vivoand warrants a clinical evaluation of regimens comprising an ATO/ATRA combination. [ABSTRACT FROM PUBLISHER]

Published
2017
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43. Molecular targeting in acute myeloid leukemia.

Author

Lim, Seah H., Dubielecka, Patrycja M., Raghunathanon, Vikram M., and Raghunathan, Vikram M

Subjects
MYELOID leukemia, BONE marrow diseases, GENETIC disorders, LEUKEMIA, HEMATOLOGIC malignancies, CELLULAR signal transduction, DRUG therapy, CLINICAL trials, GENES, ACUTE myeloid leukemia
Abstract

Acute myeloid leukemia (AML) is a heterogenous disease associated with distinct genetic and molecular abnormalities. Somatic mutations result in dysregulation of intracellular signaling pathways, epigenetics, and apoptosis of the leukemia cells. Understanding the basis for the dysregulated processes provides the platform for the design of novel targeted therapy for AML patients. The effort to devise new targeted therapy has been helped by recent advances in methods for high-throughput genomic screening and the availability of computer-assisted techniques for the design of novel agents that are predicted to specifically inhibit the mutant molecules involved in these intracellular events. In this review, we will provide the scientific basis for targeting the dysregulated molecular mechanisms and discuss the agents currently being investigated, alone or in combination with chemotherapy, for treating patients with AML. Successes in molecular targeting will ultimately change the treatment paradigm for the disease. [ABSTRACT FROM AUTHOR]

Published
2017
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44. Inhibition of LIN28B impairs leukemia cell growth and metabolism in acute myeloid leukemia.

Author

Jianbiao Zhou, Chonglei Bi, Ying Qing Ching, Jing-Yuan Chooi, Xiao Lu, Jessie Yiying Quah, Hui-Min Toh, Sabrina, Zit-Liang Chan, Tuan Zea Tan, Chong, Phyllis SY, and Wee-Joo Chng

Subjects
LIN28B gene, LEUKEMIA, ACUTE myeloid leukemia, METABOLISM, STEM cells, GENE expression
Abstract

Background: Current conventional chemotherapy for acute myeloid leukemia (AML) can achieve remission in over 70% of patients, but a majority of them will relapse within 5 years despite continued treatment. The relapse is postulated to be due to leukemia stem cells (LSCs), which are different from normal hematopoietic stem cells (HSCs). LIN28B is microRNA regulator and stem cell reprogramming factor. Overexpression of LIN28B has been associated with advance human malignancies and cancer stem cells (CSCs), including AML. However, the molecular mechanism by which LIN28B contributes to the development of AML remains largely elusive. Methods: We modulated LIN28B expression in AML and non-leukemic cells and investigated functional consequences in cell proliferation, cell cycle, and colony-forming assays. We performed a microarray-based analysis for LIN28B-silencing cells and interrogated gene expression data with different bioinformatic tools. AML mouse xenograft model was used to examine the in vivo function of LIN28B. Results: We demonstrated that targeting LIN28B in AML cells resulted in cell cycle arrest, inhibition of cell proliferation and colony formation, which was induced by de-repression of let-7a miRNA. On the other hand, overexpression of LIN28B promoted cell proliferation. Data point to a mechanism where that inhibition of LIN28B induces metabolic changes in AML cells. IGF2BP1 was confirmed to be a novel downstream target of LIN28B via let-7 miRNA in AML. Notably, ectopic expression of LIN28B increased tumorigenicity, while silencing LIN28B led to slow tumor growth in vivo. Conclusions: In sum, these results uncover a novel mechanism of an important regulatory signaling, LIN28B/let-7/IGF2BP1, in leukemogenesis and provide a rationale to target this pathway as effective therapeutic strategy. [ABSTRACT FROM AUTHOR]

Published
2017
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45. Tumour‑derived exosomes and their emerging roles in leukaemia (Review).

Author

Chen, Lei, Xie, Ting, Wei, Bing, and Di, Da-Lin

Subjects
EXOSOMES, LEUKEMIA, CYTOSKELETAL proteins, DRUG carriers, BONE marrow
Abstract

Exosomes are small vesicles with a diameter of ~40-100 nm that are secreted by the majority of endogenous cells under normal and pathological conditions. They contain abundant proteins, lipids, microRNAs, and biomolecules such as signal transduction molecules, adhesion factors and cytoskeletal proteins, and play an important role in exchanging materials and transmitting information between cells. Recent studies have shown that exosomes are involved in the pathophysiology of leukaemia by affecting the bone marrow microenvironment, apoptosis, tumour angiogenesis, immune escape and chemotherapy resistance. Furthermore, exosomes are potential biomarkers and drug carriers for leukaemia, impacting the diagnosis and treatment of leukaemia. The present study describes the biogenesis and general characteristics of exosomes, and then highlight the emerging roles of exosomes in different types of leukaemia. Finally, the value of clinical application of exosomes as biomarkers and drug carriers is discussed with the aim to provide novel strategies for the treatment of leukaemia. [ABSTRACT FROM AUTHOR]

Published
2023
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46. ACUTE LEUKEMIAS XVI.

Subjects
ACUTE myeloid leukemia, MOLECULAR diagnosis, LEUKEMIA, LEUKEMIA treatment, ACUTE diseases
Abstract

The article presents abstracts on topics related to hematology including molecular diagnostic characterization of acute myeloid leukemia, early developmental genes in acute myeloid leukemia and acute leukemia syndromes.

Published
2017
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47. Leukemogenic potency of the novel FLT3-N676K mutant.

Author

Huang, Kezhi, Yang, Min, Pan, Zengkai, Heidel, Florian, Scherr, Michaela, Eder, Matthias, Fischer, Thomas, Büsche, Guntram, Welte, Karl, Neuhoff, Nils, Ganser, Arnold, Li, Zhixiong, Heidel, Florian H, and von Neuhoff, Nils

Subjects
PROTEIN-tyrosine kinases, GENETIC mutation, MYELOID leukemia, CANCER cells, LEUKEMIA etiology, PHYSIOLOGY, GENETICS, ANTINEOPLASTIC agents, CANCER chemotherapy, HETEROCYCLIC compounds, STEM cell transplantation, THIAZOLES, PIPERIDINE, UREA, PROTEIN kinase inhibitors, AMINO acids, ANIMAL experimentation, BONE marrow transplantation, COMPARATIVE studies, DISEASE susceptibility, GENES, GENOMES, LEUKEMIA, RESEARCH methodology, MEDICAL cooperation, MICE, PROTEINS, RESEARCH, RETROVIRUSES, TRANSFERASES, EVALUATION research, IMMUNOCOMPROMISED patients, NEOPLASTIC cell transformation, COLONY-forming units assay, THERAPEUTICS
Abstract

The novel FMS-like tyrosine kinase 3 (FLT3)-N676K point mutation within the FLT3 kinase domain-1 was recently identified in 6 % of de novo acute myeloid leukemia (AML) patients with inv(16). Because FLT3-N676K was encountered almost exclusively in inv(16) AML, we investigated the transforming potential of FLT3-N676K, the cooperation between FLT3-N676K and core binding factor ß-smooth muscle myosin heavy chain (CBFß-SMMHC) (encoded by the inv(16) chimeric gene CBFB-MYH11) in inducing acute leukemia, and tested the sensitivity of FLT3-N676K-positive leukemic cells to FLT3 inhibitors. Retroviral expression of FLT3-N676K in myeloid 32D cells induced AML in syngeneic C3H/HeJ mice (n = 11/13, median latency 58 days), with a transforming activity similar to FLT3-internal tandem duplication (ITD) (n = 8/8), FLT3-TKD D835Y (n = 8/9), and FLT3-ITD-N676K (n = 9/9) mutations. Three out of 14 (21.4 %) C57BL/6J mice transplanted with FLT3-N676K-transduced primary hematopoietic progenitor cells developed acute leukemia (latency of 68, 77, and 273 days), while no hematological malignancy was observed in the control groups including FLT3-ITD. Moreover, co-expression of FLT3-N676K/CBFß-SMMHC did not promote acute leukemia in three independent experiments (n = 16). In comparison with FLT3-ITD, FLT3-N676K induced much higher activation of FLT3 and tended to trigger stronger phosphorylation of MAPK and AKT. Importantly, leukemic cells carrying the FLT3-N676K mutant in the absence of an ITD mutation were highly sensitive to FLT3 inhibitors AC220 and crenolanib, and crenolanib even retained activity against the AC220-resistant FLT3-ITD-N676K mutant. Taken together, the FLT3-N676K mutant is potent to transform murine hematopoietic stem/progenitor cells in vivo. This is the first report of acute leukemia induced by an activating FLT3 mutation in C57BL/6J mice. Moreover, further experiments investigating molecular mechanisms for leukemogenesis induced by FLT3-N676K mutation and clinical evaluation of FLT3 inhibitors in FLT3-N676K-positive AML seem warranted. [ABSTRACT FROM AUTHOR]

Published
2016
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48. Downregulated Poly-C binding protein-1 is a novel predictor associated with poor prognosis in Acute Myeloid Leukemia.

Author

Meifeng Zhou and Xiuzhen Tong

Subjects
ACUTE myeloid leukemia, RNA-protein interactions, KAPLAN-Meier estimator, ACUTE leukemia, LEUKEMIA, PATIENTS, PROGNOSIS
Abstract

Background: Depletion of Poly-C binding protein-1(PCBP1) is implicated in various human malignancies. However, the underlying biological effect of PCBP1 in cancers, including acute myeloid leukemia (AML), still remains elusive. The purpose of this study was to examine the expression and clinical outcome of PCBP1in acute myeloid leukemia. Methods: Bone marrow fluids of 88 newly diagnosed AML patients were sampled, and the PCBP1 mRNA expression level was evaluated using quantitative RT-PCR. The association between PCBP1 expression and clinicopathological features or the survival status of the patients was assessed by Chi-square test and Kaplan-Meier method. Results: Comparing newly diagnosed AML patients to normal healthy donors, PCBP1 expression was significantly decreased in AML patients (P < 0.001). Conversely, PCBP1 expression had accordingly recovered back to normal in patients with complete remission (P < 0.001). Clinical feature analyses showed that PCBP1 expression was negatively correlated with white blood cell count (P = 0.024). In addition, patients with low PCBP1 expression had poor disease-free survival (11.8 % vs. 45.3 %; P = 0.01) and overall survival (18.2 % vs. 42.4 %; P = 0.032), respectively. [ABSTRACT FROM AUTHOR]

Published
2015
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49. Versatility of stem and progenitor cells and the instructive actions of cytokines on hematopoiesis.

Author

Brown, Geoffrey, Mooney, Ciaran James, Alberti-Servera, Llucia, Muenchow, Lilly von, Toellner, Kai-Michael, Ceredig, Rhodri, and Rolink, Antonius

Subjects
ANTIGENS, BLOOD cells, CELL differentiation, CYTOKINES, HEMATOPOIESIS, INTERLEUKINS, LEUKEMIA, LIGANDS (Biochemistry), STEM cells
Abstract

For many years, developing hematopoietic cells have been strictly compartmentalized into a rare population of multi-potent self-renewing hematopoietic stem cells (HSC), multi-potent hematopoietic progenitor cells (MPP) that are undergoing commitment to particular lineage fates, and recognizable precursor cells that mature towards functional blood and immune cells. A single route to each end-cell type is prescribed in the “classical” model for the architecture of hematopoiesis. Recent findings have led to the viewpoint that HSCs and MPPs are more versatile than previously thought. Underlying this are multiple routes to a particular fate and cells having clandestine fate options even when they have progressed some way along a pathway. The primary role of cytokines during hematopoiesis has long been seen to be regulation of the survival and proliferation of developing hematopoietic cells. Some cytokines now clearly have instructive actions on cell-fate decisions. All this leads to a new way of viewing hematopoiesis whereby versatile HSC and MPP are directed towards lineage outcomes via cytokine regulated cell-fate decisions. This means greater flexibility to the shaping of hematopoiesis. [ABSTRACT FROM PUBLISHER]

Published
2015
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50. Cluster of differentiation 96 as a leukemia stem cell-specific marker and a factor for prognosis evaluation in leukemia.

Author

WEN DU, YANJIE HU, CONG LU, JUAN LI, WEI LIU, YANLI HE, PING WANG, CHEN CHENG, YU HU, SHIANG HUANG, JUNXIA YAO, and JIN'E ZHENG

Subjects
ACUTE myeloid leukemia, LEUKEMIA, FLOW cytometry, ACUTE leukemia, STEM cell research, PROGNOSIS
Abstract

Resistance to chemotherapy is a major challenge for leukemia treatment. It has been suggested that leukemia stem cells (LSCs), a small pool of self-renewing leukemic cells, play important roles in development of chemotherapy resistance. The expression of cluster of differentiation 96 (CD96), a potential marker for LSCs, was investigated in CD34+CD38- cells of 105 acute leukemia (AL) patients by flow cytometry. The data showed that all the CD34+, CD34+CD38- and CD34+CD38-CD96+ proportions were much higher in AL compared to the normal control (P<0.01), while a clear difference was identified in the CD34+CD38- and CD34+CD38-CD96+ proportions between acute lymphoid leukemia and acute myeloid leukemia (AML). However, all the AML patients with >15% CD34+CD38- cells achieved complete remission (CR), suggesting that as an LSC-rich population, the amount of CD34+CD38- cells may not be positively associated with the proportion of refractory LSCs. The mean percentage of the co-presence of CD96 expression itself was similar in AML patients with CR and non-CR (P>0.05). However, the CR rate was significantly higher in the AML population with <10% CD96 expressed, which indicated that a distinct sub-group of CD34+CD38-CD96+ cells may still contribute to the drug resistance or poor prognosis. [ABSTRACT FROM AUTHOR]

Published
2015
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