Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.10.2 (focal adhesion kinase)
 44,029 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The loss of mismatch repair enzymes increases the mutation rate in microsatellites and coding regions of the genome and appears to be involved in drug resistance. The replication error (RER+) phenotype, associated with microsatellite instability, has been widely described for both familial and sporadic colon cancers and for gastric and endometrial tumors. For ovarian cancer, the incidence of RER+ cases among sporadic tumors is still uncertain. We analyzed epithelial ovarian tumors and ovarian carcinoma cell lines for microsatellite instability and for mutations in the coding regions of different genes, including the recently discovered human CHK-1 gene, which has an important role in controlling cell cycle progression and whose coding region contains a poly(A)9 tract. Microsatellite instability and frameshift mutations in coding regions of BAX, TGFbetaRII, IGFIIR, E2F-4, ICE, and CHK-1 genes were analyzed in ovarian cancer samples and cell lines by polymerase chain reaction (PCR). Approximately 26% of patients showed microsatellite instability in two or more loci. BAT-26 locus showed no alteration in primary tumors. We detected a BAX mutation in one tumor sample and a TGFbetaRII mutation in one cell line. Our findings confirm the presence of the RER+ phenotype in sporadic ovarian cancer. The low rate of mutation in genes previously reported to be altered in colon and gastric cancer suggests that other not yet identified genes might be altered and could play a role in tumor progression and response to treatment in RER+ ovarian tumors.
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PMID:Microsatellite instability and frameshift mutations in genes involved in cell cycle progression or apoptosis in ovarian cancer. 1075 43

Little is understood about the basic biological mechanisms that underlie the reasons for acute transformation in chronic myeloid leukemia (CML). Progression of disease may include inactivation of one or more tumor suppressor genes (TSGs). A widely used methodology for indirectly detecting somatic inactivation of TSGs is searching loss of heterozygosity (LOH) for polymorphic loci located in or near the gene(s) of interest. We aimed to analyze DNA of chronic phase and blastic phase archive material of 15 CML patients for LOH using D1S430, D2S123, D3S1611, D11S29, D14S65, D17S520, BAT 40 markers, the dinucleotide repeat located in the ABL gene and the trinucleotide repeat located in the BCR gene (amplification of the trinucleotide in the BCR gene could not be succeeded). LOH was identified by a %50 lost of one of the alleles intensity. LOH was detected with the ABL dinucleotide repeat and D2S123 marker in two patients and with the D14S65 marker in three patients. The three patients exhibiting LOH at the D14S65 locus, all proceeded through lymphoid blast crisis. The D14S65 marker is located at the 14q32 locus which contains the immunoglobulin heavy chain gene and the TCL1 oncogene. 14q32 abnormalities at the molecular level, may be predictive for lymphoid blast crisis, whether or not they are detectable cytogenetically.
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PMID:Consistent loss of heterozygosity at 14Q32 in lymphoid blast crisis of chronic myeloid leukemia. 1134 19

Polycythemia vera (PV) is characterized by erythropoiesis and JAK2-activating mutations, with increased risks of morbidity and mortality. Most patients with PV are iron deficient, and treatment often includes hematocrit control with phlebotomy, which may exacerbate iron deficiency-associated complications. The phase 3 RESPONSE trial evaluated the JAK1/JAK2 inhibitor ruxolitinib (n=110) versus best available therapy (BAT; n=112) in patients with PV who were hydroxyurea-resistant/intolerant. Ruxolitinib was superior to BAT for hematocrit control, reduction in splenomegaly, and blood count normalization. This exploratory analysis, the first to evaluate iron status in a prospective study of patients with PV, investigated ruxolitinib effects on 7 serum iron markers and iron deficiency-related patient-reported outcomes (PRO). Among patients with evidence of baseline iron deficiency, ruxolitinib was associated with normalization of iron marker levels, compared with lesser improvement with BAT. Iron levels remained stable in ruxolitinib patients with normal iron levels at baseline. Regardless of baseline iron status, treatment with ruxolitinib was associated with improvements in concentration problems, cognitive function, dizziness, fatigue, headaches, and inactivity, although improvements were generally greater among patients with baseline iron deficiency. The improvements in iron deficiency markers and PROs observed with ruxolitinib are suggestive of clinical benefits that warrant further exploration.
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PMID:Markers of iron deficiency in patients with polycythemia vera receiving ruxolitinib or best available therapy. 2819 68