Impaired regeneration of biliary cells in human chronic liver allograft rejection. Special emphasis on the role of the finest branches of the biliary tree.

Severe loss of bile ducts is a hallmark of chronic liver rejection. We hypothesize that loss of the finest branches of the biliary tree, including the intralobular segments, contributes to an impaired regenerative response of bile ducts in chronic rejection. The number and proliferative response of bile ducts, intraportal ductules, and extraportal biliary cells were studied in graft biopsies of 12 chronic-rejection patients. Twenty-two long-term-surviving patients who experienced acute rejection without chronic rejection served as controls. Reperfusion, 1-week, 1-month, and 1-year biopsies were studied. Monochlonal antibody Ki67 was applied to assess proliferation, and cytokeratin 7 antibody to identify bile ducts, intraportal ductules, and extraportal biliary cells. Progressive loss of bile ducts, intraportal ductules, and extraportal biliary cells was observed in the chronic-rejection group. In controls, all of these structures remained well preserved. Additionally, a significant increase of intraportal ductules was present at 1 week in controls, which was not the case in the chronic-rejection group. Proliferative activity of intraportal ductules and extraportal biliary cells was significantly increased at 1 week in controls. This proliferative activity was higher in the intraportal ductules of controls, compared with the chronic-rejection group. After 1 week, proliferative activity was virtually absent in both groups. In conclusion, our results showed that a deficient proliferative response of the finer branches of the biliary tree, including its intralobular segments, might contribute to bile-duct loss in chronic rejection. This finding supports the postulation that these structures represent a regenerative compartment of the biliary unit in the liver.