Japanese studies have defined the discrete 2209-2248 amino acid region of the non-structural 5A protein (NS5A(2209-2248)) of hepatitis C virus genotype 1b (HCV 1b) isolates as the interferon sensitivity determining region (ISDR). European studies did not confirm these results since most of the ISDR sequences harboured an intermediate profile. Recently, a direct interaction between the NS5A protein, involving the ISDR, and the interferon-induced protein kinase (PKR) has been reported and presented as a possible explanation of HCV interferon resistance. In the present study, the entire NS5A amino acid sequence from 11 resistant and eight sensitive strains from European HCV 1b isolates was inferred from direct sequencing. The previously described important amino acid stretches and positions in NS5A were compared between the resistant and sensitive groups. Although some variations were observed, no clear differences could be directly correlated with the interferon sensitivity. However, sensitive strains were different, owing to more amino acid changes when compared to a consensus sequence from all strains. The carboxy-terminal region and especially the previously reported NS5A/V3 region showed most of the variations. Moreover, the conformational analysis of NS5A by secondary structure prediction allowed the differentiation of most sensitive strains from resistant ones. It was concluded that other regions different from ISDR were involved in resistance to interferon maybe via the interaction between NS5A and PKR.
-1271, 1999). In the present study we analyzed whether the resistance of UHCV-11 cells to IFN could also be attributed to inhibition of PKR. Confocal laser scanning microscopy showed no colocalization of PKR, which is diffuse throughout the cytoplasm, and the induced HCV proteins, which localize around the nucleus within the endoplasmic reticulum. The effect of expression of HCV proteins on PKR activity was assayed in a reporter assay and by direct analysis of the in vivo phosphorylation of eIF2␣ after treatment of cells with poly(I)-poly(C). We found that neither PKR activity nor eIF2␣ phosphorylation was affected by coexpression of the HCV proteins. In conclusion, expression of HCV proteins in their biological context interferes with the development of the antiviral action of IFN. Although the possibility that some inhibition of PKR (by either NS5A or another viral protein) occurs at a very localized level cannot be excluded, the resistance to IFN, resulting from the expression of the HCV proteins, cannot be explained solely by inhibition of the negative control of translation by PKR.
Background: TRP channels have been shown to be involved in tumour generation and malignant growth. However, the expression of these channels in breast cancer remains unclear. Here we studied the expression and function of endogenous TRPC6 channels in a breast cancer cell line (MCF-7), a human breast cancer epithelial primary culture (hBCE) and in normal and tumour breast tissues.
The nonstructural 5A (NS5A) protein of hepatitis C virus (HCV) genotype 1 is thought to interact with several cellular proteins, including the double-stranded RNA-dependent protein kinase (PKR) induced by interferon (IFN). The PKR-binding domain (PKR-BD; aa 2209-2274), including the IFN sensitivity-determining region (aa 2209-2248) and other regions, could be linked to IFN resistance. Thus, the entire NS5A sequence of 27 isolates of HCV genotype 3a was investigated in relation to the clinical response to IFN. The NS5A 3a protein presented a low variability with some specific variable regions. Differential analysis between IFN-resistant and -sensitive isolates identified 5 regions in NS5A, 2 of them inside the PKR-BD and another around the variable 3 region. However, using the yeast growth suppression assay, no interaction was found between 5 resistant NS5A 3a proteins and PKR. Some amino acid changes of the NS5A protein of genotype 3a seemed to relate to IFN resistance independently of the PKR pathway.
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