Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.1.1 (hexokinase)
 5,274 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We recently reported that tyrphostin 23 (3,4-dihydroxybenzylidene malononitrile) is unstable in solution and that some of the degradation products are better inhibitors of the tyrosine kinase activity of Src and the EGF-receptor kinase than the parent compound itself (Ramdas et al., Cancer Res. 54, 867-868, 1994). In this study, the tyrphostin 23-derived compound designated P3, which is a more stable and potent protein tyrosine kinase inhibitor, was isolated. P3 was purified from oxidized tyrphostin 23 by solvent extraction, silica-gel flash chromatography, and reverse-phase high-pressure liquid chromatography. The physical characteristics of the isolated compound were determined and its chemical structure elucidated by 1H and 13C NMR spectroscopy. The proposed structure of this new inhibitor is that of a tyrphostin 23 dimer joined at the benzylidene carbon. P3 was evaluated in vitro as an inhibitor of four different protein tyrosine kinases (Src, Csk, EGF-receptor, and FGF-receptor) and two protein serine kinases (PK-A and PK-C). This compound exhibited the most inhibitory activity against Src with a Ki value of 6 microM and was less inhibitory toward the other protein kinases with Ki values ranging from 35 to 300 microM. P3 did not inhibit other nucleotide-utilizing enzymes such as lactate dehydrogenase and hexokinase. The growth and colony formation of HT-29 colon adenocarcinoma cells that contain activated Src was inhibited by P3 with an IC50 value of approximately 10 microM.
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PMID:A tyrphostin-derived inhibitor of protein tyrosine kinases: isolation and characterization. 748 83

Heparin-binding epidermal growth factor -like growth factor (HB-EGF) expression and hexokinase (HK) activity are increased in various pathologic renal conditions. Although the mitogenic properties of HB-EGF have been well characterized, its effects on glucose (Glc) metabolism have not. We therefore examined the possibility that HB-EGF might regulate HK activity and expression in glomerular mesangial cells, which constitute the principal renal cell type affected by a variety of pathologic conditions. Protein kinase C (PKC)-dependent classic mitogen-activated protein kinase (MAPK) pathway activation has been associated with increased HK activity in this cell type, so we also examined dependence upon these signaling intermediates. HB-EGF (> or =10 nm) increased total HK activity over 50% within 12-24 h, an effect mimicked by other EGF receptor agonists, but not by IGF-1 or elevated Glc. EGF receptor and classic MAPK pathway antagonists prevented this increase, as did general inhibitors of gene transcription and protein synthesis. Both HB-EGF and phorbol esters activated the classic MAPK pathway, albeit via PKC-independent and PKC-dependent mechanisms, respectively. Both stimuli were associated with increased HK activity, selectively increased HKII isoform expression, and increased Glc metabolism via both the glycolytic-tricarboxylic acid cycle route and the pentose phosphate pathway. HB-EGF thus constitutes a novel regulator of mesangial cell HK activity and Glc metabolism. HKII is the principal regulated isoform in these cells, as it is in insulin-sensitive peripheral tissues, such as muscle. However, the uniform requirement for classic MAPK pathway activation distinguishes HKII regulation in mesangial cells from that observed in muscle. These findings suggest a novel mechanism whereby growth factors may couple metabolism to glomerular injury.
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PMID:Regulation of mesangial cell hexokinase activity and expression by heparin-binding epidermal growth factor-like growth factor: epidermal growth factors and phorbol esters increase glucose metabolism via a common mechanism involving classic mitogen-activated protein kinase pathway activation and induction of hexokinase II expression. 1178 86

The EGF-transgenic mouse is a genetic model of hepatocellular carcinoma that allows for a comprehensive study of signal pathways, molecular interactions and the evaluation of novel therapeutic concepts. In this regard, non-invasive imaging tools for serial in-vivo monitoring of tumor load and growth are highly desirable. This study therefore aimed at demonstrating the feasibility of non-invasive in-vivo imaging of primary liver malignancies in mice using combined contrast-enhanced microCT and F-18 FDG microPET. In our murine disease model, microCT enabled imaging of primary liver tumors down to a lesional diameter of 0.9 mm. F-18 FDG tumor-to-non-tumor ratio of HCCs was observed to be dependent on lesion size and linked to overpression of glucose transporters and hexokinase isoenzymes as determined by gene expression studies. Histopathologic analyses indicated an increased cellular dedifferentiation with increase lesion size, as well.
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PMID:Combined microPET/CT for imaging of hepatocellular carcinoma in mice. 1927 93