Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Query: UMLS:C0019158 (
hepatitis
)
30,205
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
An immunofluorescence technique using antibodies against the Fc and Fab fragments of human IgG (IgGH) was used to study the absorption of proteins by the intestinal epithelial cells of rainbow trout after oral or anal administration. Cellular absorption of a high molecular weight protein,
hepatitis
-B surface antigen (HBsAg), was also studied by using two monoclonal antibodies, one specific for the confirmation of the antigen (implying disulfide bridges), and the other that reacts with the constituent polypeptides. Both absorbed IgGH and HBsAg were seen to be segregated in the apical vacuolar system, a characteristic feature of intestinal epithelial cells. The same antibodies were used with an everted sac technique in conjunction with immunofluorescence, to show the intravacuolar degradation of IgGH and HBsAg following absorption. By using an antibody against cathepsin D, it was possible to demonstrate, by immunofluorescence, the localization of this enzyme in the same vacuolar system. After coupling the antibody to peroxidase or to the protein A/colloidalgold complex, the ultrastructural antigenic sites of cathepsin D could be seen to be localized in the interior of the vacuoles. The vacuolar localization of a
cathepsin B
activity was determined by incubating sections of intestinal mucosa, or isolated epithelial cells, with a specific synthetic substrate (Z-Ala-Arg-Arg-methoxynaphthylamide). The supranuclear hyaloplasmic vacuoles of intestinal epithelial cells may be considered to be phagolysosomes that assure the degradation of absorbed proteins. This function may be of fundamental importance in the in the nutritional processes of this species.
...
PMID:Immunological demonstration of intestinal absorption and digestion of protein macromolecules in the trout (Salmo gairdneri). 352 26
The pathogenesis and perpetuation of hepatocellular injury in hepatitis C viral infection remains unclear. It has been proposed that a direct viropathic effect, the host immune response, or both mediate cell damage. To address this issue, the immunophenotype of the inflammatory infiltrate in the liver of 18 patients with abnormal liver function tests and serologically detectable hepatitis C virus antibodies was compared with seven control patients (three cases with hepatitis B virus infection, two with alcoholic hepatitis, and one patient each with primary biliary cirrhosis and autoimmune
hepatitis
). The immunohistochemical markers included UCHL1, L26, Ham-56, Mac-387, CD68, Leu-M1, and
cathepsin B
. We found that T cells represent the predominant cell type in both histopathologic patterns of hepatitis C, ie, chronic active hepatitis and chronic persistent hepatitis, but the intensity of the T-cell infiltrate displayed marked differences. B-cell infiltrates were only seen in the germinal centers of lymphoid follicles in portal tracts. Furthermore, significant numbers of CD68-positive macrophages/monocytes were seen in the more aggressive form of hepatitis C viral infection. These data suggest that the T-lymphocyte-mediated host immune response is similar in chronic active and chronic persistent hepatitis patterns of hepatitis C viral infection, but varies in its intensity. In addition, macrophages/monocytes may play a role in hepatocyte and bile duct injury in chronic hepatitis C.
...
PMID:Chronic hepatitis C. Analysis of host immune response by immunohistochemistry. 753 56
Most strains of murine coronavirus mouse
hepatitis
virus (MHV) express a cleavable spike glycoprotein that mediates viral entry and pH-independent cell-cell fusion. The MHV type 2 (MHV-2) strain of murine coronavirus differs from other strains in that it expresses an uncleaved spike and cannot induce cell-cell fusion at neutral pH values. We show here that while infection of the prototype MHV-A59 strain is not sensitive to pretreatment with lysosomotropic agents, MHV-2 replication is significantly inhibited by these agents. By use of an A59/MHV-2 chimeric virus, the susceptibility to lysosomotropic agents is mapped to the MHV-2 spike, suggesting a requirement of acidification of endosomes for MHV-2 spike-mediated entry. However, acidification is likely not a direct trigger for MHV-2 spike-mediated membrane fusion, as low-pH treatment is unable to overcome ammonium chloride inhibition, and it also cannot induce cell-cell fusion between MHV-2-infected cells. In contrast, trypsin treatment can both overcome ammonium chloride inhibition and promote cell-cell fusion. Inhibitors of the endosomal cysteine proteases
cathepsin B
and cathepsin L greatly reduce MHV-2 spike-mediated entry, while they have little effect on A59 entry, suggesting that there is a proteolytic step in MHV-2 entry. Finally, a recombinant virus expressing a cleaved MHV-2 spike has the ability to induce cell-cell fusion at neutral pH values and does not require low pH and endosomal cathepsins during infection. These studies demonstrate that endosomal proteolysis by cathepsins is necessary for MHV-2 spike-mediated entry; this is similar to the entry pathway recently described for severe acute respiratory syndrome coronavirus and indicates that coronaviruses may use multiple pathways for entry.
...
PMID:Endosomal proteolysis by cathepsins is necessary for murine coronavirus mouse hepatitis virus type 2 spike-mediated entry. 1673 16
