172 resultados para eCK
Resumo:
EphA2, also known as ECK (epithelial cell kinase), is a transmembrane receptor tyrosine kinase that is commonly over-expressed in cancers such as those of the prostate, colon, lung, and breast. For breast cancers, EphA2 overexpression is most prominent in the ER-negative subtype, and is associated with a higher rate of lung metastasis. Studies conducted to demonstrate the role of EphA2 in a non-cancerous environment have shown that it is very important in developmental processes, but not in normal adult tissues. These results make EphA2 a prospective therapeutic target since new therapies are needed for the more aggressive ER-negative breast cancers. A panel of breast cancer cell lines was screened for expression of EphA2 by immunoblotting. Several of the overexpressing cell lines, including BT549, MDA-MB-231, and HCC 1954 were selected for experiments utilizing siRNA for transient knockdown and shRNA for stable knockdown. Targeted knockdown of EphA2 was measured using RT-PCR and immunoblotting techniques. Here, the functions of EphA2 in the process of metastasis have been elucidated using in vitro assays that indicate cancer cell metastatic potential and in vivo studies that reveal the effect of EphA2 on mammary fat pad tumor growth, vessel formation, and the effect of using EphA2-targeting siRNA on pre-established mammary fat pad tumors. A decrease in EphA2 expression both in vitro and in vivo correlated with reduced migration and experimental metastasis of breast cancer cells. Current work is being done to investigate the mechanism behind EphA2’s participation in some of these processes. These studies are important because they have contributed to understanding the role that EphA2 plays in the progression of breast cancers to a metastatic state.
Resumo:
The porcine reproductive and respiratory syndrome virus (PRRSV) is a rapidly evolving and diversifying pathogen necessitating the development of improved vaccines. Immunity to PRRSV is not well understood although there are data suggesting that virus-specific T cell IFN-γ responses play an important role. We therefore aimed to better characterise the T cell response to genotype 1 (European) PRRSV by utilising a synthetic peptide library spanning the entire proteome and a small cohort of pigs rendered immune to PRRSV-1 Olot/91 by repeated experimental infection. Using an IFN-γ ELISpot assay as a read-out, we were able to identify 9 antigenic regions on 5 of the viral proteins and determine the corresponding responder T cell phenotype. The diversity of the IFN-γ response to PRRSV proteins suggests that antigenic regions are scattered throughout the proteome and no one single antigen dominates the T cell response. To address the identification of well-conserved T cell antigens, we subsequently screened groups of pigs infected with a closely related avirulent PRRSV-1 strain (Lelystad) and a divergent virulent subtype 3 strain (SU1-Bel). Whilst T cell responses from both groups were observed against many of the antigens identified in the first study, animals infected with the SU1-Bel strain showed the greatest response against peptides representing the non-structural protein 5. The proteome-wide peptide library screening method used here, as well as the antigens identified, warrant further evaluation in the context of next generation vaccine development.
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Mar Eck
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gesprochen von ihrem Freunde und Vorsteher Petersen
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gantzer Christenhait zu schmach / will es geschehe den Juden unrecht in bezichtigung der Christen kinder mordt [[Elektronische Ressource]] / Durch Doctor Joh. Ecken
