Plant cell walls constitute the bulk of the earth renewable source of energy and are a component in the diet of humans and herbivores. l-Arabinofuranosyl (Araf) residues are a quantifiably important constituent of these walls. Plants use uridine diphosphate (UDP)-l-arabinofuranose (UDP-Araf) to donate Araf residues in the biosynthesis of Araf-containing polysaccharides, proteoglycans, and glycoproteins. However, little is known about the formation of UDP-Araf. We now describe the purification and partial characterization of a rice UDP-arabinopyranose mutase (UAM) that catalyzes the formation of UDP-Araf from UDP-arabinopyranose (UDP-Arap). The reaction is reversible and at thermodynamic equilibrium the pyranose form is favored over the furanose form (90 : 10). Three related proteins that are encoded by rice gene loci Os03g40270, Os04g56520, and Os07g41360 were identified from partial amino acid sequences of UAM. These proteins have >80% sequence identity with polypeptides that are reversibly glycosylated in the presence of UDP-sugars. The rice mutase and two functionally active recombinant mutases were shown to be reversibly glycosylated in the presence of UDP-Glc. The cofactor, flavin-adenine-dinucleotide (FAD), is required for the catalytic activity of UDP-galactose mutases of prokaryotes, fungi, and protozoa. The plant mutases, which do not require a cofactor, must therefore have a different catalytic mechanism. Putative UAM-encoding genes are present in the green algae Chlamydomonas reinhardtii, the moss Physcomitrella patens, the gymnosperm Pinus taeda (loblolly pine), and in numerous dicots and monocots, indicating that UAMs are widespread in green plants.
Homeobox-containing genes are expressed in spatiotemporal fashion during embryogenesis and act as master transcription-regulating factors which control the expression of a variety of genes involved in morphogenesis. They are also expressed in a tissue-specific manner in normal adult tissues and appear to give cells spatial information in the maintenance of their architectural integrity. We transfected a HOXD3 class I homeobox-containing gene into human lung cancer A549 cells and investigated alterations in gene expressions and phenotypes related to the maintenance of tissue architecture in HOXD3-overexpressing A549 cells. In the HOXD3-overexpressing cell lines, expression of E-cadherin was lost and plakoglobin was strongly repressed, whereas integrin ␣3 and 3 were up-regulated and N-cadherin and integrin ␣4 were newly expressed. Compared with parental and control transfectant lines, the HOXD3-overexpressing cell lines showed highly motile and invasive activity. Blocking experiments using anti-integrin 1 and 3 suggested that the increased haptotaxis of the HOXD3-overexpressing cells to vitronectin resulted from increased expression and activation of integrin ␣v3, and that overexpression of the HOXD3 gene converted the integrin 1-dependent haptotaxis to fibronectin into both integrin 1-and 3-dependent one. HOXD3 overexpression increased production of matrix-degrative enzymes including matrix metalloproteinase-2 and urokinase-plasminogen activator. When the tumor cells were intravenously injected into the tail veins of nude mice, HOXD3 transfectants formed a significantly large number of metastatic foci in lungs compared with the control transfectants. These findings suggest that HOXD3 can act as a metastasis-promoting gene in human lung cancer A549 cells.
This multi-institutional study revealed that elevated pre-NLR was significantly associated with worse pathological features such as tumor grade 3, advanced pT stage, positive LVI, and lymph node involvement in RNU specimens, and elevated pre-NLR was an independent risk factor of disease recurrence and cancer-specific mortality in UTUC patients treated with RNU.
Purpose: Vasohibin-1 (VASH1) is a novel angiogenic molecule that is specifically expressed in activated vascular endothelial cells, and the status of VASH1 expression has been documented in cancer angiogenesis. The aim of this study was to address the prognostic value of VASH1 expression in upper urinary tract urothelial carcinomas (UTUC).Experimental Design: We retrospectively analyzed the clinical records of 171 patients with locally advanced UTUC (Ta-3N0M0). The median follow-up period was 3.8 years. We immunohistochemically examined the accomplished microvessels with anti-CD34 as microvessel density (MVD) and the microvessels with activated endothelial cells as VASH1 density. Then, we analyzed the association between immunohistochemical expression and clinical outcomes.Results: Forty-two patients experienced tumor recurrence and of these 34 died of the disease during follow-up. VASH1 density was significantly associated with tumor grade, pathologic T stage, and MVD. The 5-year recurrence-free and cancer-specific survival rates were 66.1% and 72.8% in patients with VASH1 density (! 40/mm 2 ) and 81.0% and 86.5% in their counterparts, respectively (P < 0.05). MVD was not an independent predictor of tumor recurrence or cancer-specific survival. Multivariate analyses revealed that high VASH1 density was an independent prognostic indicator of both tumor recurrence (P ¼ 0.024, HR ¼ 2.10) and cancer-specific survival (P ¼ 0.031, HR ¼ 2.23) as well as other standard prognostic factors including high tumor grade and lymphovascular invasion. Conclusions: VASH1 density represents a clinically relevant predictor of patient prognosis in UTUC. The results suggest that VASH1 density could become a new biomarker and provide additional prognostic information in patients with UTUC. Clin Cancer Res; 18(15); 4145-53. Ó2012 AACR.
Results suggest that inhibition of the PI3K/Akt/mTOR signaling pathway by NVP-BEZ235 can overcome docetaxel resistance in human castration resistant prostate cancer. Our findings provide a molecular basis for the clinical use of combined administration of NVP-BEZ235 and docetaxel in patients with castration resistant prostate cancer.
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