Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
Compound
Query: UMLS:C0023418 (
leukemia
)
93,477
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
As leukemic transformation of myeloproliferative neoplasms (MPNs) worsens the clinical outcome, reducing the inherent risk of the critical event in MPN cases could be beneficial. Among genetic alterations concerning the transformation, the frequent one is TP53 mutation. Here we show that retroviral overexpression of
Jak2
V617F mutant into wild-type p53 murine bone marrow cells induced polycythemia vera (PV) in the recipient mice, whereas
Jak2
V617F-transduced p53-null mice developed lethal
leukemia
after the preceding PV phase. The leukemic mice had severe anemia, hepatosplenomegaly, pulmonary hemorrhage and expansion of dysplastic erythroid progenitors. Primitive
leukemia
cells (c-kit
+
Sca1
+
Lin
-
(KSL) and CD34
-
CD16/32
-
c-kit
+
Sca1
-
Lin
-
(megakaryocyte-erythroid progenitor; MEP)) and erythroid progenitors (CD71
+
) from
Jak2
V617F-transduced p53-null leukemic mice had
leukemia
-initiating capacity, however, myeloid differentiated populations (Mac-1
+
) could not recapitulate the disease. Interestingly, recipients transplanted with CD71
+
cells rapidly developed erythroid
leukemia
, which was in sharp contrast to leukemic KSL cells to cause lethal
leukemia
after the polycythemic state. The leukemic CD71
+
cells were more sensitive to INCB18424, a potent JAK inhibitor, than KSL cells. p53 restoration could ameliorate
Jak2
V617F-transduced p53-null erythroleukemia. Taken together, our results show that p53 loss is sufficient for inducing leukemic transformation in
Jak2
V617F-positive MPN.
...
PMID:Loss of p53 induces leukemic transformation in a murine model of Jak2 V617F-driven polycythemia vera. 2806 30
Activating JAK2 point mutations are implicated in the pathogenesis of myeloid and lymphoid malignancies, including high-risk B-cell acute lymphoblastic leukemia (B-ALL). In preclinical studies, treatment of JAK2 mutant leukemias with type I JAK2 inhibitors (e.g., Food and Drug Administration [FDA]-approved ruxolitinib) provided limited single-agent responses, possibly due to paradoxical JAK2
Y1007/1008
hyperphosphorylation induced by these agents. To determine the importance of mutant JAK2 in B-ALL initiation and maintenance, we developed unique genetically engineered mouse models of B-ALL driven by overexpressed Crlf2 and mutant
Jak2
, recapitulating the genetic aberrations found in human B-ALL. While expression of mutant
Jak2
was necessary for
leukemia
induction, neither its continued expression nor enzymatic activity was required to maintain
leukemia
survival and rapid proliferation. CRLF2/JAK2 mutant B-ALLs with sustained depletion or pharmacological inhibition of JAK2 exhibited enhanced expression of c-Myc and prominent up-regulation of c-Myc target genes. Combined indirect targeting of c-Myc using the BET bromodomain inhibitor JQ1 and direct targeting of JAK2 with ruxolitinib potently killed JAK2 mutant B-ALLs.
...
PMID:JAK2 is dispensable for maintenance of JAK2 mutant B-cell acute lymphoblastic leukemias. 2990 50
Acute myeloid leukemia (AML) is a genetically heterogeneous group of oncological diseases of the hematopoietic system, which are extremely difficult to treat. The development of new targeted drugs (Hylteritinib, Venetoclax) significantly improved the survival of patients, but resistance, as well as cytotoxic anti-
leukemia
drugs, often occurs. The search for new molecular targets for the development of effective approaches for the treatment of AML is very urgent. In blast cells of patients with AML, mutations, chromosomal rearrangements, and increased expression of a number of non-mutant genes, including transcription factor genes, are detected. The transcription factor Sp 1 binds to GC-rich regions of regulatory regions of various genes and thus controls their expression. Sp1 targets include genes responsible for proliferation, cell cycle regulation, and differentiation. In many malignant diseases, a high level of Sp1 gene expression is associated with an unfavorable prognosis, therefore, Sp1 is considered as a promising therapeutic target for cancer. In this paper, we estimated the expression levels of Sp1 in various malignant tissues. Increased Sp1 expression was detected in samples obtained from patients with AML, acute lymphoblastic leukemia, Ewing sarcoma, ovarian and kidney cancer. It is also shown that Sp1 expression correlates with the expression of genes encoding cytokine receptors and growth factors (CSF1R and IL6R), intracellular kinases (CSK, SYK, PAK1, ILK, JAK2), and transcription factor LMO2. The correlation between expression levels of Sp1 and CSF1R, SYK,
Jak2
and LMO2 is also characteristic of transplanted human
leukemia
cells. We measured expression levels of Sp1, CSF1R, ILK, PAK1 in the cells of three transplantable lines of human
leukemia
and found increased levels of expression of these genes in Kasumi-1 cells. In addition, we showed that Kasumi-1 cells are most sensitive to Mitramycin, a drug that displaces Sp1 from its targets with DNA. Our data indicate the need to identify AML cells that are most sensitive to inhibition of Sp1 activity in order to assess the possibility of suppressing its activity in vivo.
...
PMID:[High Expression Level of SP1, CSF1R, and PAK1 Correlates with Sensitivity of Leukemia Cells to the Antibiotic Mithramycin]. 3249 16
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