Acute Myeloid Leukemia Clinical Trial
Official title:
Prevalence, Correlation With Other Mutant Genes and Clinical Effect of IDH1/2 Mutations in Patients With Acute Myeloid Leukemia. The European IDH Research Alliance
Among the most notable cancer genome-wide sequencing discoveries in recent years was the
finding of mutation hot-spots in the isocitrate dehydrogenase (IDH) genes in grade II/III
astrocytomas and oligodendrogliomas and in secondary glioblastomas. This was rapidly followed
by identification of recurrent IDH1/2 mutations in myeloid neoplasms (MN), including acute
myeloid leukemia (AML). Mutant IDH is now a therapeutic target of great interest in cancer
research, especially in AML, given the limitations of current approved therapies and the
encouraging early clinical data demonstrating proof of concept for investigational mutant
IDH1/2 inhibitors.
The origin of mutations in AML was explored by investigating the clonal evolution of genomes
sequenced from patients with M1- or M3-AML and comparing them with hematopoietic
stem/progenitor cells (HSPCs) from healthy volunteers. Six genes were found to have
statistically higher mutation frequencies in M1 versus M3 genomes (NPM1, DNMT3A, IDH1, IDH2,
TET2 and ASXL1), suggesting they are initiating rather than cooperating events. Prospective
evaluation of serial 2- HG levels during treatment of newly diagnosed AML treated with
standard chemotherapy revealed that both 2-HG level and mutated IDH allele burden decreased
with response to treatment but began to rise again as therapy failed.
The prognostic impact of IDH mutations in AML is under continued investigation and varies
across studies. In this research project authors aim a) to define the prevalence and type of
IDH1/2 mutations in AML patients; b) to define relationships between IDH1/2 mutations and
other oncogenic mutations in AML, as well as to describe clonal evolution of the disease and
c) to describe the clinical outcome of IDH1/2 mutated patients with AML treated with
currently available treatments.
Among the most notable cancer genome-wide sequencing discoveries in recent years was the
finding of mutation hot-spots in the isocitrate dehydrogenase (IDH) genes in grade II/III
astrocytomas and oligodendrogliomas and in secondary glioblastomas. This was rapidly followed
by identification of recurrent IDH1/2 mutations in myeloid neoplasms (MN), including acute
myeloid leukemia (AML), myelodysplastic syndromes (MDS) and myeloproliferative neoplasms
(MPN).
Mutant IDH is now a therapeutic target of great interest in cancer research, especially in
AML, given the limitations of current approved therapies and the encouraging early clinical
data demonstrating proof of concept for investigational mutant IDH1/2 inhibitors.
There is evidence to suggest that IDH mutations may cooperate with other mutations to
initiate and drive oncogenesis in myeloid malignancies. High levels of 2-hydroxyglutarate
(2-HG, as a result of gene mutation) have been shown to inhibit αKG-dependent dioxygenases
including histone and DNA demethylases, proteins that regulate cellular epigenetic status.
Consistent with 2-HG promoting cancer via an effect on chromatin structure, tumors harboring
IDH mutations display a CpG island methylator phenotype. More recent studies have shown that
overexpression of mutant IDH enzymes can induce histone and DNA hypermethylation, as well as
block cellular differentiation. Together, these data suggest that cancer-associated IDH
mutations can induce a block in cellular differentiation through epigenetic modifications,
which contributes to tumor initiation and progression, and thus support the clinical
evaluation of agents targeted to mutant IDH
The origin of mutations in AML was explored by investigating the clonal evolution of genomes
sequenced from patients with M1- or M3-AML and comparing them with hematopoietic
stem/progenitor cells (HSPCs) from healthy volunteers. Six genes were found to have
statistically higher mutation frequencies in M1 versus M3 genomes (NPM1, DNMT3A, IDH1, IDH2,
TET2 and ASXL1), suggesting they are initiating rather than cooperating events. Furthermore,
all of these genes have been shown to play a role in chromatin modification, suggesting that
epigenetic alterations may function to initiate tumorigenesis.
Prospective evaluation of serial 2-HG levels during treatment of newly diagnosed AML treated
with standard chemotherapy revealed that both 2-HG level and mutated IDH allele burden
decreased with response to treatment but began to rise again as therapy failed.
The prognostic impact of IDH mutations in AML is under continued investigation and varies
across studies
In this research project, the authors aim:
1. To define the prevalence and type of IDH1/2 mutations in acute myeloid leukemias.
2. To define genotype-phenotype relationship in IDH1/2 mutated patients.
3. To define relationships between IDH1/2 mutations and other oncogenic mutations in AML,
as well as to describe clonal evolution of the disease (including the evaluation of
genotype at disease relapse).
4. To describe the clinical outcome of IDH1/2 mutated patients with AML treated with
currently available treatments.
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