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Drug
Enzyme
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Target Concepts:
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Query: UMLS:C0019158 (
hepatitis
)
30,205
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
During inflammation nitric oxide reacts at near diffusion limited rates with superoxide to form the strong oxidant peroxynitrite. Nitration on the ortho position is a major product of peroxynitrite attack on proteins. In the present study we investigated whether immunohistochemical detection of nitrotyrosine (footprint of peroxynitrite) can be associated with human
hepatitis
.
Paraffin
-embedded liver tissue biopsies from patients with chronic active hepatitis, chronic active hepatitis plus cirrhosis and chronic persistent hepatitis exhibit significant specific immunostaining with the antibody to nitrotyrosine. Positive staining was found in 57% and 72% of tissue specimens from patients with chronic hepatitis and cirrhosis, respectively. Immunohistochemical staining of nitrotyrosine residues was found in the hepatocytes and Kuppffer cells of the necrotic area. The presence of nitrotyrosine indicates that oxidants derived from nitric oxide such as peroxynitrite are generated in human
hepatitis
and may be involved in its pathogenesis.
...
PMID:Evidence for in vivo peroxynitrite production in human chronic hepatitis. 967 51
The mechanism of liver giant cell formation is not clarified. Some authors consider the giant cells regenerative, others, degenerative.
Paraffin
sections of 10 archival cases of idiopathic neonatal
hepatitis
(INH), 8 of extrahepatic biliary atresia (EHBA), and 5 normal liver samples were immunostained with two well-characterized cell proliferation markers: anti-PCNA monoclonal antibody (MAb) (clone PC-10) and MAb MIB-1, which detects Ki-67, a nuclear proliferation-related antigen. In addition, polyclonal antibody to carcinoembryonic antigen (CEA) was used to identify remnants of canalicular, therefore hepatocytic, membranes in giant cells. Quantitative analysis of immunostaining was done by estimating PCNA and Ki-67 indices separately in giant cells and in nongiant hepatocytes. In normal samples, mean PCNA and Ki-67 indices were 1. 22% and 0.74%, respectively. In the cases of INH and EHBA, only a small minority of giant cells showed PCNA or Ki-67 staining limited to occasional peripherally located nuclei. PCNA and Ki-67 indices were significantly higher in the non-giant cell compartment. CEA staining was seen only in rare giant cells as centrally located canalicular remnants bordered by polarized nuclei, suggesting that they had been formed from rosettes through dissolution of cell membranes. Other giant cells shared CEA-labeled canalicular membranes with mononuclear hepatocytes in rosettes. These findings indicate that the giant cells in INH and EHBA are not regenerative cells, they are not formed by amitotic division of nuclei in syncytia, and that fusion of rosette-forming hepatocytes is a possible mechanism of their formation.
...
PMID:Infantile liver giant cells: immunohistological study of their proliferative state and possible mechanisms of formation. 1034 79
Paraffin
-embedded liver tissue from 60 biopsied or autopsied cases, including 20 cases each of acute mild
hepatitis
, chronic active hepatitis and active cirrhosis were studied with immunohistochemical double labelling technique by using polyclonal anti-Fas and anti-Fas ligand. The detection rates for Fas and Fas ligand were 76.7% (46/60) and 70.0% (42/60), respectively. Fas antigen was located in cytoplasm of hepatocytes. Fas ligand was expressed mainly in infiltrating lymphocytes in portal or periportal areas (34/42, 80.9%) and also in the cytoplasm of some hepatocytes (25/42, 59.5%). The distribution of Fas ligand-positive hepatocytes was similar to that of Fas-positive hepatocytes in liver tissue. The positive cells were scattered in the intralobular areas in acute mild
hepatitis
, but they were more commonly aggregated in periportal areas, especially near the edges of the piecemeal necrosis region or in infiltrating mononucleocytes in chronic active hepatitis and active cirrhosis, Double labelling studies showed that both Fas and Fas ligand might be expressed in the same or different hepatocytes of the same area. Our results suggest that Fas-Fas ligand system may play an important role in liver cell injury due to hepatitis B virus infection.
...
PMID:[Expression of Fas and Fas ligand in liver tissue infected with hepatitis B virus]. 1043 77
Several point mutations of alpha(1)-antitrypsin cause a perturbation in protein structure with consequent polymerization and intracellular accumulation. The retention of polymers of alpha(1)-antitrypsin within hepatocytes results in protein overload that in turn is associated with juvenile
hepatitis
, cirrhosis, and hepatocellular carcinoma. The detection of alpha(1)-antitrypsin polymers and understanding the molecular basis of polymer formation is of considerable clinical importance. We have used a monoclonal antibody (ATZ11) that specifically recognizes a conformation-dependent neoepitope on polymerized alpha(1)-antitrypsin to detect polymers within hepatocytes of individuals with alpha(1)-antitrypsin deficiency.
Paraffin
-embedded liver tissue specimens were obtained from individuals who were homozygous for the Z (Glu342Lys), Mmalton (52Phe del), and Siiyama (Ser53Phe) alleles of alpha(1)-antitrypsin that result in hepatic inclusions and profound plasma deficiency. Immunohistological staining with a polyclonal anti-human alpha(1)-antitrypsin antibody showed hepatic inclusions in all 3 cases, while ATZ11 reacted with hepatic inclusions formed by only Z alpha(1)-antitrypsin. Polymers of plasma M and Z alpha(1)-antitrypsin prepared under different conditions in vitro and polymers of recombinant mutants of alpha(1)-antitrypsin demonstrated that the monoclonal antibody detected a neoepitope on the polymerized protein. It did not detect polymers formed by a recombinant shutter domain mutant (that mirrors the effects of the Siiyama and Mmalton variants), polymers formed by cleaving alpha(1)-antitrypsin at the reactive loop, or C-sheet polymers formed by heating alpha(1)-antitrypsin in citrate. In conclusion, the ATZ11 monoclonal antibody detects Z alpha(1)-antitrypsin in hepatic inclusions by detecting a neoepitope that is specific to the polymeric conformer and that is localized close to residue 342.
...
PMID:Differential detection of PAS-positive inclusions formed by the Z, Siiyama, and Mmalton variants of alpha1-antitrypsin. 1548 38
