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Yun TJ Harning EK Giza K Rabah D Li P Arndt JW Luchetti D Biamonte MA Shi J Lundgren K Manning A Kehry MR 《Journal of immunology (Baltimore, Md. : 1950)》2011,186(1):563-575
Heat shock protein 90 (Hsp90) is a molecular chaperone involved in folding and stabilizing multiple intracellular proteins that have roles in cell activation and proliferation. Many Hsp90 client proteins in tumor cells are mutated or overexpressed oncogenic proteins driving cancer cell growth, leading to the acceptance of Hsp90 as a potential therapeutic target for cancer. Because several signal transduction molecules that are dependent on Hsp90 function are also involved in activation of innate and adaptive cells of the immune system, we investigated the mechanism by which inhibiting Hsp90 leads to therapeutic efficacy in rodent models of inflammation and autoimmunity. EC144, a synthetic Hsp90 inhibitor, blocked LPS-induced TLR4 signaling in RAW 264.7 cells by inhibiting activation of ERK1/2, MEK1/2, JNK, and p38 MAPK but not NF-κB. Ex vivo LPS-stimulated CD11b(+) peritoneal exudate cells from EC144-treated mice were blocked from phosphorylating tumor progression locus 2, MEK1/2, and ERK1/2. Consequently, EC144-treated mice were resistant to LPS administration and had suppressed systemic TNF-α release. Inhibiting Hsp90 also blocked in vitro CD4(+) T cell proliferation in mouse and human MLRs. In vivo, semitherapeutic administration of EC144 blocked disease development in rat collagen-induced arthritis by suppressing the inflammatory response. In a mouse collagen-induced arthritis model, EC144 also suppressed disease development, which correlated with a suppressed Ag-specific Ab response and a block in activation of Ag-specific CD4(+) T cells. Our results describe mechanisms by which blocking Hsp90 function may be applicable to treatment of autoimmune diseases involving inflammation and activation of the adaptive immune response. 相似文献
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Goldfarb M Schoorlemmer J Williams A Diwakar S Wang Q Huang X Giza J Tchetchik D Kelley K Vega A Matthews G Rossi P Ornitz DM D'Angelo E 《Neuron》2007,55(3):449-463
Neurons integrate and encode complex synaptic inputs into action potential outputs through a process termed "intrinsic excitability." Here, we report the essential contribution of fibroblast growth factor homologous factors (FHFs), a family of voltage-gated sodium channel binding proteins, to this process. Fhf1-/-Fhf4-/- mice suffer from severe ataxia and other neurological deficits. In mouse cerebellar slice recordings, WT granule neurons can be induced to fire action potentials repetitively (approximately 60 Hz), whereas Fhf1-/-Fhf4-/- neurons often fire only once and at an elevated voltage spike threshold. Sodium channels in Fhf1-/-Fhf4-/- granule neurons inactivate at more negative membrane potential, inactivate more rapidly, and are slower to recover from the inactivated state. Altered sodium channel physiology is sufficient to explain excitation deficits, as tested in a granule cell computer model. These findings offer a physiological mechanism underlying human spinocerebellar ataxia induced by Fhf4 mutation and suggest a broad role for FHFs in the control of excitability throughout the CNS. 相似文献
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Region- and strand-specific mutagensis of a recombinant plasmid 总被引:9,自引:0,他引:9
Techniques were developed to mutagenize a single DNA strand in a specific region of the tetracycline-resistance (tetr) gene of the plasmid pKB280 that also carries the lambda repressor gene. Separate annealings of complementary single strands gave two isomeric, circular plasmids containing a 275-nucleotide, single-stranded region (gap) in the tetr gene. One of the isomeric, gapped plasmids was mutagenized specifically with sodium bisulfite such that an estimated 98% of the molecules had suffered at least one C to U conversion in the gap. The mutagenized gap was filled in with DNA polymerase. These molecules transformed Escherichia coli strain MM294 to lambda-immunity with the same frequency as unmutagenized, gap-filled pKB280. Of the lambda-immune transformants, 32% were Tcr and 68% were Tcs. Restriction analysis of plasmids from some Tcs transformants showed losses of restriction sites within the gap and at the gap termini, but none outside the gap. No deletions were detected. 相似文献
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