Conclusions-HCV RNA levels at three months after transplant are higher in patients treated with single initial immunosuppressive therapy, but at 12 months are higher in patients with longer duration of steroid treatment. HCV viraemia at 12 months seems to be particularly important, as its levels are strongly correlated with the severity of fibrosis. (Gut 1999;45:427-434)
Heat shock protein 32 (Hsp32, hemoxygenase-1) is induced by reactive oxygen metabolites (ROM) and degrades heme leading to the formation of antioxidant bilirubin. Increased mucosal generation of ROM occurs in gastritis and inflammatory bowel disease. We aimed to assess mucosal expression of Hsp32 in normal stomach and colon and to test the hypothesis that disease-related differential expression occurs in inflamed tissue. Gastric body and antral mucosal biopsies were obtained from 33 patients comprising Helicobacter pylori-negative normal controls (n = 8), H pylori-negative gastritis patients (n = 11), and H pylori-positive gastritis patients (n = 14). Forty-seven archival colonic mucosal biopsies selected comprised normal histology (n = 10), active ulcerative colitis (UC) (n = 9), inactive UC (n = 8), active Crohn's disease (CD) (n = 8), inactive CD (n = 6), and other colitides (n = 6). Hsp32 expression in formalin-fixed sections was assessed by avidin-biotin peroxidase immunohistochemistry using a polyclonal rabbit anti-Hsp32 as the primary antibody. Immunohistochemical staining identified Hsp32 in all groups. Diffuse cytoplasmic staining was seen in gastric and colonic epithelial and lamina proprial inflammatory cells. Staining scores for Hsp32 were higher in antral H pylori-positive (P = 0.002) and H pylori-negative (P = 0.02) gastritis than in controls and in body H pylori-positive gastritis than in the other 2 groups (P < 0.01). Expression of Hsp32 was increased in active UC compared with inactive disease (P = 0.03) and normal controls (P = 0.02). In conclusion, Hsp32 is expressed constitutively in normal gastric and colonic mucosa, and differential expression occurs in these tissues when they are inflamed. Upregulation of Hsp32 may be an adaptive response to protect mucosa from oxidative injury in patients with gastritis and inflammatory bowel disease.
SUMMARYWhilst the mechanism by which Helicobacter pylori causes different gastroduodenal diseases is uncertain, strains producing the cytotoxin-associated protein (CagA) have greater pathogenicity. Hsps are immunogenic molecules induced by inflammatory mediators. The aim of this study was to assess pathogenicity of hsp antibodies in H. pylori-infected patients. ELISA techniques were used to assay sera of H. pylori-positive patients with gastritis, gastric atrophy, duodenal or gastric ulcer, and H. pylori-negative controls, for antibodies to CagA and to human, mycobacterial, and in 20 sera, H. pylori (hspB) 60-kD hsp. IgA antibodies to mycobacterial hsp60 in atrophy patients were elevated compared with patients with gastritis (P < 0·05) and with H. pylori-negative controls (P < 0·0005). IgA antibodies to human hsp60 in gastric atrophy patients were elevated compared with H. pylori-negative controls (P < 0·05). Patients with atrophy (P < 0·0005) and gastritis (P < 0·05) who were CagA-positive had raised titres of anti-mycobacterial hsp60 IgA antibodies compared with controls. IgA antibody levels to hspB were positively correlated with those to mycobacterial hsp60 (mhsp60) (P < 0·05) and human hsp60 (hhsp60) (P < 0·005). IgA antibodies to hsp60 are associated with gastroduodenal disease, particularly gastric atrophy, in H. pylori-infected patients. Increased humoral responses to hsp60 could either contribute to gastric atrophy or result from greater gastric mucosal damage induced by CagA-positive strains of H. pylori.
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