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Query: UMLS:C0023418 (
leukemia
)
93,477
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
RUNX1 (AML1, CBFA2) is mutated in affected members of families with autosomal dominant thrombocytopenia and platelet dense granule storage pool deficiency. Many of those affected, usually by point mutations in one allele, are predisposed to the development of acute myeloid leukemia (AML) in adult life. The
RUNX1 protein
complexes with core binding factor beta (CBFB) to form a heterodimeric core binding transcription factor (CBF) that regulates many genes important in hematopoiesis. RUNX1 was first identified as the gene on chromosome 21 that is rearranged by the translocation t(8;21)(q22;q22.12) recurrently found in the leukemic cells of patients with AML. In addition to the t(8;21), RUNX1 is rearranged with one of several partner genes on other chromosomes by somatically acquired translocations associated with hematological malignancies. Point mutations of RUNX1 are also found in sporadic leukemias to reinforce the important position of this gene on the multi-step path to
leukemia
. In animal models, at least one functional copy of RUNX1 is required to effect definitive embryonic hematopoiesis. Cells expressing dominant-negative mutants of RUNX1 are readily immortalized and transformed, and those RUNX1 mutants which retain CBFB binding ability may possess dominant-negative function. However, in some families there is transmitted one mutated allele of RUNX1 with no dominant-negative function, demonstrating that simple haploinsufficiency of RUNX1 predisposes to AML and also causes a generalized hematopoietic stem cell disorder most recognizable as thrombocytopenia.
...
PMID:Familial mutations of the transcription factor RUNX1 (AML1, CBFA2) predispose to acute myeloid leukemia. 1506 Nov 91
The RUNX1 gene is frequently rearranged in acute leukemia. We cloned a novel RUNX1 chimeric gene generated by t(7;21)(q11.2;q22) in a patient with acute myeloid leukemia. 3'-rapid amplification of cDNA ends analysis showed a tail-to-tail fusion between RUNX1 on 21q22 and DTX2 on 7q11.2, with an insertion of short complementary sequence from UPK3B adjacent to DTX2. DTX2 encodes a putative E3-ubiquitin ligase with no known biological function. There are two possible functions of RUNX1-reversed UPK3B-DTX2: one from aberrant RUNX1 chimeric protein and the other from the reversed sequence of DTX2. The predicted aberrant protein expressed under the RUNX1 promoter was highly structurally similar to RUNX1a. In a reporter assay, the aberrant protein inhibited the trans-activation function of RUNX1 in a dominant-negative manner, similar to RUNX1a. In contrast, the DTX2 reversed sequence may degrade wild-type DTX2 transcript or suppress its translation. In conclusion, we identified a novel fusion RUNX1 partner, DTX2, which chimerize in a reverse direction. This is the first example of RUNX1 chimera in an opposing direction generated by chromosomal translocation in
leukemia
. In addition to the aberrantly truncated
RUNX1 protein
, the DTX2 antisense sequence may play some role in the development of
leukemia
carrying the t(7;21) translocation.
...
PMID:Acute myeloid leukemia with t(7;21)(q11.2;q22) expresses a novel, reversed-sequence RUNX1-DTX2 chimera. 2266 Oct 44
The Mixed Lineage
Leukemia
(MLL) protein is an important epigenetic regulator required for the maintenance of gene activation during development. MLL chromosomal translocations produce novel fusion proteins that cause aggressive leukemias in humans. Individual MLL fusion proteins have distinct leukemic phenotypes even when expressed in the same cell type, but how this distinction is delineated on a molecular level is poorly understood. Here, we highlight a unique molecular mechanism whereby the RUNX1 gene is directly activated by MLL-AF4 and the
RUNX1 protein
interacts with the product of the reciprocal AF4-MLL translocation. These results support a mechanism of transformation whereby two oncogenic fusion proteins cooperate by activating a target gene and then modulating the function of its downstream product.
...
PMID:RUNX1 is a key target in t(4;11) leukemias that contributes to gene activation through an AF4-MLL complex interaction. 2335 61
Deleterious mutations in the
RUNX1
gene cause hereditary
leukemia
due to a rare syndrome called Familial platelet Disorder with Associated Myeloid Malignancy (FPDMM). We describe the characteristics of a family with FPDMM due to a novel RUNX1 mutation (L472X), located in the most 3-prime end of the gene reported to date. Our 36-year old proband presented with incidentally detected thrombocytopenia and a family history suggestive of FPDMM. Contrary to previously described families, affected members of our kindred express an eczematous phenotype, reportedly most severe in members who develop
leukemia
. Pedigree analysis shows that the L472X mutation tracks with thrombocytopenia, acute leukemia, and eczema. The L472X mutation produces a stably expressed
RUNX1 protein
product with a corresponding decrease in wild type RUNX1 expression. Our data supports the inclusion of eczema in the FPDMM phenotype and suggests the possibility that the RUNX1 L472X mutant causes the type of dominant negative affect that is associated with an elevated risk of
leukemia
in FPDMM families.
...
PMID:Hereditary leukemia due to rare RUNX1c splice variant (L472X) presents with eczematous phenotype. 2435 5
The RUNX1 transcription factor is widely recognised for its tumour suppressor effects in
leukaemia
. Recently a putative link to breast cancer has started to emerge, however the function of RUNX1 in breast cancer is still unknown. To investigate if RUNX1 expression was important to clinical outcome in primary breast tumours a tissue microarray (TMA) containing biopsies from 483 patients with primary operable invasive ductal breast cancer was stained by immunohistochemistry. RUNX1 was associated with progesterone receptor (PR)-positive tumours (P<0.05), more tumour CD4+(P<0.05) and CD8+(P<0.01) T-lymphocytic infiltrate, increased tumour CD138+plasma cell (P<0.01) and more CD68+macrophage infiltrate (P<0.001). RUNX1 expression did not influence outcome of oestrogen receptor (ER)-positive or HER2-positive disease, however on univariate analysis a high
RUNX1 protein
was significantly associated with poorer cancer-specific survival in patients with ER-negative (P<0.05) and with triple negative (TN) invasive breast cancer (P<0.05). Furthermore, multivariate Cox regression analysis of cancer-specific survival showed a trend towards significance in ER-negative patients (P<0.1) and was significant in triple negative patients (P<0.05). Of relevance, triple negative breast cancer currently lacks good biomarkers and patients with this subtype do not benefit from the option of targeted therapy unlike patients with ER-positive or HER2-positive disease. Using multivariate analysis RUNX1 was identified as an independent prognostic marker in the triple negative subgroup. Overall, our study identifies RUNX1 as a new prognostic indicator correlating with poor prognosis specifically in the triple negative subtype of human breast cancer.
...
PMID:Expression of RUNX1 correlates with poor patient prognosis in triple negative breast cancer. 2496 88
