Your search keyword '"Leukemias"' showing total 2,019 results

1. Structural and functional analyses of a germline KRAS T50I mutation provide insights into Raf activation.

Author

Harris, Max, Boone, Christopher, Wang, Weijie, Carias, Heidi, Mesiona, Brian, Mavrici, Daniela, Kohler, Amanda, Bollag, Gideon, Zhang, Chao, Zhang, Ying, Shannon, Kevin, Chen, Pan-Yu, and Huang, Benjamin

Subjects

Leukemias, Oncogenes, Oncology, Animals, Mice, Disease Models, Animal, Germ Cells, Germ-Line Mutation, Leukemia, Mutation, Proto-Oncogene Proteins p21(ras), ras Proteins

Abstract

A T50I substitution in the K-Ras interswitch domain causes Noonan syndrome and emerged as a third-site mutation that restored the in vivo transforming activity and constitutive MAPK pathway activation by an attenuated KrasG12D,E37G oncogene in a mouse leukemia model. Biochemical and crystallographic data suggested that K-RasT50I increases MAPK signal output through a non-GTPase mechanism, potentially by promoting asymmetric Ras:Ras interactions between T50 and E162. We generated a switchable system in which K-Ras mutant proteins expressed at physiologic levels supplant the fms like tyrosine kinase 3 (FLT3) dependency of MOLM-13 leukemia cells lacking endogenous KRAS and used this system to interrogate single or compound G12D, T50I, D154Q, and E162L mutations. These studies support a key role for the asymmetric lateral assembly of K-Ras in a plasma membrane-distal orientation that promotes the formation of active Ras:Raf complexes in a membrane-proximal conformation. Disease-causing mutations such as T50I are a valuable starting point for illuminating normal Ras function, elucidating mechanisms of disease, and identifying potential therapeutic opportunities for Rasopathy disorders and cancer.

Published

2023

2. Multi-omics of Bohring-Opitz syndrome truncating ASXL1 mutations identify canonical and non-canonical Wnt signaling dysregulation

Author

Lin, Isabella, Wei, Angela, Awamleh, Zain, Singh, Meghna, Ning, Aileen, Herrera, Analeyla, Biobank and Registry, REACH, Russell, Bianca E, Weksberg, Rosanna, and Arboleda, Valerie A

Subjects

Biomedical and Clinical Sciences, Human Genome, Intellectual and Developmental Disabilities (IDD), Genetics, Rare Diseases, Clinical Research, Pediatric Research Initiative, Pediatric, Brain Disorders, 2.1 Biological and endogenous factors, Aetiology, Humans, Intellectual Disability, Mutation, Epigenesis, Genetic, Multiomics, Wnt Signaling Pathway, Repressor Proteins, Transcription Factors, Kidney Neoplasms, REACH Biobank and Registry, Development, Epigenetics, Genetic diseases, Leukemias, Biomedical and clinical sciences, Health sciences

Abstract

ASXL1 (additional sex combs-like 1) plays key roles in epigenetic regulation of early developmental gene expression. De novo protein-truncating mutations in ASXL1 cause Bohring-Opitz syndrome (BOS; OMIM #605039), a rare neurodevelopmental condition characterized by severe intellectual disabilities, distinctive facial features, hypertrichosis, increased risk of Wilms tumor, and variable congenital anomalies, including heart defects and severe skeletal defects giving rise to a typical BOS posture. These BOS-causing ASXL1 variants are also high-prevalence somatic driver mutations in acute myeloid leukemia. We used primary cells from individuals with BOS (n = 18) and controls (n = 49) to dissect gene regulatory changes caused by ASXL1 mutations using comprehensive multiomics assays for chromatin accessibility (ATAC-seq), DNA methylation, histone methylation binding, and transcriptome in peripheral blood and skin fibroblasts. Our data show that regardless of cell type, ASXL1 mutations drive strong cross-tissue effects that disrupt multiple layers of the epigenome. The data showed a broad activation of canonical Wnt signaling at the transcriptional and protein levels and upregulation of VANGL2, which encodes a planar cell polarity pathway protein that acts through noncanonical Wnt signaling to direct tissue patterning and cell migration. This multiomics approach identifies the core impact of ASXL1 mutations and therapeutic targets for BOS and myeloid leukemias.

Published

2023

3. Biallelic TET2 mutation sensitizes to 5’-azacitidine in acute myeloid leukemia

Author

Stölzel, Friedrich, Fordham, Sarah E, Nandana, Devi, Lin, Wei-Yu, Blair, Helen J, Elstob, Claire J, Bell, Hayden L, Mohr, Brigitte, Ruhnke, Leo, Kunadt, Desiree, Dill, Claudia, Allsop, Daniel A, Piddock, Rachel E, Soura, Emmanouela-Niki, Park, Catherine Vida, Fadly, Mohd, Rahman, Thahira, Alharbi, Abrar A, Wobus, Manja, Altmann, Heidi, Röllig, Christoph, Wagenführ, Lisa, Jones, Gail L, Menne, Tobias, Jackson, Graham H, Marr, Helen J, Fitzgibbon, Jude, Onel, Kenan, Meggendorfer, Manja, Robinson, Amber, Bziuk, Zuzanna, Bowes, Emily, Heidenreich, Olaf, Haferlach, Torsten, Villar, Sara, Ariceta, Beñat, Diaz, Rosa Ayala, Altschuler, Steven J, Wu, Lani, Prosper, Felipe, Montesinos, Pau, Martinez-Lopez, Joaquin, Bornhäuser, Martin, and Allan, James M

Subjects

Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Cancer, Hematology, Genetics, Pediatric, Pediatric Cancer, Rare Diseases, Human Genome, 2.1 Biological and endogenous factors, Aetiology, Good Health and Well Being, Humans, Mice, Animals, Azacitidine, Leukemia, Myeloid, Acute, Kaplan-Meier Estimate, Mutation, DNA-Binding Proteins, Dioxygenases, Leukemias, Molecular genetics, Biomedical and clinical sciences, Health sciences

Abstract

Precision medicine can significantly improve outcomes for patients with cancer, but implementation requires comprehensive characterization of tumor cells to identify therapeutically exploitable vulnerabilities. Here, we describe somatic biallelic TET2 mutations in an elderly patient with acute myeloid leukemia (AML) that was chemoresistant to anthracycline and cytarabine but acutely sensitive to 5'-azacitidine (5'-Aza) hypomethylating monotherapy, resulting in long-term morphological remission. Given the role of TET2 as a regulator of genomic methylation, we hypothesized that mutant TET2 allele dosage affects response to 5'-Aza. Using an isogenic cell model system and an orthotopic mouse xenograft, we demonstrate that biallelic TET2 mutations confer sensitivity to 5'-Aza compared with cells with monoallelic mutations. Our data argue in favor of using hypomethylating agents for chemoresistant disease or as first-line therapy in patients with biallelic TET2-mutated AML and demonstrate the importance of considering mutant allele dosage in the implementation of precision medicine for patients with cancer.

Published

2023

4. CBFA2T3-GLIS2 model of pediatric acute megakaryoblastic leukemia identifies FOLR1 as a CAR T cell target

Author

Le, Quy, Hadland, Brandon, Smith, Jenny L, Leonti, Amanda, Huang, Benjamin J, Ries, Rhonda, Hylkema, Tiffany A, Castro, Sommer, Tang, Thao T, McKay, Cyd N, Perkins, LaKeisha, Pardo, Laura, Sarthy, Jay, Beckman, Amy K, Williams, Robin, Idemmili, Rhonda, Furlan, Scott, Ishida, Takashi, Call, Lindsey, Srivastava, Shivani, Loeb, Anisha M, Milano, Filippo, Imren, Suzan, Morris, Shelli M, Pakiam, Fiona, Olson, James M, Loken, Michael R, Brodersen, Lisa Eidenschink, Riddell, Stanley R, Tarlock, Katherine, Bernstein, Irwin D, Loeb, Keith R, and Meshinchi, Soheil

Subjects

Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Immunology, Pediatric Research Initiative, Pediatric, Cancer, Genetics, Pediatric Cancer, Stem Cell Research, Stem Cell Research - Nonembryonic - Human, Stem Cell Research - Nonembryonic - Non-Human, Biotechnology, Hematology, Rare Diseases, Childhood Leukemia, Orphan Drug, 2.1 Biological and endogenous factors, Aetiology, Animals, Child, Child, Preschool, Humans, Infant, Disease Models, Animal, Folate Receptor 1, Immunotherapy, Adoptive, Leukemia, Megakaryoblastic, Acute, Oncogene Proteins, Fusion, T-Lymphocytes, Transcriptome, Xenograft Model Antitumor Assays, Cancer immunotherapy, Leukemias, Oncogenes, Oncology, Therapeutics, Medical and Health Sciences, Biological sciences, Biomedical and clinical sciences, Health sciences

Abstract

The CBFA2T3-GLIS2 (C/G) fusion is a product of a cryptic translocation primarily seen in infants and early childhood and is associated with dismal outcome. Here, we demonstrate that the expression of the C/G oncogenic fusion protein promotes the transformation of human cord blood hematopoietic stem and progenitor cells (CB HSPCs) in an endothelial cell coculture system that recapitulates the transcriptome, morphology, and immunophenotype of C/G acute myeloid leukemia (AML) and induces highly aggressive leukemia in xenograft models. Interrogating the transcriptome of C/G-CB cells and primary C/G AML identified a library of C/G-fusion-specific genes that are potential targets for therapy. We developed chimeric antigen receptor (CAR) T cells directed against one of the targets, folate receptor α (FOLR1), and demonstrated their preclinical efficacy against C/G AML using in vitro and xenograft models. FOLR1 is also expressed in renal and pulmonary epithelium, raising concerns for toxicity that must be addressed for the clinical application of this therapy. Our findings underscore the role of the endothelial niche in promoting leukemic transformation of C/G-transduced CB HSPCs. Furthermore, this work has broad implications for studies of leukemogenesis applicable to a variety of oncogenic fusion-driven pediatric leukemias, providing a robust and tractable model system to characterize the molecular mechanisms of leukemogenesis and identify biomarkers for disease diagnosis and targets for therapy.

Published

2022

5. Clonal hematopoiesis in sickle cell disease.

Author

Liggett, L, Cato, Liam, Weinstock, Joshua, Zhang, Yingze, Nouraie, S, Gladwin, Mark, Garrett, Melanie, Ashley-Koch, Allison, Telen, Marilyn, Custer, Brian, Kelly, Shannon, Dinardo, Carla, Sabino, Ester, Loureiro, Paula, Carneiro-Proietti, Anna, Maximo, Cláudia, Reiner, Alexander, Abecasis, Gonçalo, Williams, David, Natarajan, Pradeep, Bick, Alexander, and Sankaran, Vijay

Subjects

Hematology, Leukemias, Anemia, Sickle Cell, Clonal Hematopoiesis, Female, Humans, Male, Whole Genome Sequencing

Abstract

BACKGROUNDCurative gene therapies for sickle cell disease (SCD) are currently undergoing clinical evaluation. The occurrence of myeloid malignancies in these trials has prompted safety concerns. Individuals with SCD are predisposed to myeloid malignancies, but the underlying causes remain undefined. Clonal hematopoiesis (CH) is a premalignant condition that also confers significant predisposition to myeloid cancers. While it has been speculated that CH may play a role in SCD-associated cancer predisposition, limited data addressing this issue have been reported.METHODSHere, we leveraged 74,190 whole-genome sequences to robustly study CH in SCD. Somatic mutation calling methods were used to assess CH in all samples and comparisons between individuals with and without SCD were performed.RESULTSWhile we had sufficient power to detect a greater than 2-fold increased rate of CH, we found no detectable variation in rate or clone properties between individuals affected by SCD and controls. The rate of CH in individuals with SCD was unaltered by hydroxyurea use.CONCLUSIONSWe did not observe an increased risk for acquiring detectable CH in SCD, at least as measured by whole-genome sequencing. These results should help guide ongoing efforts and further studies that seek to better define the risk factors underlying myeloid malignancy predisposition in SCD and help ensure that curative therapies can be more safely applied.FUNDINGNew York Stem Cell Foundation and the NIH.

Published

2022

6. Verification of prognostic expression biomarkers is improved by examining enriched leukemic blasts rather than mononuclear cells from acute myeloid leukemia patients

Author

Era L. Pogosova-Agadjanyan, Xing Hua, Megan Othus, Frederick R. Appelbaum, Thomas R. Chauncey, Harry P. Erba, Matthew P. Fitzgibbon, Isaac C. Jenkins, Min Fang, Stanley C. Lee, Anna Moseley, Jasmine Naru, Jerald P. Radich, Jenny L. Smith, Brooke E. Willborg, Cheryl L. Willman, Feinan Wu, Soheil Meshinchi, and Derek L. Stirewalt

Subjects

Biomarkers, Prognostic biomarkers, Genetic biomarkers, Hematological cancers, Leukemias, Acute myeloid leukemia, Therapeutics. Pharmacology, RM1-950

Abstract

Abstract Background Studies have not systematically compared the ability to verify performance of prognostic transcripts in paired bulk mononuclear cells versus viable CD34-expressing leukemic blasts from patients with acute myeloid leukemia. We hypothesized that examining the homogenous leukemic blasts will yield different biological information and may improve prognostic performance of expression biomarkers. Methods To assess the impact of cellular heterogeneity on expression biomarkers in acute myeloid leukemia, we systematically examined paired mononuclear cells and viable CD34-expressing leukemic blasts from SWOG diagnostic specimens. After enrichment, patients were assigned into discovery and validation cohorts based on availability of extracted RNA. Analyses of RNA sequencing data examined how enrichment impacted differentially expressed genes associated with pre-analytic variables, patient characteristics, and clinical outcomes. Results Blast enrichment yielded significantly different expression profiles and biological pathways associated with clinical characteristics (e.g., cytogenetics). Although numerous differentially expressed genes were associated with clinical outcomes, most lost their prognostic significance in the mononuclear cells and blasts after adjusting for age and ELN risk, with only 11 genes remaining significant for overall survival in both cell populations (CEP70, COMMD7, DNMT3B, ECE1, LNX2, NEGR1, PIK3C2B, SEMA4D, SMAD2, TAF8, ZNF444). To examine the impact of enrichment on biomarker verification, these 11 candidate biomarkers were examined by quantitative RT/PCR in the validation cohort. After adjusting for ELN risk and age, expression of 4 genes (CEP70, DNMT3B, ECE1, and PIK3CB) remained significantly associated with overall survival in the blasts, while none met statistical significance in mononuclear cells. Conclusions This study provides insights into biological information gained/lost by examining viable CD34-expressing leukemic blasts versus mononuclear cells from the same patient and shows an improved verification rate for expression biomarkers in blasts.

Published

2023

7. The Relationship Between GLIM Criteria and Recovery Times in the Leukemia Treatment Process.

Author

YILMAZ, Fatma, ARAS, Merih Reis, AFACAN OZTURK, Hacer Berna, MALKAN, Umit Yavuz, KAPUCI, Ayse Arslan, GUNES, Ahmet Kursad, and ALBAYRAK, Murat

Subjects

*HEMATOLOGIC malignancies, *LEUKEMIA, *NUTRITIONAL status, *CANCER diagnosis, *ANTIFUNGAL agents, *CANDIDEMIA

Abstract

Malnutrition is an important point in patients with hematological malignancies, especially in patients with leukemia who have the potential to enter into prolonged neutropenia. There is no generally accepted approach algorithm with a common consensus in determining the risk of malnutrition. The GLIM criteria, developed by a common consensus of major global nutrition societies (Global Leadership Initiative on Malnutrition), are one of the most frequently used approaches recently. Method A total of 50 patients with a diagnosis of leukemia (AML, ALL) were included in the study. NRS-2002 and then GLIM criteria were used to determine the nutritional status of the patients. The study parameters were evaluated by dividing the patients into two groups as malnourished and non-malnourished. Comparing the malnourished group to the non-malnourished group; while platelet, albumin, and prealbumin values and anthropometric measurements were found to be statistically significantly low, infection incidence rate, fever duration and rate, the need for multiple and longer courses of antibiotics and antifungal usage rate were found to be statistically significantly high (p< 0.005). Adequate nutritional level of the patient does not affect the neutrophil and platelet recovery time, but infection incidence rate and rate of fever within the same period of neutropenia statistically significantly reduces the need for antibiotics and antifungals. In patients with a diagnosis of leukemia who have long hospital stays, it is important to ensure adequate calorie intake with regular dietitian follow-up, to obtain a balanced calorie intake from macronutrients, and to add micronutrient support. [ABSTRACT FROM AUTHOR]

Published

2023

8. UM ESTUDO DA PREVALÊNCIA E DA CARACTERIZAÇÃO DA MORTALIDADE EM CRIANÇAS E ADOLESCENTES POR LEUCEMIA NO NORDESTE DO BRASIL.

Author

Antão de Alencar Carvalho, Perla Maria, Albuquerque Frota, Mirna, Araújo Maranhão, Thatiana, Medeiros da Costa Daniele, Thiago, and Vieira Pinto, Nilson

Abstract

Copyright of Arquivos de Ciências da Saúde da UNIPAR is the property of Associacao Paranaense de Ensino e Cultura 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

9. Glucocorticoids paradoxically facilitate steroid resistance in T-cell acute lymphoblastic leukemias and thymocytes

Author

Meyer, Lauren K, Huang, Benjamin J, Delgado-Martin, Cristina, Roy, Ritu P, Hechmer, Aaron, Wandler, Anica M, Vincent, Tiffaney L, Fortina, Paolo, Olshen, Adam B, Wood, Brent L, Horton, Terzah M, Shannon, Kevin M, Teachey, David T, and Hermiston, Michelle L

Subjects

Childhood Leukemia, Pediatric, Hematology, Rare Diseases, Cancer, Pediatric Cancer, Aetiology, 2.1 Biological and endogenous factors, Animals, Drug Resistance, Neoplasm, Glucocorticoids, Humans, Interleukin-7, Interleukin-7 Receptor alpha Subunit, Male, Mice, Mice, Inbred NOD, Mice, SCID, Precursor T-Cell Lymphoblastic Leukemia-Lymphoma, Proto-Oncogene Proteins c-bcl-2, STAT5 Transcription Factor, Signal Transduction, Thymocytes, Xenograft Model Antitumor Assays, Leukemias, Oncology, Signal transduction, T cells, Medical and Health Sciences, Immunology

Abstract

Glucocorticoids (GCs) are a central component of therapy for patients with T cell acute lymphoblastic leukemia (T-ALL), and although resistance to GCs is a strong negative prognostic indicator in T-ALL, the mechanisms of GC resistance remain poorly understood. Using diagnostic samples from patients enrolled in the frontline Children's Oncology Group (COG) T-ALL clinical trial AALL1231, we demonstrated that one-third of primary T-ALLs were resistant to GCs when cells were cultured in the presence of IL-7, a cytokine that is critical for normal T cell function and that plays a well-established role in leukemogenesis. We demonstrated that in these T-ALLs and in distinct populations of normal developing thymocytes, GCs paradoxically induced their own resistance by promoting upregulation of IL-7 receptor (IL-7R) expression. In the presence of IL-7, this augmented downstream signal transduction, resulting in increased STAT5 transcriptional output and upregulation of the prosurvival protein BCL-2. Taken together, we showed that IL-7 mediates an intrinsic and physiologic mechanism of GC resistance in normal thymocyte development that is retained during leukemogenesis in a subset of T-ALLs and is reversible with targeted inhibition of the IL-7R/JAK/STAT5/BCL-2 axis.

Published

2020

10. Chronic myelogenous leukemia stem cells require cell-autonomous pleiotrophin signaling

Author

Himburg, Heather A, Roos, Martina, Fang, Tiancheng, Zhang, Yurun, Termini, Christina M, Schlussel, Lauren, Kim, Mindy, Pang, Amara, Kan, Jenny, Zhao, Liman, Suh, Hyung, Sasine, Joshua P, Sapparapu, Gopal, Bowers, Peter M, Schiller, Gary, and Chute, John P

Subjects

Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Cancer, Stem Cell Research - Nonembryonic - Human, Hematology, Stem Cell Research, Rare Diseases, Stem Cell Research - Nonembryonic - Non-Human, Animals, Carrier Proteins, Cell Survival, Cytokines, Fusion Proteins, bcr-abl, Humans, Leukemia, Myelogenous, Chronic, BCR-ABL Positive, Mice, Mice, Transgenic, Neoplastic Stem Cells, Signal Transduction, Bone marrow, Leukemias, Stem cells, Medical and Health Sciences, Immunology, Biological sciences, Biomedical and clinical sciences, Health sciences

Abstract

Tyrosine kinase inhibitors (TKIs) induce molecular remission in the majority of patients with chronic myelogenous leukemia (CML), but the persistence of CML stem cells hinders cure and necessitates indefinite TKI therapy. We report that CML stem cells upregulate the expression of pleiotrophin (PTN) and require cell-autonomous PTN signaling for CML pathogenesis in BCR/ABL+ mice. Constitutive PTN deletion substantially reduced the numbers of CML stem cells capable of initiating CML in vivo. Hematopoietic cell-specific deletion of PTN suppressed CML development in BCR/ABL+ mice, suggesting that cell-autonomous PTN signaling was necessary for CML disease evolution. Mechanistically, PTN promoted CML stem cell survival and TKI resistance via induction of Jun and the unfolded protein response. Human CML cells were also dependent on cell-autonomous PTN signaling, and anti-PTN antibody suppressed human CML colony formation and CML repopulation in vivo. Our results suggest that targeted inhibition of PTN has therapeutic potential to eradicate CML stem cells.

Published

2020

11. Overall results and prospects of the cancer risk assessment in the Urals population affected by chronic low dose-rate exposure

Author

Alexander Vasilyevich Akleyev, Marina Olegovna Degteva, and Ludmila Yurievna Krestinina

Subjects

Radio-epidemiological studies, Techa river, East Urals radioactive trace, Malignant tumors, Leukemias, Dose-rate factor, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

The paper presents the key milestones and outcomes of 65-year studies of the carcinogenic consequences of accidental radiation exposure of the population of the Ural region. The radioactive contamination of the Techa River and the 1957 accident at the Mayak Production Association were the reasons of the long-term population exposure at a wide dose-range. The most important tasks of the study were the reconstruction of individual doses, follow-up of the solid cancer and leukemia incidence and mortality among cohort members. The research results have shown that chronic human exposure, in comparison to acute exposure, does not reduce the risk of developing malignant tumors and leukemias. The value of the dose-rate factor does not exceed ''one''.Thus, according to our data, the Publication 103 of the International Commission on Radiological Protection seemed to underestimate the radiation risk of malignant tumors and leukemias in case of low dose-rate exposure of the population by a factor of two. Prospects for further radio-epidemiological studies in the Urals are associated with the analysis of the cohort of Southern Urals Populations Exposed to Radiation, which includes about 63 thousand exposed people and makes it possible to assess the radiation risk of solid cancers of certain localizations, certain types of leukemia, and non-cancer effects.

Published

2022

12. Leukemias

Author

Binkley, Elaine M., Schachat, Andrew P., O’Brien, Joan Marie, Section editor, Gragoudas, Evangelos S., Section editor, Gombos, Dan S., Section editor, Aronow, Mary E., Section editor, Albert, Daniel M., editor, Miller, Joan W., editor, Azar, Dimitri T., editor, and Young, Lucy H., editor

Published

2022

13. Hematologic Malignancies, Classification, and Update on Modern Interventions

Author

Lekkala, Manidhar Reddy, Liesveld, Jane, and Nair, Raj, editor

Published

2022

14. Verification of prognostic expression biomarkers is improved by examining enriched leukemic blasts rather than mononuclear cells from acute myeloid leukemia patients.

Author

Pogosova-Agadjanyan, Era L., Hua, Xing, Othus, Megan, Appelbaum, Frederick R., Chauncey, Thomas R., Erba, Harry P., Fitzgibbon, Matthew P., Jenkins, Isaac C., Fang, Min, Lee, Stanley C., Moseley, Anna, Naru, Jasmine, Radich, Jerald P., Smith, Jenny L., Willborg, Brooke E., Willman, Cheryl L., Wu, Feinan, Meshinchi, Soheil, and Stirewalt, Derek L.

Subjects

ACUTE myeloid leukemia, PROGNOSIS, GENE expression, DIAGNOSTIC specimens

Abstract

Background: Studies have not systematically compared the ability to verify performance of prognostic transcripts in paired bulk mononuclear cells versus viable CD34-expressing leukemic blasts from patients with acute myeloid leukemia. We hypothesized that examining the homogenous leukemic blasts will yield different biological information and may improve prognostic performance of expression biomarkers. Methods: To assess the impact of cellular heterogeneity on expression biomarkers in acute myeloid leukemia, we systematically examined paired mononuclear cells and viable CD34-expressing leukemic blasts from SWOG diagnostic specimens. After enrichment, patients were assigned into discovery and validation cohorts based on availability of extracted RNA. Analyses of RNA sequencing data examined how enrichment impacted differentially expressed genes associated with pre-analytic variables, patient characteristics, and clinical outcomes. Results: Blast enrichment yielded significantly different expression profiles and biological pathways associated with clinical characteristics (e.g., cytogenetics). Although numerous differentially expressed genes were associated with clinical outcomes, most lost their prognostic significance in the mononuclear cells and blasts after adjusting for age and ELN risk, with only 11 genes remaining significant for overall survival in both cell populations (CEP70, COMMD7, DNMT3B, ECE1, LNX2, NEGR1, PIK3C2B, SEMA4D, SMAD2, TAF8, ZNF444). To examine the impact of enrichment on biomarker verification, these 11 candidate biomarkers were examined by quantitative RT/PCR in the validation cohort. After adjusting for ELN risk and age, expression of 4 genes (CEP70, DNMT3B, ECE1, and PIK3CB) remained significantly associated with overall survival in the blasts, while none met statistical significance in mononuclear cells. Conclusions: This study provides insights into biological information gained/lost by examining viable CD34-expressing leukemic blasts versus mononuclear cells from the same patient and shows an improved verification rate for expression biomarkers in blasts. [ABSTRACT FROM AUTHOR]

Published

2023

15. Rôle des rétroéléments dans l'hématopoïèse lors du vieillissement des cellules souches hématopoïétiques et dans les leucémies : ami ou ennemi ?

Author

Hidaoui, Donia and Porteu, Françoise

Subjects

*GENE regulatory networks, *NON-coding DNA, *TYPE I interferons, *CELL physiology, *ENDOGENOUS retroviruses, *PRELEUKEMIA, *DYSAUTONOMIA

Abstract

Retrotransposable elements (REs), comprising endogenous retroviruses (ERV), and long or short interspersed elements (LINE-1; SINE), account for nearly half of human genomes. REs are regulated by heterochromatin, a condensed state of DNA characterized by DNA methylation and repressive histone marks such as H3K9me2, H3K9me3 and H3K27me3. Described for a long-time as junk DNA, they are gaining more and more interest, especially in aging and cancer where the chromatin is disorganized. REs can spread in the genome through a copy/paste mechanism, constituting a great source of genomic instability. They are also major contributors of gene regulatory networks, providing alternative promoters, splicing or polyadenylation signals, and also by serving as cis-regulatory elements in a cell- and tissue-specific manner. It is related to the progressive loss of heterochromatin. Defects in RE repression are also observed in cancer. Cancer cells become dependent on REs because of their ability to induce genomic instability and deregulate the transcriptome. Epigenetic reactivation of cryptic regulatory sequences within existing REs leads to widespread expression of oncogenes. However, REs are double-edged swords for cancer. Indeed, through their ability to mimic a viral state, leading to type I interferon (IFN-I) activation, REs can trigger apoptotic and antiproliferative signaling. Cancer therapies such as chemotherapy, radiation therapy, immunotherapy and DNA hypomethylating agents (HMAs) use this vulnerability to kill cancer cells. Because RE expression can be their Achilles heel, tumor cells develop mechanisms to prevent RE release from epigenetic repression. AML leukemic stem cells have low RE expression and inactivate immune pathways, which may be involved in their immune evasion. Epigenetic players such as MPP8 and SETDB1 have been identified as playing a major role in RE repression and their dysfunction is associated with leukemogenesis. The failure of HMA treatments to eliminate mutated clones observed in myelodysplastic syndromes could be due to the lack of RE induction. Here we discuss the different mechanisms that could prevent RE expression in leukemic stem cells, the importance of these elements in cell function, oncogenesis and immunity, highlighting the influence of epigenetic mechanisms in the regulation of ER expression and how they can be exploited in a therapeutic context. [ABSTRACT FROM AUTHOR]

Published

2023

16. Targeting Features of Curaxin CBL0137 on Hematological Malignancies In Vitro and In Vivo.

Author

Fetisov, Timur I., Borunova, Anna A., Antipova, Alina S., Antoshina, Elena E., Trukhanova, Lubov S., Gorkova, Tatyana G., Zuevskaya, Svetlana N., Maslov, Alexei, Gurova, Katerina, Gudkov, Andrei, Lesovaya, Ekaterina A., Belitsky, Gennady A., Yakubovskaya, Marianna G., and Kirsanov, Kirill I.

Subjects

HEMATOLOGIC malignancies, CHRONIC myeloid leukemia, ACUTE myeloid leukemia, MULTIPLE myeloma, LYMPHOBLASTIC leukemia

Abstract

The anticancer activity of Curaxin CBL0137, a DNA-binding small molecule with chromatin remodulating effect, has been demonstrated in different cancers. Herein, a comparative evaluation of CBL0137 activity was performed in respect to acute myeloid leukemia (AML), acute lymphoblastic leukemia (ALL), chronic myeloid leukemia and multiple myeloma (MM) cultured in vitro. MTT assay showed AML and MM higher sensitivity to CBL0137's cytostatic effect comparatively to other hematological malignancy cells. Flow cytometry cell cycle analysis revealed an increase in subG1 and G2/M populations after CBL0137 cell treatment, but the prevalent type of arrest varied. Apoptosis activation by CBL0137 measured by Annexin-V/PI dual staining was more active in AML and MM cells. RT2 PCR array showed that changes caused by CBL0137 in signaling pathways involved in cancer pathogenesis were more intensive in AML and MM cells. On the murine model of AML WEHI-3, CBL0137 showed significant anticancer effects in vivo, which were evaluated by corresponding changes in spleen and liver. Thus, more pronounced anticancer effects of CBL0137 in vitro were observed in respect to AML and MM. Experiments in vivo also indicated the perspective of CBL0137 use for AML treatment. This in accordance with the frontline treatment approach in AML using epigenetic drugs. [ABSTRACT FROM AUTHOR]

Published

2023

17. Germline SAMD9 and SAMD9L mutations are associated with extensive genetic evolution and diverse hematologic outcomes

Author

Wong, Jasmine C, Bryant, Victoria, Lamprecht, Tamara, Ma, Jing, Walsh, Michael, Schwartz, Jason, del pilar Alzamora, Maria, Mullighan, Charles G, Loh, Mignon L, Ribeiro, Raul, Downing, James R, Carroll, William L, Davis, Jeffrey, Gold, Stuart, Rogers, Paul C, Israels, Sara, Yanofsky, Rochelle, Shannon, Kevin, and Klco, Jeffery M

Subjects

Pediatric Cancer, Hematology, Genetics, Cancer, Childhood Leukemia, Rare Diseases, Clinical Research, Pediatric, 2.1 Biological and endogenous factors, Aetiology, Cell Cycle, Chromosome Deletion, Chromosome Disorders, Chromosomes, Human, Pair 7, Disease Progression, Evolution, Molecular, Female, Gene Expression Regulation, Neoplastic, Genetic Predisposition to Disease, Germ-Line Mutation, Hematologic Neoplasms, Humans, Intracellular Signaling Peptides and Proteins, Leukemia, Myeloid, Acute, Male, Myelodysplastic Syndromes, Neoplasms, Pedigree, Proteins, Tumor Suppressor Proteins, Leukemias

Abstract

Germline SAMD9 and SAMD9L mutations cause a spectrum of multisystem disorders that carry a markedly increased risk of developing myeloid malignancies with somatic monosomy 7. Here, we describe 16 siblings, the majority of which were phenotypically normal, from 5 families diagnosed with myelodysplasia and leukemia syndrome with monosomy 7 (MLSM7; OMIM 252270) who primarily had onset of hematologic abnormalities during the first decade of life. Molecular analyses uncovered germline SAMD9L (n = 4) or SAMD9 (n = 1) mutations in these families. Affected individuals had a highly variable clinical course that ranged from mild and transient dyspoietic changes in the bone marrow to a rapid progression of myelodysplastic syndrome (MDS) or acute myeloid leukemia (AML) with monosomy 7. Expression of these gain-of-function SAMD9 and SAMD9L mutations reduces cell cycle progression, and deep sequencing demonstrated selective pressure favoring the outgrowth of clones that have either lost the mutant allele or acquired revertant mutations. The myeloid malignancies of affected siblings acquired cooperating mutations in genes that are also altered in sporadic cases of AML characterized by monosomy 7. These data have implications for understanding how SAMD9 and SAMD9L mutations contribute to myeloid transformation and for recognizing, counseling, and treating affected families.

Published

2018

18. CBFA2T3-GLIS2 model of pediatric acute megakaryoblastic leukemia identifies FOLR1 as a CAR T cell target.

Author

QuyLe, Hadland, Brandon, Smith, Jenny L., Leonti, Amanda, Huang, Benjamin J., Ries, Rhonda, Hylkema, Tiffany A., Castro, Sommer, Tang, Thao T., McKay, Cyd N., Perkins, LaKeisha, Pardo, Laura, Sarthy, Jay, Beckman, Amy K., Williams, Robin, Idemmili, Rhonda, Furlan, Scott, Takashi Ishida, Call, Lindsey, and Srivastava, Shivani

Abstract

The CBFA2T3-GLIS2 (C/G) fusion is a product of a cryptic translocation primarily seen in infants and early childhood and is associated with dismal outcome. Here, we demonstrate that the expression of the C/G oncogenic fusion protein promotes the transformation of human cord blood hematopoietic stem and progenitor cells (CB HSPCs) in an endothelial cell coculture system that recapitulates the transcriptome, morphology, and immunophenotype of C/G acute myeloid leukemia (AML) and induces highly aggressive leukemia in xenograft models. Interrogating the transcriptome of C/G-CB cells and primary C/G AML identified a library of C/G-fusion-specific genes that are potential targets for therapy. We developed chimeric antigen receptor (CAR) T cells directed against one of the targets, folate receptor α (FOLR1), and demonstrated their preclinical efficacy against C/G AML using in vitro and xenograft models. FOLR1 is also expressed in renal and pulmonary epithelium, raising concerns for toxicity that must be addressed for the clinical application of this therapy. Our findings underscore the role of the endothelial niche in promoting leukemic transformation of C/G-transduced CB HSPCs. Furthermore, this work has broad implications for studies of leukemogenesis applicable to a variety of oncogenic fusion-driven pediatric leukemias, providing a robust and tractable model system to characterize the molecular mechanisms of leukemogenesis and identify biomarkers for disease diagnosis and targets for therapy. [ABSTRACT FROM AUTHOR]

Published

2022

19. Immune dysfunction signatures predict outcomes and define checkpoint blockade-unresponsive microenvironments in acute myeloid leukemia.

Author

Rutella, Sergio, Vadakekolathu, Jayakumar, Mazziotta, Francesco, Reeder, Stephen, Tung-On Yau, Mukhopadhyay, Rupkatha, Dickins, Benjamin, Altmann, Heidi, Kramer, Michael, Knaus, Hanna A., Blazar, Bruce R., Radojcic, Vedran, Zeidner, Joshua F., Arruda, Andrea, Bofei Wang, Abbas, Hussein A., Minden, Mark D., Tasian, Sarah K., Bornhäuser, Martin, and Gojo, Ivana

Subjects

*PROGNOSIS, *CELL physiology, *IMMUNOLOGIC diseases, *T cells, *IMMUNOTHERAPY

Abstract

BackgroundImmune exhaustion and senescence are dominant dysfunctional states of effector T cells and major hurdles for the success of cancer immunotherapy. In the current study, we characterized how acute myeloid leukemia (AML) promotes the generation of senescent-like CD8+ T cells and whether they have prognostic relevance.METHODSWe analyzed NanoString, bulk RNA-Seq and single-cell RNA-Seq data from independent clinical cohorts comprising 1,896 patients treated with chemotherapy and/or immune checkpoint blockade (ICB).ResultsWe show that senescent-like bone marrow CD8+ T cells were impaired in killing autologous AML blasts and that their proportion negatively correlated with overall survival (OS). We defined what we believe to be new immune effector dysfunction (IED) signatures using 2 gene expression profiling platforms and reported that IED scores correlated with adverse-risk molecular lesions, stemness, and poor outcomes; these scores were a more powerful predictor of OS than 2017-ELN risk or leukemia stem cell (LSC17) scores. IED expression signatures also identified an ICB-unresponsive tumor microenvironment and predicted significantly shorter OS.ConclusionThe IED scores provided improved AML-risk stratification and could facilitate the delivery of personalized immunotherapies to patients who are most likely to benefit.TRIAL REGISTRATIONClinicalTrials.gov; NCT02845297.FUNDINGJohn and Lucille van Geest Foundation, Nottingham Trent University's Health & Wellbeing Strategic Research Theme, NIH/NCI P01CA225618, Genentech-imCORE ML40354, Qatar National Research Fund (NPRP8-2297-3-494). [ABSTRACT FROM AUTHOR]

Published

2022

20. Herpes simplex virus lymphadenitis is associated with tumor reduction in a patient with chronic lymphocytic leukemia.

Author

Chang, Andres, Sholukh, Anton M., Wieland, Andreas, Jaye, David L., Carrington, Mary, Meei-Li Huang, Hong Xie, Jerome, Keith R., Roychoudhury, Pavitra, Greninger, Alexander L., Koff, Jean L., Cohen, Jonathon B., Koelle, David M., Corey, Lawrence, Flowers, Christopher R., Ahmed, Rafi, Huang, Meei-Li, and Xie, Hong

Subjects

*CHRONIC lymphocytic leukemia, *HERPES simplex, *LYMPHADENITIS, *RESEARCH funding, *HERPESVIRUSES, *T cells

Abstract

BackgroundHerpes simplex virus lymphadenitis (HSVL) is an unusual presentation of HSV reactivation in patients with chronic lymphocytic leukemia (CLL) and is characterized by systemic symptoms and no herpetic lesions. The immune responses during HSVL have not, to our knowledge, been studied.MethodsPeripheral blood and lymph node (LN) samples were obtained from a patient with HSVL. HSV-2 viral load, antibody levels, B and T cell responses, cytokine levels, and tumor burden were measured.ResultsThe patient showed HSV-2 viremia for at least 6 weeks. During this period, she had a robust HSV-specific antibody response with neutralizing and antibody-dependent cellular phagocytotic activity. Activated (HLA-DR+, CD38+) CD4+ and CD8+ T cells increased 18-fold, and HSV-specific CD8+ T cells in the blood were detected at higher numbers. HSV-specific B and T cell responses were also detected in the LN. Markedly elevated levels of proinflammatory cytokines in the blood were also observed. Surprisingly, a sustained decrease in CLL tumor burden without CLL-directed therapy was observed with this and also a prior episode of HSVL.ConclusionHSVL should be considered part of the differential diagnosis in patients with CLL who present with signs and symptoms of aggressive lymphoma transformation. An interesting finding was the sustained tumor control after 2 episodes of HSVL in this patient. A possible explanation for the reduction in tumor burden may be that the HSV-specific response served as an adjuvant for the activation of tumor-specific or bystander T cells. Studies in additional patients with CLL are needed to confirm and extend these findings.FundingNIH grants 4T32CA160040, UL1TR002378, and 5U19AI057266 and NIH contracts 75N93019C00063 and HHSN261200800001E. Neil W. and William S. Elkin Fellowship (Winship Cancer Institute). [ABSTRACT FROM AUTHOR]

Published

2022

21. IFN-α with dasatinib broadens the immune repertoire in patients with chronic-phase chronic myeloid leukemia.

Author

Huuhtanen, Jani, Ilander, Mette, Yadav, Bhagwan, Dufva, Olli M. J., Lähteenmäki, Hanna, Kasanen, Tiina, Klievink, Jay, Olsson-Strömberg, Ulla, Stentoft, Jesper, Richter, Johan, Koskenvesa, Perttu, Höglund, Martin, Söderlund, Stina, Dreimane, Arta, Porkka, Kimmo, Gedde-Dahl, Tobias, Gjertsen, Björn T., Stenke, Leif, Myhr-Eriksson, Kristina, and Markevärn, Berit

Subjects

*CYTOKINES, *PROTEINS, *RESEARCH, *CHRONIC myeloid leukemia, *PROTEIN kinase inhibitors, *RESEARCH methodology, *EVALUATION research, *COMPARATIVE studies, *T cells, *PHARMACODYNAMICS

Abstract

In chronic myeloid leukemia (CML), combination therapies with tyrosine kinase inhibitors (TKIs) aim to improve the achievement of deep molecular remission that would allow therapy discontinuation. IFN-α is one promising candidate, as it has long-lasting effects on both malignant and immune cells. In connection with a multicenter clinical trial combining dasatinib with IFN-α in 40 patients with chronic-phase CML (NordCML007, NCT01725204), we performed immune monitoring with single-cell RNA and T cell receptor (TCR) sequencing (n = 4, 12 samples), bulk TCRβ sequencing (n = 13, 26 samples), flow cytometry (n = 40, 106 samples), cytokine analyses (n = 17, 80 samples), and ex vivo functional studies (n = 39, 80 samples). Dasatinib drove the immune repertoire toward terminally differentiated NK and CD8+ T cells with dampened functional capabilities. Patients with dasatinib-associated pleural effusions had increased numbers of CD8+ recently activated effector memory T (Temra) cells. In vitro, dasatinib prevented CD3-induced cell death by blocking TCR signaling. The addition of IFN-α reversed the terminally differentiated phenotypes and increased the number of costimulatory intercellular interactions and the number of unique putative epitope-specific TCR clusters. In vitro IFN-α had costimulatory effects on TCR signaling. Our work supports the combination of IFN-α with TKI therapy, as IFN-α broadens the immune repertoire and restores immunological function. [ABSTRACT FROM AUTHOR]

Published

2022

22. FoxO1/Rictor axis induces a non-genetic adaptation to Ibrutinib via Akt activation in chronic lymphocytic leukemia.

Author

Ondrisova L, Seda V, Hlavac K, Pavelkova P, Hoferkova E, Chiodin G, Kostalova L, Mladonicka Pavlasova G, Filip D, Vecera J, Zeni PF, Oppelt J, Kahounova Z, Vichova R, Soucek K, Panovska A, Plevova K, Pospisilova S, Simkovic M, Vrbacky F, Lysak D, Fernandes SM, Davids MS, Maiques-Diaz A, Charalampopoulou S, Martin-Subero JI, Brown JR, Doubek M, Forconi F, Mayer J, and Mraz M

Abstract

BTK inhibitor therapy induces peripheral blood lymphocytosis in chronic lymphocytic leukemia (CLL) lasting for several months. It remains unclear whether non-genetic adaptation mechanisms exist, allowing CLL cells' survival during BTK inhibitor-induced lymphocytosis and/or playing a role in therapy resistance. We show that in approximately 70 % of CLL cases, ibrutinib treatment in vivo increases Akt activity above pre-therapy levels within several weeks, leading to compensatory CLL cell survival and a more prominent lymphocytosis on therapy. Ibrutinib-induced Akt phosphorylation (pAktS473) is caused by the upregulation of FoxO1 transcription factor, which induces expression of Rictor, an assembly protein for mTORC2 protein complex that directly phosphorylates Akt at serine 473 (S473). Knock-out or inhibition of FoxO1 or Rictor led to a dramatic decrease in Akt phosphorylation and growth disadvantage for malignant B cells in the presence of ibrutinib (or PI3K inhibitor idelalisib) in vitro and in vivo. FoxO1/Rictor/pAktS473 axis represents an early non-genetic adaptation to BCR inhibitor therapy not requiring PI3Kδ or BTK kinase activity. We further demonstrate that FoxO1 can be targeted therapeutically, and its inhibition induces CLL cells' apoptosis alone or in combination with BTK inhibitors (ibrutinib, acalabrutinib, pirtobrutinib) and blocks their proliferation triggered by T-cell factors (CD40L, IL-4, and IL-21).

Published

2024

23. Degradation of GSPT1 causes TP53-independent cell death in leukemia while sparing normal hematopoietic stem cells.

Author

Sellar, Rob S., Sperling, Adam S., Słabicki, Mikołaj, Gasser, Jessica A., McConkey, Marie E., Donovan, Katherine A., Mageed, Nada, Adams, Dylan N., Zou, Charles, Miller, Peter G., Dutta, Ravi K., Boettcher, Steffen, Lin, Amy E., Sandoval, Brittany, Barrios, Vanessa A. Quevedo, Kovalcik, Veronica, Koeppe, Jonas, Henderson, Elizabeth K., Fink, Emma C., and Lu Yang

Subjects

*PROTEIN metabolism, *PROTEINS, *LEUKEMIA, *METABOLISM, *RESEARCH funding, *HEMATOPOIETIC stem cells, *ANIMALS, *MICE, *CELL death

Abstract

Targeted protein degradation is a rapidly advancing and expanding therapeutic approach. Drugs that degrade GSPT1 via the CRL4CRBN ubiquitin ligase are a new class of cancer therapy in active clinical development with evidence of activity against acute myeloid leukemia in early-phase trials. However, other than activation of the integrated stress response, the downstream effects of GSPT1 degradation leading to cell death are largely undefined, and no murine models are available to study these agents. We identified the domains of GSPT1 essential for cell survival and show that GSPT1 degradation leads to impaired translation termination, activation of the integrated stress response pathway, and TP53-independent cell death. CRISPR/Cas9 screens implicated decreased translation initiation as protective following GSPT1 degradation, suggesting that cells with higher levels of translation are more susceptible to the effects of GSPT1 degradation. We defined 2 Crbn amino acids that prevent Gspt1 degradation in mice, generated a knockin mouse with alteration of these residues, and demonstrated the efficacy of GSPT1-degrading drugs in vivo with relative sparing of numbers and function of long-term hematopoietic stem cells. Our results provide a mechanistic basis for the use of GSPT1 degraders for the treatment of cancer, including TP53-mutant acute myeloid leukemia. [ABSTRACT FROM AUTHOR]

Published

2022

24. Stepwise GATA1 and SMC3 mutations alter megakaryocyte differentiation in a Down syndrome leukemia model.

Author

Arkoun, Brahim, Robert, Elie, Boudia, Fabien, Mazzi, Stefania, Dufour, Virginie, Siret, Aurélie, Mammasse, Yasmine, Aid, Zakia, Vieira, Matthieu, Aygun, Imanci, Aglave, Marine, Cambot, Marie, Petermann, Rachel, Souquere, Sylvie, Rameau, Philippe, Catelain, Cyril, Diot, Romain, Tachdjian, Gérard, Hermine, Olivier, and Droin, Nathalie

Abstract

Acute megakaryoblastic leukemia of Down syndrome (DS-AMKL) is a model of clonal evolution from a preleukemic transient myeloproliferative disorder requiring both a trisomy 21 (T21) and a GATA1s mutation to a leukemia driven by additional driver mutations. We modeled the megakaryocyte differentiation defect through stepwise gene editing of GATA1s, SMC3+/-, and MPLW515K, providing 20 different T21 or disomy 21 (D21) induced pluripotent stem cell (iPSC) clones. GATA1s profoundly reshaped iPSC-derived hematopoietic architecture with gradual myeloid-to-megakaryocyte shift and megakaryocyte differentiation alteration upon addition of SMC3 and MPL mutations. Transcriptional, chromatin accessibility, and GATA1-binding data showed alteration of essential megakaryocyte differentiation genes, including NFE2 downregulation that was associated with loss of GATA1s binding and functionally involved in megakaryocyte differentiation blockage. T21 enhanced the proliferative phenotype, reproducing the cellular and molecular abnormalities of DS-AMKL. Our study provides an array of human cell-based models revealing individual contributions of different mutations to DS-AMKL differentiation blockage, a major determinant of leukemic progression. [ABSTRACT FROM AUTHOR]

Published

2022

25. SOME PATHOLOGICAL ASPECTS IN VARIOUS WBCs DISORDERS.

Author

Maftei, Diana-Elena and Porumb, Ioana-Melina

Subjects

*LEUKEMIA treatment, *BLOOD cell count, *LEUCOCYTOSIS

Abstract

A medical survey was conducted on a group of 209 patients investigated in 2020. Laboratory determinations and analyses have been performed in the New Central Med Lab (Bacău). In this study, the purpose was to monitor the distribution of investigated patients by normal values of WBCs versus the subjects with WBCs alterations, either leukopenia, or leukocytosis, detect certain types of leukemia, the distribution of subjects by gender, age, urban/rural environment. Thereby, tests for a quantitative and qualitative assessment of hematological parameters were performed: complete blood count, cytological blood smear analysis, hemoleucogram. The blood smear cytologic examination is a valuable observation, that is prior in the diagnosis of hematological disorders. The blood smears were fixed and stained May Grünwald - Giemsa. [ABSTRACT FROM AUTHOR]

Published

2022

26. TGF-β signaling in myeloproliferative neoplasms contributes to myelofibrosis without disrupting the hematopoietic niche.

Author

Juo-Chin Yao, Oetjen, Karolyn A., Tianjiao Wang, Haoliang Xu, Abou-Ezzi, Grazia, Krambs, Joseph R., Uttarwar, Salil, Duncavage, Eric J., Link, Daniel C., Yao, Juo-Chin, Wang, Tianjiao, and Xu, Haoliang

Subjects

*MYELOFIBROSIS, *GROWTH factors, *MYELOPROLIFERATIVE neoplasms, *CELL physiology, *TUMORS, *BONE marrow

Abstract

Myeloproliferative neoplasms (MPNs) are associated with significant alterations in the bone marrow microenvironment that include decreased expression of key niche factors and myelofibrosis. Here, we explored the contribution of TGF-β to these alterations by abrogating TGF-β signaling in bone marrow mesenchymal stromal cells. Loss of TGF-β signaling in Osx-Cre-targeted MSCs prevented the development of myelofibrosis in both MPLW515L and Jak2V617F models of MPNs. In contrast, despite the absence of myelofibrosis, loss of TGF-β signaling in mesenchymal stromal cells did not rescue the defective hematopoietic niche induced by MPLW515L, as evidenced by decreased bone marrow cellularity, hematopoietic stem/progenitor cell number, and Cxcl12 and Kitlg expression, and the presence of splenic extramedullary hematopoiesis. Induction of myelofibrosis by MPLW515L was intact in Osx-Cre Smad4fl/fl recipients, demonstrating that SMAD4-independent TGF-β signaling mediates the myelofibrosis phenotype. Indeed, treatment with a c-Jun N-terminal kinase (JNK) inhibitor prevented the development of myelofibrosis induced by MPLW515L. Together, these data show that JNK-dependent TGF-β signaling in mesenchymal stromal cells is responsible for the development of myelofibrosis but not hematopoietic niche disruption in MPNs, suggesting that the signals that regulate niche gene expression in bone marrow mesenchymal stromal cells are distinct from those that induce a fibrogenic program. [ABSTRACT FROM AUTHOR]

Published

2022

27. LC3-associated phagocytosis in bone marrow macrophages suppresses acute myeloid leukemia progression through STING activation.

Author

Moore, Jamie A., Mistry, Jayna J., Hellmich, Charlotte, Horton, Rebecca H., Wojtowicz, Edyta E., Jibril, Aisha, Jefferson, Matthew, Wileman, Thomas, Beraza, Naiara, Bowles, Kristian M., and Rushworth, Stuart A.

Subjects

*ACUTE myeloid leukemia, *BONE marrow, *PHAGOCYTOSIS, *MITOCHONDRIAL DNA, *APOPTOTIC bodies, *DNA metabolism, *RESEARCH, *RESEARCH methodology, *CELL physiology, *MACROPHAGES, *EVALUATION research, *COMPARATIVE studies, *RESEARCH funding, *PERSONALITY tests

Abstract

The bone marrow (BM) microenvironment regulates acute myeloid leukemia (AML) initiation, proliferation, and chemotherapy resistance. Following cancer cell death, a growing body of evidence suggests an important role for remaining apoptotic debris in regulating the immunologic response to and growth of solid tumors. Here, we investigated the role of macrophage LC3-associated phagocytosis (LAP) within the BM microenvironment of AML. Depletion of BM macrophages (BMMs) increased AML growth in vivo. We show that LAP is the predominate method of BMM phagocytosis of dead and dying cells in the AML microenvironment. Targeted inhibition of LAP led to the accumulation of apoptotic cells (ACs) and apoptotic bodies (ABs), resulting in accelerated leukemia growth. Mechanistically, LAP of AML-derived ABs by BMMs resulted in stimulator of IFN genes (STING) pathway activation. We found that AML-derived mitochondrial damage-associated molecular patterns were processed by BMMs via LAP. Moreover, depletion of mitochondrial DNA (mtDNA) in AML-derived ABs showed that it was this mtDNA that was responsible for the induction of STING signaling in BMMs. Phenotypically, we found that STING activation suppressed AML growth through a mechanism related to increased phagocytosis. In summary, we report that macrophage LAP of apoptotic debris in the AML BM microenvironment suppressed tumor growth. [ABSTRACT FROM AUTHOR]

Published

2022

28. Role of microRNA in Normal and Malignant Hematopoiesis

Author

Gupta, Ruchi, Rahman, Khaliqur, Saxena, Renu, editor, and Pati, Hara Prasad, editor

Published

2019

29. Time-dependent treatment effects of metronomic chemotherapy in unfit AML patients: a secondary analysis of a randomised controlled trial

Author

Phichayut Phinyo, Jayanton Patumanond, and Saranya Pongudom

Subjects

Leukemias, Maintenance chemotherapy, Survival, Proportional hazard model, Medicine, Biology (General), QH301-705.5, Science (General), Q1-390

Abstract

Abstract Objectives To examine the presence of the time-dependent effect of metronomic chemotherapy for the treatment of older patients with acute myeloid leukemia (AML) who were unfit for standard chemotherapy and to reanalyze the data using an appropriate statistical approach in the presence of non-proportional hazards, the restricted mean survival time (RMST). Results This was a secondary analysis of a multi-center, open-label, randomized controlled trial, which was conducted in seven tertiary care hospitals across Thailand. A total of 81 unfit AML patients were randomized into two treatment groups, metronomic chemotherapy and palliative treatment. The hazard ratio of metronomic chemotherapy over palliative treatment was time-dependent. At three landmark time points of 90, 180, 365 days, the restricted mean survival time differences were 13.3 (95% CI 1.9–24.7) days, 28.9 (95% CI 3.3–54.4) days, and 40.4 (95% CI − 1.3 to 82.0) days, respectively. With non-proportional hazards modeling and RMST analysis, we were able to conclude that metronomic chemotherapy is a potentially effective alternative treatment for elderly AML patients who were medically unfit for intensive chemotherapy. In the future clinical trials, non-proportional hazards should be carefully inspected and properly handled with appropriate statistical methods. Trial registration Randomized clinical trial TCTR20150918001; registration date: 15/09/2015. Retrospectively registered

Published

2021

30. B cell receptor isotypes differentially associate with cell signaling, kinetics, and outcome in chronic lymphocytic leukemia.

Author

Mazzarello, Andrea N., Gentner-Göbel, Eva, Minden, Marcus Dühren-von, Tarasenko, Tatyana N., Nicolò, Antonella, Ferrer, Gerardo, Vergani, Stefano, Yun Liu, Bagnara, Davide, Rai, Kanti R., Burger, Jan A., McGuire, Peter J., Maity, Palash C., Jumaa, Hassan, Chiorazzi, Nicholas, Dühren-von Minden, Marcus, and Liu, Yun

Subjects

*B cell receptors, *CHRONIC lymphocytic leukemia, *CELL communication, *FLUDARABINE, *B cells, *CELLULAR signal transduction, *CHRONIC leukemia

Abstract

In chronic lymphocytic leukemia (CLL), the B cell receptor (BCR) plays a critical role in disease development and progression, as indicated by the therapeutic efficacy of drugs blocking BCR signaling. However, the mechanism(s) underlying BCR responsiveness are not completely defined. Selective engagement of membrane IgM or IgD on CLL cells, each coexpressed by more than 90% of cases, leads to distinct signaling events. Since both IgM and IgD carry the same antigen-binding domains, the divergent actions of the receptors are attributed to differences in immunoglobulin (Ig) structure or the outcome of signal transduction. We showed that IgM, not IgD, level and organization associated with CLL-cell birth rate and the type and consequences of BCR signaling in humans and mice. The latter IgM-driven effects were abrogated when BCR signaling was inhibited. Collectively, these studies demonstrated a critical, selective role for IgM in BCR signaling and B cell fate decisions, possibly opening new avenues for CLL therapy. [ABSTRACT FROM AUTHOR]

Published

2022

31. Discovery of promising B lymphocyte kinase inhibitors using structure-guided virtual screening.

Author

Yang S, Wahab S, Almoyad MAA, Chen Y, Kalam N, and Khalid M

Subjects

Humans, Agammaglobulinaemia Tyrosine Kinase antagonists & inhibitors, Agammaglobulinaemia Tyrosine Kinase metabolism, Agammaglobulinaemia Tyrosine Kinase chemistry, Protein Binding, Drug Discovery methods, Structure-Activity Relationship, Binding Sites, Ligands, Small Molecule Libraries chemistry, Small Molecule Libraries pharmacology, Drug Evaluation, Preclinical, Protein Kinase Inhibitors chemistry, Protein Kinase Inhibitors pharmacology, Molecular Docking Simulation, Molecular Dynamics Simulation

Abstract

Tyrosine-protein kinase BLK, also known as B-cell lymphocyte kinase (BLK), is a non-receptor tyrosine kinase that is primarily expressed in B-cells. BLK plays a key role in B-cell signaling, particularly in B-cell development and maturation. The increased expression of BLK has been linked to various complex diseases, including autoimmune disorders, and specific malignancies of B cells, such as lymphomas and leukemias. Due to its significant involvement in B-cell signaling, BLK has emerged as a promising target for drug development, offering the potential for developing novel therapeutics to combat these diseases. Small molecule inhibitors of BLK hold great potential for therapeutic intervention; however, discovering potent and selective inhibitors remains challenging. Within this context, natural compounds hold significant potential as a valuable resource for discovering novel inhibitors of BLK. In the current study, a structure-based virtual screening of the IMPPAT 2 library was employed to identify promising candidates with potential as inhibitors of BLK. The control molecule for this study was the known BLK inhibitor, Dasatinib. After a multi-step filtering process, two molecules (Withanolide I and Mexogenin) demonstrated potential against BLK based on their superior binding affinity, ligand efficiency, and specific interaction. Interaction analysis of these compounds revealed several significant interactions with the active site residues of BLK. Both proposed molecules remained bound to the binding pocket of BLK, as indicated by the molecular dynamics (MD) simulation study. Taken together, these findings provide valuable insights for guiding future research endeavors and translational efforts in developing therapeutics for different complex diseases, such as autoimmune disorders, lymphomas, and leukemias.Communicated by Ramaswamy H. Sarma.

Published

2024

32. Germline RUNX1 variation and predisposition to childhood acute lymphoblastic leukemia.

Author

Yizhen Li, Wentao Yang, Devidas, Meenakshi, Winter, Stuart S., Kesserwan, Chimene, Wenjian Yang, Dunsmore, Kimberly P., Smith, Colton, Maoxiang Qian, Xujie Zhao, Ranran Zhang, Gastier-Foster, Julie M., Raetz, Elizabeth A., Carroll, William L., Chunliang Li, Liu, Paul P., Rabin, Karen R., Takaomi Sanda, Mullighan, Charles G., and Nichols, Kim E.

Subjects

*SOMATIC mutation, *LYMPHOBLASTIC leukemia, *ACUTE leukemia, *MYELOID cells, *GERM cells, *GENETIC variation, *PAROXYSMAL hemoglobinuria

Abstract

Genetic alterations in the RUNX1 gene are associated with benign and malignant blood disorders, particularly of megakaryocyte and myeloid lineages. The role of RUNX1 in acute lymphoblastic leukemia (ALL) is less clear, particularly how germline genetic variation influences the predisposition to this type of leukemia. Sequencing 4,836 children with B-ALL and 1,354 cases of T-ALL, we identified 31 and 18 germline RUNX1 variants, respectively. RUNX1 variants in B-ALL consistently showed minimal damaging effects. By contrast, 6 T-ALL-related variants result in drastic loss of RUNX1 activity as a transcription activator in vitro. Ectopic expression of dominant-negative RUNX1 variants in human CD34+ cells repressed differentiation into erythroid, megakaryocytes, and T cells, while promoting myeloid cell development. Chromatin immunoprecipitation sequencing of T-ALL models showed distinctive patterns of RUNX1 binding by variant proteins. Further whole genome sequencing identified JAK3 mutation as the most frequent somatic genomic abnormality in T-ALL with germline RUNX1 variants. Co-introduction of RUNX1 variant and JAK3 mutation in hematopoietic stem and progenitor cells in mice gave rise to T-ALL with early T-cell precursor phenotype. Taken together, these results indicated that RUNX1 is an important predisposition gene for T-ALL and pointed to novel biology of RUNX1-mediated leukemogenesis in the lymphoid lineages. [ABSTRACT FROM AUTHOR]

Published

2021

33. BET bromodomain protein inhibition reverses chimeric antigen receptor extinction and reinvigorates exhausted T cells in chronic lymphocytic leukemia.

Author

Weimin Kong, Dimitri, Alexander, Wenliang Wang, In-Young Jung, Ott, Christopher J., Fasolino, Maria, Wang, Yan, Kulikovskaya, Irina, Gupta, Minnal, Yoder, Todd, DeNizio, Jamie E., Everett, John K., Williams, Erik F., Jun Xu, Scholler, John, Reich, Tyler J., Bhoj, Vijay G., Haines, Kathleen M., Maus, Marcela V., and Melenhorst, J. Joseph

Subjects

*CHRONIC lymphocytic leukemia, *T cells, *CHIMERIC antigen receptors, *T cell receptors, *B cell lymphoma, *FLUDARABINE, *PHENOTYPIC plasticity, *CHRONIC lymphocytic leukemia treatment, *BROMODOMAIN-containing proteins, *PROTEINS, *AZEPINES, *IMMUNOLOGICAL tolerance, *ENERGY metabolism, *RESEARCH, *IMMUNIZATION, *HETEROCYCLIC compounds, *RESEARCH methodology, *EVALUATION research, *COMPARATIVE studies, *GENES, *IMMUNITY, *RESEARCH funding, *GLYCOLYSIS, *ANTIGENS, *CHEMICAL inhibitors

Abstract

Chimeric antigen receptor (CAR) T cells have induced remarkable antitumor responses in B cell malignancies. Some patients do not respond because of T cell deficiencies that hamper the expansion, persistence, and effector function of these cells. We used longitudinal immune profiling to identify phenotypic and pharmacodynamic changes in CD19-directed CAR T cells in patients with chronic lymphocytic leukemia (CLL). CAR expression maintenance was also investigated because this can affect response durability. CAR T cell failure was accompanied by preexisting T cell-intrinsic defects or dysfunction acquired after infusion. In a small subset of patients, CAR silencing was observed coincident with leukemia relapse. Using a small molecule inhibitor, we demonstrated that the bromodomain and extra-terminal (BET) family of chromatin adapters plays a role in downregulating CAR expression. BET protein blockade also ameliorated CAR T cell exhaustion as manifested by inhibitory receptor reduction, enhanced metabolic fitness, increased proliferative capacity, and enriched transcriptomic signatures of T cell reinvigoration. BET inhibition decreased levels of the TET2 methylcytosine dioxygenase, and forced expression of the TET2 catalytic domain eliminated the potency-enhancing effects of BET protein targeting in CAR T cells, providing a mechanism linking BET proteins and T cell dysfunction. Thus, modulating BET epigenetic readers may improve the efficacy of cell-based immunotherapies. [ABSTRACT FROM AUTHOR]

Published

2021

34. Integrative methylome-transcriptome analysis unravels cancer cell vulnerabilities in infant MLL-rearranged B cell acute lymphoblastic leukemia.

Author

Tejedor, Juan Ramón, Bueno, Clara, Vinyoles, Meritxell, Petazzi, Paolo, Agraz-Doblas, Antonio, Cobo, Isabel, Torres-Ruiz, Raúl, Bayón, Gustavo F., Pérez, Raúl F., López-Tamargo, Sara, Gutierrez-Agüera, Francisco, Santamarina-Ojeda, Pablo, Ramírez-Orellana, Manuel, Bardini, Michela, Cazzaniga, Giovanni, Ballerini, Paola, Schneider, Pauline, Stam, Ronald W., Varela, Ignacio, and Fraga, Mario F.

Subjects

*LYMPHOBLASTIC leukemia, *CANCER cell analysis, *ACUTE leukemia, *INFANTS, *CHILDHOOD cancer, *PROTEIN metabolism, *PROTEINS, *DNA, *ANIMAL experimentation, *CELL physiology, *DNA methylation, *TRANSFERASES, *GENE expression profiling, *GENES, *MICE, *CHEMICAL inhibitors

Abstract

B cell acute lymphoblastic leukemia (B-ALL) is the most common childhood cancer. As predicted by its prenatal origin, infant B-ALL (iB-ALL) shows an exceptionally silent DNA mutational landscape, suggesting that alternative epigenetic mechanisms may substantially contribute to its leukemogenesis. Here, we have integrated genome-wide DNA methylome and transcriptome data from 69 patients with de novo MLL-rearranged leukemia (MLLr) and non-MLLr iB-ALL leukemia uniformly treated according to the Interfant-99/06 protocol. iB-ALL methylome signatures display a plethora of common and specific alterations associated with chromatin states related to enhancer and transcriptional control in normal hematopoietic cells. DNA methylation, gene expression, and gene coexpression network analyses segregated MLLr away from non-MLLr iB-ALL and identified a coordinated and enriched expression of the AP-1 complex members FOS and JUN and RUNX factors in MLLr iB-ALL, consistent with the significant enrichment of hypomethylated CpGs in these genes. Integrative methylome-transcriptome analysis identified consistent cancer cell vulnerabilities, revealed a robust iB-ALL-specific gene expression-correlating dmCpG signature, and confirmed an epigenetic control of AP-1 and RUNX members in reshaping the molecular network of MLLr iB-ALL. Finally, pharmacological inhibition or functional ablation of AP-1 dramatically impaired MLLr-leukemic growth in vitro and in vivo using MLLr-iB-ALL patient-derived xenografts, providing rationale for new therapeutic avenues in MLLr-iB-ALL. [ABSTRACT FROM AUTHOR]

Published

2021

35. PPARγ agonists promote the resolution of myelofibrosis in preclinical models.

Author

Lambert, Juliette, Saliba, Joseph, Calderon, Carolina, Sii-Felice, Karine, Salma, Mohammad, Edmond, Valérie, Alvarez, Jean-Claude, Delord, Marc, Marty, Caroline, Plo, Isabelle, Kiladjian, Jean-Jacques, Soler, Eric, Vainchenker, William, Villeval, Jean-Luc, Rousselot, Philippe, Prost, Stéphane, and Prost, Stephane

Subjects

*MYELOFIBROSIS, *ANIMAL models in research, *LABORATORY mice, *BONE remodeling, *BONE marrow, *PROTEIN metabolism, *PROTEINS, *BIOLOGICAL models, *RESEARCH, *ANIMAL experimentation, *RESEARCH methodology, *ANTINEOPLASTIC agents, *CELL physiology, *MEDICAL cooperation, *EVALUATION research, *COMPARATIVE studies, *HEMATOLOGIC malignancies, *TUMORS, *MICE, *PHARMACODYNAMICS

Abstract

Myelofibrosis (MF) is a non-BCR-ABL myeloproliferative neoplasm associated with poor outcomes. Current treatment has little effect on the natural history of the disease. MF results from complex interactions between (a) the malignant clone, (b) an inflammatory context, and (c) remodeling of the bone marrow (BM) microenvironment. Each of these points is a potential target of PPARγ activation. Here, we demonstrated the therapeutic potential of PPARγ agonists in resolving MF in 3 mouse models. We showed that PPARγ agonists reduce myeloproliferation, modulate inflammation, and protect the BM stroma in vitro and ex vivo. Activation of PPARγ constitutes a relevant therapeutic target in MF, and our data support the possibility of using PPARγ agonists in clinical practice. [ABSTRACT FROM AUTHOR]

Published

2021

36. Molecular Biology of Leukemias

Author

Medeiros, L. Jeffrey, Konoplev, Sergej N., Coleman, William B., editor, and Tsongalis, Gregory J., editor

Published

2017

37. RUNX2 regulates leukemic cell metabolism and chemotaxis in high-risk T cell acute lymphoblastic leukemia.

Author

Matthijssens, Filip, Sharma, Nitesh D., Nysus, Monique, Nickl, Christian K., Huining Kang, Perez, Dominique R., Lintermans, Beatrice, Van Loocke, Wouter, Roels, Juliette, Peirs, Sofie, Demoen, Lisa, Pieters, Tim, Reunes, Lindy, Lammens, Tim, De Moerloose, Barbara, Van Nieuwerburgh, Filip, Deforce, Dieter L., Cheung, Laurence C., Kotecha, Rishi S., and Risseeuw, Martijn D. P.

Subjects

*LYMPHOBLASTIC leukemia, *CELL metabolism, *T cells, *ACUTE leukemia, *RUNX proteins

Abstract

T cell acute lymphoblastic leukemia (T-ALL) is an aggressive hematologic malignancy with inferior outcome compared with that of B cell ALL. Here, we show that Runt-related transcription factor 2 (RUNX2) was upregulated in high-risk T-ALL with KMT2A rearrangements (KMT2A-R) or an immature immunophenotype. In KMT2A-R cells, we identified RUNX2 as a direct target of the KMT2A chimeras, where it reciprocally bound the KMT2A promoter, establishing a regulatory feed-forward mechanism. Notably, RUNX2 was required for survival of immature and KMT2A-R T-ALL cells in vitro and in vivo. We report direct transcriptional regulation of CXCR4 signaling by RUNX2, thereby promoting chemotaxis, adhesion, and homing to medullary and extramedullary sites. RUNX2 enabled these energy-demanding processes by increasing metabolic activity in T-ALL cells through positive regulation of both glycolysis and oxidative phosphorylation. Concurrently, RUNX2 upregulation increased mitochondrial dynamics and biogenesis in T-ALL cells. Finally, as a proof of concept, we demonstrate that immature and KMT2A-R T-ALL cells were vulnerable to pharmacological targeting of the interaction between RUNX2 and its cofactor CBFβ. In conclusion, we show that RUNX2 acts as a dependency factor in high-risk subtypes of human T-ALL through concomitant regulation of tumor metabolism and leukemic cell migration. [ABSTRACT FROM AUTHOR]

Published

2021

38. Descriptive and Analytical Study of Acute Leukemia in Adults in Eastern Algeria

Author

Fethi Tebbani, Nassima Boudiba, Karima Tadjine, Abdelkader Rouabah, and Leila Rouabah

Subjects

Leukemias, Acute lymphoblastic leukemia (ALL), Acute myeloid leukemia (AML), Lymphocytes, Myelogram, Medicine (General), R5-920

Abstract

Acute leukemia (AL) is a group of malignant hemopathies characterized by monoclonal intramedullary proliferation of abnormal hematopoietic cells, the maturation process of which is blocked at the "Blast" stage. In these pathologies, an abnormal cell clone proliferates. By its character of anarchy, of nonresponse to normal regulators of cell proliferation and its invasive character, this clone assumes all the characters of malignancy. The diagnosis of ALL can no longer be based solely on morphological and cytochemical characteristics, but must include the elements of the immunological phenotype of leukemic cells. Currently, a classification, based on immunophenotypic and cytogenetic data as well as on molecular biology data, is necessary for the determination of the optimal treatment. The objective of this work is to reach a descriptive approach of the acute leukemia in the region of Annaba, in the east of Algeria. Description of the epidemiological, clinical and cytological characteristics of the cases of acute leukemia collected in the Hematology Laboratory of Dorban Hospital over a period of 6 years. - Analysis of the results of our study and their comparison with those published in the literature, with a reminder of the epidemiological and diagnostic data. The retrospective study was conducted in the division of the hematology hospital of Sidi Ammar-Annaba, during the period from January 2018 to July 2019. This study was based on data from 50 patients. During our study period, the results show that 50 cases of acute leukemia confirmed by the myelogram were notified. The annual average is 12.3 cases. The collection data were made in Annaba at the CHU-Dorban, we noted a variety of clinical signs and a variety of symptoms represented mainly by fever (100%), anemia (100%), hemorrhagic syndromes (30 , 6%) and splenomegaly (80.6%). For the myelogram. Acute lymphoblastic leukemia (ALL) was predominant with 25 cases. In conclusion we can say that. Acute leukemia in adults in eastern Algeria can be expressed by a variety of symptoms and hematological disorders, in addition to a series of associated conditions.

Published

2020

39. Bone marrow niche ATP levels determine leukemia-initiating cell activity via P2X7 in leukemic models.

Author

Xiaoxiao He, Jiangbo Wan, Xiaona Yang, Xiuze Zhang, Dan Huang, Xie Li, Yejun Zou, Chiqi Chen, Zhuo Yu, Li Xie, Yaping Zhang, Ligen Liu, Shangang Li, Yuzheng Zhao, Hongfang Shao, Ye Yu, Junke Zheng, He, Xiaoxiao, Wan, Jiangbo, and Yang, Xiaona

Subjects

*BONE marrow, *LIGAND-gated ion channels, *ACUTE myeloid leukemia, *CANCER stem cells, *ADENOSINE triphosphate metabolism, *PROTEIN metabolism, *ADENOSINE triphosphate, *PROTEINS, *RESEARCH, *ANIMAL experimentation, *RESEARCH methodology, *CELL physiology, *CELL receptors, *MEDICAL cooperation, *EVALUATION research, *CELLULAR signal transduction, *COMPARATIVE studies, *STEM cells, *TUMORS, *MICE

Abstract

How particular bone marrow niche factors contribute to the leukemogenic activities of leukemia-initiating cells (LICs) remains largely unknown. Here, we showed that ATP levels were markedly increased in the bone marrow niches of mice with acute myeloid leukemia (AML), and LICs preferentially localized to the endosteal niche with relatively high ATP levels, as indicated by a sensitive ATP indicator. ATP could efficiently induce the influx of ions into LICs in an MLL-AF9-induced murine AML model via the ligand-gated ion channel P2X7. P2x7 deletion led to notably impaired homing and self-renewal capacities of LICs and contributed to an approximately 5-fold decrease in the number of functional LICs but had no effect on normal hematopoiesis. ATP/P2X7 signaling enhanced the calcium flux-mediated phosphorylation of CREB, which further transactivated phosphoglycerate dehydrogenase (Phgdh) expression to maintain serine metabolism and LIC fates. P2X7 knockdown resulted in a markedly extended survival of recipients transplanted with either human AML cell lines or primary leukemia cells. Blockade of ATP/P2X7 signaling could efficiently inhibit leukemogenesis. Here, we provide a perspective for understanding how ATP/P2X7 signaling sustains LIC activities, which may benefit the development of specific strategies for targeting LICs or other types of cancer stem cells. [ABSTRACT FROM AUTHOR]

Published

2021

40. Time-dependent treatment effects of metronomic chemotherapy in unfit AML patients: a secondary analysis of a randomised controlled trial.

Author

Phinyo, Phichayut, Patumanond, Jayanton, and Pongudom, Saranya

Subjects

*RANDOMIZED controlled trials, *SECONDARY analysis, *TREATMENT effectiveness, *CLINICAL trial registries, *ACUTE myeloid leukemia, *FAILURE time data analysis, *MATERIALS compression testing

Abstract

Objectives: To examine the presence of the time-dependent effect of metronomic chemotherapy for the treatment of older patients with acute myeloid leukemia (AML) who were unfit for standard chemotherapy and to reanalyze the data using an appropriate statistical approach in the presence of non-proportional hazards, the restricted mean survival time (RMST). Results: This was a secondary analysis of a multi-center, open-label, randomized controlled trial, which was conducted in seven tertiary care hospitals across Thailand. A total of 81 unfit AML patients were randomized into two treatment groups, metronomic chemotherapy and palliative treatment. The hazard ratio of metronomic chemotherapy over palliative treatment was time-dependent. At three landmark time points of 90, 180, 365 days, the restricted mean survival time differences were 13.3 (95% CI 1.9–24.7) days, 28.9 (95% CI 3.3–54.4) days, and 40.4 (95% CI − 1.3 to 82.0) days, respectively. With non-proportional hazards modeling and RMST analysis, we were able to conclude that metronomic chemotherapy is a potentially effective alternative treatment for elderly AML patients who were medically unfit for intensive chemotherapy. In the future clinical trials, non-proportional hazards should be carefully inspected and properly handled with appropriate statistical methods. Trial registration Randomized clinical trial TCTR20150918001; registration date: 15/09/2015. Retrospectively registered [ABSTRACT FROM AUTHOR]

Published

2021

41. Hyperglycemia cooperates with Tet2 heterozygosity to induce leukemia driven by proinflammatory cytokine-induced lncRNA Morrbid.

Author

Zhigang Cai, Xiaoyu Lu, Chi Zhang, Nelanuthala, Sai, Aguilera, Fabiola, Hadley, Abigail, Ramdas, Baskar, Fang Fang, Nephew, Kenneth, Kotzin, Jonathan J., Williams, Adam, Henao-Mejia, Jorge, Haneline, Laura, Kapur, Reuben, Cai, Zhigang, Lu, Xiaoyu, Zhang, Chi, and Fang, Fang

Subjects

*HYPERGLYCEMIA, *LINCRNA, *LEUKEMIA, *HEMATOLOGIC malignancies, *HEMATOPOIETIC stem cells, *ACUTE myeloid leukemia, *RNA metabolism, *PROTEIN metabolism, *PROTEINS, *RESEARCH, *GENETIC mutation, *ANIMAL experimentation, *RESEARCH methodology, *RNA, *MEDICAL cooperation, *EVALUATION research, *GENETIC carriers, *COMPARATIVE studies, *DNA-binding proteins, *RESEARCH funding, *MICE

Abstract

Diabetes mellitus (DM) is a risk factor for cancer. The role of DM-induced hyperglycemic (HG) stress in blood cancer is poorly understood. Epidemiologic studies show that individuals with DM are more likely to have a higher rate of mutations in genes found in pre-leukemic hematopoietic stem and progenitor cells (pre-LHSPCs) including TET2. TET2-mutant pre-LHSPCs require additional hits to evolve into full-blown leukemia and/or an aggressive myeloproliferative neoplasm (MPN). Intrinsic mutations have been shown to cooperate with Tet2 to promote leukemic transformation. However, the extrinsic factors are poorly understood. Using a mouse model carrying Tet2 haploinsufficiency to mimic the human pre-LHSPC condition and HG stress, in the form of an Ins2Akita/+ mutation, which induces hyperglycemia and type 1 DM, we show that the compound mutant mice developed a lethal form of MPN and/or acute myeloid leukemia (AML). RNA-Seq revealed that this was due in part to upregulation of proinflammatory pathways, thereby generating a feed-forward loop, including expression of the antiapoptotic, long noncoding RNA (lncRNA) Morrbid. Loss of Morrbid in the compound mutants rescued the lethality and mitigated MPN/AML. We describe a mouse model for age-dependent MPN/AML and suggest that hyperglycemia acts as an environmental driver for myeloid neoplasms, which could be prevented by reducing expression levels of the inflammation-related lncRNA Morrbid. [ABSTRACT FROM AUTHOR]

Published

2021

42. DYRK1A regulates B cell acute lymphoblastic leukemia through phosphorylation of FOXO1 and STAT3.

Author

Bhansali, Rahul S., Rammohan, Malini, Lee, Paul, Laurent, Anouchka P., Qiang Wen, Suraneni, Praveen, Yip, Bon Ham, Yi-Chien Tsai, Jenni, Silvia, Bornhauser, Beat, Siret, Aurélie, Fruit, Corinne, Pacheco-Benichou, Alexandra, Harris, Ethan, Besson, Thierry, Thompson, Benjamin J., Young Ah Goo, Nobuko Hijiya, Vilenchik, Maria, and Izraeli, Shai

Subjects

*LYMPHOBLASTIC leukemia, *B cells, *SERINE/THREONINE kinases, *ACUTE leukemia, *PHOSPHORYLATION, *HUMAN chromosomes, *CD19 antigen

Abstract

DYRK1A is a serine/threonine kinase encoded on human chromosome 21 (HSA21) that has been implicated in several pathologies of Down syndrome (DS), including cognitive deficits and Alzheimer's disease. Although children with DS are predisposed to developing leukemia, especially B cell acute lymphoblastic leukemia (B-ALL), the HSA21 genes that contribute to malignancies remain largely undefined. Here, we report that DYRK1A is overexpressed and required for B-ALL. Genetic and pharmacologic inhibition of DYRK1A decreased leukemic cell expansion and suppressed B-ALL development in vitro and in vivo. Furthermore, we found that FOXO1 and STAT3, transcription factors that are indispensable for B cell development, are critical substrates of DYRK1A. Loss of DYRK1A-mediated FOXO1 and STAT3 signaling disrupted DNA damage and ROS regulation, respectively, leading to preferential cell death in leukemic B cells. Thus, we reveal a DYRK1A/FOXO1/STAT3 axis that facilitates the development and maintenance of B-ALL. [ABSTRACT FROM AUTHOR]

Published

2021

43. ANGPTL2-containing small extracellular vesicles from vascular endothelial cells accelerate leukemia progression.

Author

Dan Huang, Guohuan Sun, Xiaoxin Hao, Xiaoxiao He, Zhaofeng Zheng, Chiqi Chen, Zhuo Yu, Li Xie, Shihui Ma, Ligen Liu, Zhou, Bo O., Hui Cheng, Junke Zheng, Tao Cheng, Huang, Dan, Sun, Guohuan, Hao, Xiaoxin, He, Xiaoxiao, Zheng, Zhaofeng, and Chen, Chiqi

Subjects

*VASCULAR endothelial cells, *EXTRACELLULAR vesicles, *LEUKEMIA, *ACUTE myeloid leukemia, *CELL communication, *VASCULAR cell adhesion molecule-1, *PROTEIN metabolism, *PROTEINS, *RESEARCH, *ANIMAL experimentation, *RESEARCH methodology, *MEDICAL cooperation, *EVALUATION research, *COMPARATIVE studies, *EPITHELIAL cells, *GENETIC techniques, *MICE

Abstract

Small extracellular vesicles (SEVs) are functional messengers of certain cellular niches that permit noncontact cell communications. Whether niche-specific SEVs fulfill this role in cancer is unclear. Here, we used 7 cell type-specific mouse Cre lines to conditionally knock out Vps33b in Cdh5+ or Tie2+ endothelial cells (ECs), Lepr+ BM perivascular cells, Osx+ osteoprogenitor cells, Pf4+ megakaryocytes, and Tcf21+ spleen stromal cells. We then examined the effects of reduced SEV secretion on progression of MLL-AF9-induced acute myeloid leukemia (AML), as well as normal hematopoiesis. Blocking SEV secretion from ECs, but not perivascular cells, megakaryocytes, or spleen stromal cells, markedly delayed the leukemia progression. Notably, reducing SEV production from ECs had no effect on normal hematopoiesis. Protein analysis showed that EC-derived SEVs contained a high level of ANGPTL2, which accelerated leukemia progression via binding to the LILRB2 receptor. Moreover, ANGPTL2-SEVs released from ECs were governed by VPS33B. Importantly, ANGPTL2-SEVs were also required for primary human AML cell maintenance. These findings demonstrate a role of niche-specific SEVs in cancer development and suggest targeting of ANGPTL2-SEVs from ECs as a potential strategy to interfere with certain types of AML. [ABSTRACT FROM AUTHOR]

Published

2021

44. BET inhibition reforms the immune microenvironment and alleviates T cell dysfunction in chronic lymphocytic leukemia.

Author

Smith AL, Skupa SA, Eiken AP, Reznicek TE, Schmitz E, Williams N, Moore DY, D'Angelo CR, Kallam A, Lunning MA, Bociek RG, Vose JM, Mohamed E, Mahr AR, Denton PW, Powell B, Bollag G, Rowley MJ, and El-Gamal D

Subjects

Humans, Animals, Mice, Transcription Factors metabolism, Transcription Factors genetics, Hepatocyte Nuclear Factor 1-alpha metabolism, Hepatocyte Nuclear Factor 1-alpha genetics, Cell Proliferation drug effects, Bromodomain Containing Proteins, Proteins, Leukemia, Lymphocytic, Chronic, B-Cell immunology, Leukemia, Lymphocytic, Chronic, B-Cell drug therapy, Tumor Microenvironment immunology, Tumor Microenvironment drug effects, T-Lymphocytes immunology, T-Lymphocytes drug effects, T-Lymphocytes metabolism

Abstract

Redundant tumor microenvironment (TME) immunosuppressive mechanisms and epigenetic maintenance of terminal T cell exhaustion greatly hinder functional antitumor immune responses in chronic lymphocytic leukemia (CLL). Bromodomain and extraterminal (BET) proteins regulate key pathways contributing to CLL pathogenesis and TME interactions, including T cell function and differentiation. Herein, we report that blocking BET protein function alleviates immunosuppressive networks in the CLL TME and repairs inherent CLL T cell defects. The pan-BET inhibitor OPN-51107 reduced exhaustion-associated cell signatures resulting in improved T cell proliferation and effector function in the Eμ-TCL1 splenic TME. Following BET inhibition (BET-i), TME T cells coexpressed significantly fewer inhibitory receptors (IRs) (e.g., PD-1, CD160, CD244, LAG3, VISTA). Complementary results were witnessed in primary CLL cultures, wherein OPN-51107 exerted proinflammatory effects on T cells, regardless of leukemic cell burden. BET-i additionally promotes a progenitor T cell phenotype through reduced expression of transcription factors that maintain terminal differentiation and increased expression of TCF-1, at least in part through altered chromatin accessibility. Moreover, direct T cell effects of BET-i were unmatched by common targeted therapies in CLL. This study demonstrates the immunomodulatory action of BET-i on CLL T cells and supports the inclusion of BET inhibitors in the management of CLL to alleviate terminal T cell dysfunction and potentially enhance tumoricidal T cell activity.

Published

2024

45. A mitochondrial surveillance mechanism activated by SRSF2 mutations in hematologic malignancies.

Author

Liu X, Devadiga SA, Stanley RF, Morrow RM, Janssen KA, Quesnel-Vallières M, Pomp O, Moverley AA, Li C, Skuli N, Carroll M, Huang J, Wallace DC, Lynch KW, Abdel-Wahab O, and Klein PS

Subjects

Animals, Humans, Mice, Amino Acid Substitution, Cell Line, Tumor, Hematologic Neoplasms genetics, Hematologic Neoplasms pathology, Hematologic Neoplasms metabolism, Mutation, Missense, Myelodysplastic Syndromes genetics, Myelodysplastic Syndromes pathology, Myelodysplastic Syndromes metabolism, RNA Splicing, Leukemia, Myeloid, Acute genetics, Leukemia, Myeloid, Acute pathology, Leukemia, Myeloid, Acute metabolism, Mitochondria genetics, Mitochondria metabolism, Mitochondria pathology, Mitophagy genetics, Protein Kinases genetics, Protein Kinases metabolism, Serine-Arginine Splicing Factors genetics, Serine-Arginine Splicing Factors metabolism

Abstract

Splicing factor mutations are common in myelodysplastic syndrome (MDS) and acute myeloid leukemia (AML), but how they alter cellular functions is unclear. We show that the pathogenic SRSF2P95H/+ mutation disrupts the splicing of mitochondrial mRNAs, impairs mitochondrial complex I function, and robustly increases mitophagy. We also identified a mitochondrial surveillance mechanism by which mitochondrial dysfunction modifies splicing of the mitophagy activator PINK1 to remove a poison intron, increasing the stability and abundance of PINK1 mRNA and protein. SRSF2P95H-induced mitochondrial dysfunction increased PINK1 expression through this mechanism, which is essential for survival of SRSF2P95H/+ cells. Inhibition of splicing with a glycogen synthase kinase 3 inhibitor promoted retention of the poison intron, impairing mitophagy and activating apoptosis in SRSF2P95H/+ cells. These data reveal a homeostatic mechanism for sensing mitochondrial stress through PINK1 splicing and identify increased mitophagy as a disease marker and a therapeutic vulnerability in SRSF2P95H mutant MDS and AML.

Published

2024

46. Pyrimidine depletion enhances targeted and immune therapy combinations in acute myeloid leukemia.

Author

Elgamal OA, Fobare S, Vibhute S, Mehmood A, Vroom DC, Johnson ML, Stearns B, Lerma JR, Truxall J, Stahl E, Carmichael B, Orwick SJ, Mims AS, Curran E, Santhanam R, Tridandapani S, Phelps MA, Xie Z, Coss CC, Baker SD, Patrick J, Ezzell JK, Rai J, Pan J, Rai SN, Stillwell C, Wunderlich M, Abdulrahim M, Goodwin TE, Hilinski G, Bennett CE, Hertlein E, and Byrd JC

Subjects

Humans, Mice, Animals, Dihydroorotate Dehydrogenase, Immunotherapy methods, Cell Line, Tumor, Xenograft Model Antitumor Assays, Female, Leukemia, Myeloid, Acute drug therapy, Leukemia, Myeloid, Acute immunology, Pyrimidines therapeutic use

Abstract

Acute myeloid leukemia (AML) is a fatal disease characterized by the accumulation of undifferentiated myeloblasts, and agents that promote differentiation have been effective in this disease but are not curative. Dihydroorotate dehydrogenase inhibitors (DHODHi) have the ability to promote AML differentiation and target aberrant malignant myelopoiesis. We introduce HOSU-53, a DHODHi with significant monotherapy activity, which is further enhanced when combined with other standard-of-care therapeutics. We further discovered that DHODHi modulated surface expression of CD38 and CD47, prompting the evaluation of HOSU-53 combined with anti-CD38 and anti-CD47 therapies, where we identified a compelling curative potential in an aggressive AML model with CD47 targeting. Finally, we explored using plasma dihydroorotate (DHO) levels to monitor HOSU-53 safety and found that the level of DHO accumulation could predict HOSU-53 intolerability, suggesting the clinical use of plasma DHO to determine safe DHODHi doses. Collectively, our data support the clinical translation of HOSU-53 in AML, particularly to augment immune therapies. Potent DHODHi to date have been limited by their therapeutic index; however, we introduce pharmacodynamic monitoring to predict tolerability while preserving antitumor activity. We additionally suggest that DHODHi is effective at lower doses with select immune therapies, widening the therapeutic index.

Published

2024

47. Hyperactive STAT5 hijacks T cell receptor signaling and drives immature T cell acute lymphoblastic leukemia.

Author

Suske T, Sorger H, Manhart G, Ruge F, Prutsch N, Zimmerman MW, Eder T, Abdallah DI, Maurer B, Wagner C, Schönefeldt S, Spirk K, Pichler A, Pemovska T, Schweicker C, Pölöske D, Hubanic E, Jungherz D, Müller TA, Aung MMK, Orlova A, Pham HTT, Zimmel K, Krausgruber T, Bock C, Müller M, Dahlhoff M, Boersma A, Rülicke T, Fleck R, de Araujo ED, Gunning PT, Aittokallio T, Mustjoki S, Sanda T, Hartmann S, Grebien F, Hoermann G, Haferlach T, Staber PB, Neubauer HA, Look AT, Herling M, and Moriggl R

Subjects

Animals, Humans, Mice, Mice, Transgenic, Protein-Tyrosine Kinases, Receptors, Antigen, T-Cell genetics, Signal Transduction, STAT5 Transcription Factor genetics, Precursor T-Cell Lymphoblastic Leukemia-Lymphoma genetics

Abstract

T cell acute lymphoblastic leukemia (T-ALL) is an aggressive immature T cell cancer. Mutations in IL7R have been analyzed genetically, but downstream effector functions such as STAT5A and STAT5B hyperactivation are poorly understood. Here, we studied the most frequent and clinically challenging STAT5BN642H driver in T cell development and immature T cell cancer onset and compared it with STAT5A hyperactive variants in transgenic mice. Enhanced STAT5 activity caused disrupted T cell development and promoted an early T cell progenitor-ALL phenotype, with upregulation of genes involved in T cell receptor (TCR) signaling, even in absence of surface TCR. Importantly, TCR pathway genes were overexpressed in human T-ALL and mature T cell cancers and activation of TCR pathway kinases was STAT5 dependent. We confirmed STAT5 binding to these genes using ChIP-Seq analysis in human T-ALL cells, which were sensitive to pharmacologic inhibition by dual STAT3/5 degraders or ZAP70 tyrosine kinase blockers in vitro and in vivo. We provide genetic and biochemical proof that STAT5A and STAT5B hyperactivation can initiate T-ALL through TCR pathway hijacking and suggest similar mechanisms for other T cell cancers. Thus, STAT5 or TCR component blockade are targeted therapy options, particularly in patients with chemoresistant clones carrying STAT5BN642H.

Published

2024

48. Drug-regulated CD33-targeted CAR T cells control AML using clinically optimized rapamycin dosing.

Author

Appelbaum J, Price AE, Oda K, Zhang J, Leung WH, Tampella G, Xia D, So PP, Hilton SK, Evandy C, Sarkar S, Martin U, Krostag AR, Leonardi M, Zak DE, Logan R, Lewis P, Franke-Welch S, Ngwenyama N, Fitzgerald M, Tulberg N, Rawlings-Rhea S, Gardner RA, Jones K, Sanabria A, Crago W, Timmer J, Hollands A, Eckelman B, Bilic S, Woodworth J, Lamble A, Gregory PD, Jarjour J, Pogson M, Gustafson JA, Astrakhan A, and Jensen MC

Subjects

Animals, Female, Humans, Male, Mice, Immunotherapy, Adoptive, Receptors, Chimeric Antigen immunology, Xenograft Model Antitumor Assays, Leukemia, Myeloid, Acute immunology, Leukemia, Myeloid, Acute therapy, Leukemia, Myeloid, Acute drug therapy, Leukemia, Myeloid, Acute pathology, Sialic Acid Binding Ig-like Lectin 3 immunology, Sialic Acid Binding Ig-like Lectin 3 metabolism, Sirolimus pharmacology, Sirolimus administration & dosage, T-Lymphocytes immunology, T-Lymphocytes drug effects

Abstract

Chimeric antigen receptor (CAR) designs that incorporate pharmacologic control are desirable; however, designs suitable for clinical translation are needed. We designed a fully human, rapamycin-regulated drug product for targeting CD33+ tumors called dimerizaing agent-regulated immunoreceptor complex (DARIC33). T cell products demonstrated target-specific and rapamycin-dependent cytokine release, transcriptional responses, cytotoxicity, and in vivo antileukemic activity in the presence of as little as 1 nM rapamycin. Rapamycin withdrawal paused DARIC33-stimulated T cell effector functions, which were restored following reexposure to rapamycin, demonstrating reversible effector function control. While rapamycin-regulated DARIC33 T cells were highly sensitive to target antigen, CD34+ stem cell colony-forming capacity was not impacted. We benchmarked DARIC33 potency relative to CD19 CAR T cells to estimate a T cell dose for clinical testing. In addition, we integrated in vitro and preclinical in vivo drug concentration thresholds for off-on state transitions, as well as murine and human rapamycin pharmacokinetics, to estimate a clinically applicable rapamycin dosing schedule. A phase I DARIC33 trial has been initiated (PLAT-08, NCT05105152), with initial evidence of rapamycin-regulated T cell activation and antitumor impact. Our findings provide evidence that the DARIC platform exhibits sensitive regulation and potency needed for clinical application to other important immunotherapy targets.

Published

2024

49. Germ cell tumors and associated hematologic malignancies evolve from a common shared precursor.

Author

Taylor, Justin, Donoghue, Mark T. A., Ho, Caleb, Petrova-Drus, Kseniya, Al-Ahmadie, Hikmat A., Funt, Samuel A., Yanming Zhang, Aypar, Umut, Rao, Pavitra, Chavan, Shweta S., Haddadin, Michael, Tamari, Roni, Giralt, Sergio, Tallman, Martin S., Rampal, Raajit K., Baez, Priscilla, Kappagantula, Rajya, Kosuri, Satyajit, Dogan, Ahmet, and Tickoo, Satish K.

Subjects

*TERATOCARCINOMA, *HEMATOLOGIC malignancies, *PROTEIN metabolism, *GERM cell tumors, *PROTEINS, *GENETIC mutation, *CELLULAR signal transduction, *SECONDARY primary cancer

Abstract

Germ cell tumors (GCTs) are the most common cancer in men between the ages of 15 and 40. Although most patients are cured, those with disease arising in the mediastinum have distinctly poor outcomes. One in every 17 patients with primary mediastinal nonseminomatous GCTs develop an incurable hematologic malignancy and prior data intriguingly suggest a clonal relationship exists between hematologic malignancies and GCTs in these cases. To date, however, the precise clonal relationship between GCTs and the diverse additional somatic malignancies arising in such individuals have not been determined. Here, we traced the clonal evolution and characterized the genetic features of each neoplasm from a cohort of 15 patients with GCTs and associated hematologic malignancies. We discovered that GCTs and hematologic malignancies developing in such individuals evolved from a common shared precursor, nearly all of which harbored allelically imbalanced p53 and/or RAS pathway mutations. Hematologic malignancies arising in this setting genetically resembled mediastinal GCTs rather than de novo myeloid neoplasms. Our findings argue that this scenario represents a unique clinical syndrome, distinct from de novo GCTs or hematologic malignancies, initiated by an ancestral precursor that gives rise to the parallel evolution of GCTs and blood cancers in these patients. [ABSTRACT FROM AUTHOR]

Published

2020

50. Circular RNAs in Blood Malignancies

Author

Olivia Perez de Acha, Martina Rossi, and Myriam Gorospe

Subjects

circular RNAs, blood malignancies, leukemias, lymphomas, non-coding RNA, Biology (General), QH301-705.5

Abstract

Circular (circ)RNAs influence a wide range of biological processes at least in part by interacting with proteins and microRNAs. CircRNAs expressed in the hematopoietic compartment have been increasingly recognized as modulators of physiological and pathological features of hematopoetic stem cell (HSC)-derived populations. In particular, several circRNAs were found to enhance or suppress tumor progression in blood malignancies such as leukemias and lymphomas. Moreover, numerous circRNAs have been proposed to help confer resistance to the conventional treatments used in hematopoietic cancers. Here, we review the most important circRNAs described thus far in acute myeloid leukemia (AML), chronic myeloid leukemia (CML), acute lymphoblastic leukemia (ALL), chronic lymphocytic leukemia (CLL), lymphomas, and multiple myeloma (MM). We discuss the usefulness of circRNAs as diagnostic and prognostic markers and their potential value as therapeutic targets.

Published

2020