IDH1/IDH2 Mutation Frequency in Acute Myeloblastic Patients

Status Recruiting

Clinical Trial Summary

This leukemia is characterized by a poor prognosis for most patients, as they have a high relapse rate despite aggressive treatment with chemotherapy agents and allogeneic bone marrow transplantation. It has been proposed that relapse can be attributed to a leukemic cells population with quiescence properties that are resistant to chemotherapy, known as leukemic stem cells (LSCs). Clinical trials shown a major LSCs percentage than diagnosis correlated with worst prognosis or minimal residual disease with AML.

AML is most common in adults and represents about 40% of all leukemia types in American Continent. In Mexican patients with AML age median is 32 years, lower than other international series. Genomic and functional studies have identified two classes of mutations, which cooperate during AML development.

Somatic mutations have been identified recently that codify for isocitrate dehydrogenase (IDH). These genes codify key metabolic enzymes, which convert isocitrate into α-ketoglutarate (α-KG).15-16From which IDH1 and IDH2 genes presenta high frequency of mutations in AML and other types of tumors. IDH mutations affect mainly active site residues (for example, IDH1 R132, IDH2 R140 or IDH2 R172), resulting in the normal enzymatic function loss abnormally converting α-KG to 2-hydroxiglutarate (2-HG).

"Oncometabolyte" 2-HG may competitively inhibit multiple α-KG depending dioxygenases, including key epigenetic regulators as histones demethylases and TET proteins. Consequently, IDH mutations are associated with chromatin alterations including global alteration of histones and NDA methylation. This is the reason of the need to identify such mutations of genes (IDH1/IDH2) in patients with SMD and AML entering Hematology service of the Hospital General de Mexico from 2017 to 2019, and determine clinical impact in prognosis and monitoring the response to therapy, as well as prognosis and survival.

Clinical Trial Description

Acute myeloid leukemia (AML) is a heterogeneous cancer implying accumulation of mature cells. This leukemia is characterized by a poor prognosis for most patients, as they have a high relapse rate despite aggressive treatment with chemotherapy agents and allogeneic bone marrow transplantation. It has been proposed that relapse can be attributed to a leukemic cells population with quiescence properties that are resistant to chemotherapy, known as leukemic stem cells (LSCs). Clinical trials shown a major LSCs percentage than diagnosis correlated with worst prognosis or minimal residual disease with AML.

AML is most common in adults and represents about 40% of all leukemia types in American Continent. In Mexican patients with AML age median is 32 years, lower than other international series.

AML may be classified in 8 sub-types based on FAB Classification (French-American-British Classification). FAB Classification is based on morphology and cytogenetic. Sub-types are M0 to M7, based on the type of leukemia cells and their maturity. Other classification system used is the one of the World Health Organization (WHO) that classifies the types of leukemia based on genetic/molecular alteration or existence of other potential factors impacting clinical prognosis. The Hospital General de Mexico classifies the leukemia types based on morphologic, immunophenotype, genetic and sometimes in molecular criteria.

Genomic and functional studies have identified two classes of mutations, which cooperate during AML development. Class I mutations, which confer proliferative and survival advantage to hematopoietic stem cells, an example is the occurrence of mutations in NRAS or KRAS genes, or mutations affecting receptor tyrosine kinase FLT3.Class II mutations characterize for promoting self-renewal and blocking differentiation of hematopoietic stem cells. These mutations include certain translocation, an example of this type of mutations is gene MLL1 derived from t(8;21) (AML1-ETO).Major mutations in AML are commonly detected in cytogenetically Normal (CN) cases representing 40% to 50% of all AML.

Such aberrations have demonstrated impacting prognosis of patients with AML. These genes include: FLT3, NPM1, CEBPA, MLL, NRAS, KIT, WT1, RUNX1, TET2, IDH1/2, DNMT3A, ASXL1, PHF6. For example, mutations in FLT3 (37%-46% of patients) indicate poor prognosis. On the contrary, mutations in NPM1 (48%-53% of patients) and CEBPA (13% to 15% of patients) indicate a better prognosis. AMLis a neoplastic clonal disease that originates from progressive accumulation of genetic and epigenetic aberrations affecting mechanisms regulating proliferation and differentiation of hematopoietic trunk cells (HTC). However, impact of these mutations in survival and chemo resistance to new therapeutic agents in LSCs, including emergent therapies against LSCs, which have not been described. In the Hospital General de Mexico, the prognosis of LAM at 5 years is only 30%. For this, it is necessary to detect mutation pattern of genes that may contribute to AML development or prognosis in Mexican patients of the Hospital General de México.

Somatic mutations have been identified recently that codify for isocitrate dehydrogenase (IDH). These genes codify key metabolic enzymes, which convert isocitrate into α-ketoglutarate (α-KG).15-16From which IDH1 and IDH2 genes presenta high frequency of mutations in AML and other types of tumors. IDH mutations affect mainly active site residues (for example, IDH1 R132, IDH2 R140 or IDH2 R172), resulting in the normal enzymatic function loss abnormally converting α-KG to 2-hydroxiglutarate (2-HG).

"Oncometabolyte" 2-HG may competitively inhibit multiple α-KG depending dioxygenases, including key epigenetic regulators as histones demethylases and TET proteins. Consequently, IDH mutations are associated with chromatin alterations including global alteration of histones and NDA methylation. This is the reason of the need to identify such mutations of genes (IDH1/IDH2) in patients with SMD and AML entering Hematology service of the Hospital General de Mexico from 2017 to 2019, and determine clinical impact in prognosis and monitoring the response to therapy, as well as prognosis and survival.. ;

Study Design

Related Conditions & MeSH terms

Clinical Trial Details

NCT number	NCT03204838
Study type	Observational [Patient Registry]
Source	Hospital General de Mexico
Contact	Juan J Collazo Jaloma, phD
Phone	5527892000
Email	mtadolfo73@hgm.mx
Status	Recruiting
Phase	N/A
Start date	July 10, 2017
Completion date	May 5, 2020

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