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61.
Cas spleen focus-forming virus. II. Further biological and biochemical characterization. 总被引:1,自引:0,他引:1
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W Y Langdon S K Ruscetti J E Silver W D Hankins C E Buckler H C Morse rd 《Journal of virology》1983,47(2):329-336
A new isolate of a murine erythroblastosis-inducing spleen focus-forming virus (Cas SFFV), derived from the wild mouse ecotropic murine leukemia virus Cas-Br-M, was further characterized after the production of a nonproducer cell line. When rescued from the nonproducer cells with a helper murine leukemia virus, the Cas SFFV induced rapid splenic enlargement and focus formation when inoculated into adult NFS/N mice. The Cas SFFV nonproducer cell line was also utilized to compare the envelope-related glycoprotein of Cas SFFV with gp52s from three strains of Friend SFFV. Cas SFFV was found to encode a 50,500-dalton glycoprotein (gp50) distinct in size to the envelope-related glycoproteins of the Friend SFFVs. The Cas SFFV was also compared in RNA blot hybridization studies. The genomic viral RNA of Cas SFFV was found to be slightly larger than two polycythemia-inducing strains of Friend SFFV and markedly larger than the anemia-inducing strain. Further comparisons between the SFFVs were made by examining their transforming capabilities in an in vitro erythroid burst assay. The erythroid bursts induced by Cas SFFV and the anemia-inducing strain of Friend SFFV showed similarities in their erythropoietin requirements. This study supports our recent observations that Cas SFFV is biologically similar to the anemia-inducing strain of Friend SFFV yet biochemically distinct from all Friend SFFVs. 相似文献
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Gill succinic dehydrogenase and Na+ -K+ ATPase activities were stimulated by salt water transfer in parr and smolt. Both activities were preferentially located in the chloride cells. Salt water adaptation induced proliferation and enlargement of the chloride cells. Hypertrophy of the chloride cell system occurred in parr adapted to salt water. 相似文献
66.
Tumour induction by activated abl involves tyrosine phosphorylation of the product of the cbl oncogene. 总被引:20,自引:0,他引:20
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v-cbl is the transforming gene of a murine retrovirus which induces pre-B cell lymphomas and myelogenous leukaemias. It encodes 40 kDa of a gag fusion protein which is localized in the cytoplasm and nucleus of infected cells. The c-cbl oncogene encodes a 120 kDa cytoplasmic protein and its overexpression is not associated with tumorigenesis. The c-cbl sequence has shown that v-cbl was generated by a truncation that removed 60% of the C-terminus. In this study, we carried out experiments to identify the position within cbl where the transition occurs between non-tumorigenic and tumorigenic forms. These experiments focused attention on a region of 17 amino acids which is deleted from cbl in the 70Z/3 pre-B lymphoma due to a splice acceptor site mutation. This mutation activates cbl's tumorigenic potential and induces its tyrosine phosphorylation. We also show that the expression of the v-abl and bcr-abl oncogenes results in the induction of cbl tyrosine phosphorylation, and that abl and cbl associate in vivo. These findings demonstrate that tyrosine-phosphorylated cbl promotes tumorigenesis and that cbl is a downstream target of the bcr-abl and v-abl kinases. 相似文献
67.
In mammals, the bifunctional protein UMP synthase contains the final two enzymatic activities, orotate phosphoribosyltransferase and orotidine-5'-monophosphate decarboxylase (ODCase), for de novo biosynthesis of UMP. The plasmid pMEJ contains a cDNA for the ODCase domain of mouse Ehrlich ascites UMP synthase. The cDNA from pMEJ was joined to the Saccharomyces cerevisiae iso-1-cytochrome c (CYC1) promoter and the first four CYC1 coding nucleotides in the plasmid pODCcyc. ODCase-deficient yeast cells (HF200x1) transformed with pODCcyc expressed an active ODCase domain with a specific activity of 20 nmol/min/mg in cell extracts. The expressed ODCase domain has a lower affinity for the substrate orotidine 5'-monophosphate and the inhibitor 6-azauridine 5'-monophosphate than intact UMP synthase or an ODCase domain isolated after proteolysis of homogenous UMP synthase. Sucrose density gradient sedimentation experiments showed that the expressed ODCase domain forms a dimer in the presence of ligands which bind at the catalytic site. These studies support the existence of an ODCase structural domain which contains the ODCase catalytic site and a dimerization surface of UMP synthase, but the domain may not have the regulatory site required to form the altered dimer form. 相似文献
68.
Systems biology approaches that combine experimental data and theoretical modelling to understand cellular signalling network dynamics offer a useful platform to investigate the mechanisms of resistance to drug interventions and to identify combination drug treatments. Extending our work on modelling the PI3K/PTEN/AKT signalling network (SN), we analyse the sensitivity of the SN output signal, phospho-AKT, to inhibition of HER2 receptor. We model typical aberrations in this SN identified in cancer development and drug resistance: loss of PTEN activity, PI3K and AKT mutations, HER2 overexpression, and overproduction of GSK3β and CK2 kinases controlling PTEN phosphorylation. We show that HER2 inhibition by the monoclonal antibody pertuzumab increases SN sensitivity, both to external signals and to changes in kinetic parameters of the proteins and their expression levels induced by mutations in the SN. This increase in sensitivity arises from the transition of SN functioning from saturation to non-saturation mode in response to HER2 inhibition. PTEN loss or PIK3CA mutation causes resistance to anti-HER2 inhibitor and leads to the restoration of saturation mode in SN functioning with a consequent decrease in SN sensitivity. We suggest that a drug-induced increase in SN sensitivity to internal perturbations, and specifically mutations, causes SN fragility. In particular, the SN is vulnerable to mutations that compensate for drug action and this may result in a sensitivity-to-resistance transition. The combination of HER2 and PI3K inhibition does not sensitise the SN to internal perturbations (mutations) in the PI3K/PTEN/AKT pathway: this combination treatment provides both synergetic inhibition and may prevent the SN from acquired mutations causing drug resistance. Through combination inhibition treatments, we studied the impact of upstream and downstream interventions to suppress resistance to the HER2 inhibitor in the SN with PTEN loss. Comparison of experimental results of PI3K inhibition in the PTEN upstream pathway with PDK1 inhibition in the PTEN downstream pathway shows that upstream inhibition abrogates resistance to pertuzumab more effectively than downstream inhibition. This difference in inhibition effect arises from the compensatory mechanism of an activation loop induced in the downstream pathway by PTEN loss. We highlight that drug target identification for combination anti-cancer therapy needs to account for the mutation effects on the upstream and downstream pathways. 相似文献
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Grossmann AH Kolibaba KS Willis SG Corbin AS Langdon WS Deininger MW Druker BJ 《FEBS letters》2004,577(3):555-562
Catalytic (SH1) domains of protein tyrosine kinases (PTKs) demonstrate specificity for peptide substrates. Whether SH1 domains differentiate between tyrosines in a physiological substrate has not been confirmed. Using purified proteins, we studied the ability of Syk, Fyn, and Abl to differentiate between tyrosines in a common PTK substrate, c-Cbl. We found that each kinase produced a distinct pattern of c-Cbl phosphorylation, which altered the phosphotyrosine-dependent interactions between c-Cbl and CrkL or phosphatidylinositol 3'-kinase (PI3-K). Our data support the concept that SH1 domains determine the final sites of phosphorylation once PTKs reach their target proteins. 相似文献