Protoporphyrin retention in hepatocytes and Kupffer cells prevents sclerosing cholangitis in erythropoietic protoporphyria mouse model.

[erythropoietic protoporphyria]

Chronic , progressive hepatobiliary disease is the most severe complication of erythropoietic protoporphyria (EPP ) and can require liver transplantation , although the mechanisms that lead to liver failure are unknown . We characterized protoporphyrin-IX (PPIX )-linked hepatobiliary disease in BALB /c and C 5 7 BL /6 (Fechm 1 P as ) mice with mutations in ferrochelatase as models for EPP .Fechm 1 P as and wild-type (control ) mice were studied at 12 -14 weeks of age . PPIX was quantified ; its distribution in the liver , serum levels of lipoprotein-X , liver histology , contents of bile salt and cholesterol phospholipids , and expression of genes were compared in mice of the BALB /c and C 5 7 BL /6 backgrounds . The in vitro binding affinity of PPIX for bile components was determined .Compared with mice of the C 5 7 BL /6 background , BALB /c Fechm 1 Pas mice had a more severe pattern of cholestasis , fibrosis with portoportal bridging , bile acid regurgitation , sclerosing cholangitis , and hepatolithiasis . In C 5 7 BL /6 Fechm 1 Pas mice , PPIX was sequestrated mainly in the cytosol of hepatocytes and Kupffer cells , whereas , in BALB /c Fechm 1 Pas mice , PPIX was localized within enlarged bile canaliculi . Livers of C 5 7 BL /6 Fechm 1 Pas mice were protected through a combination of lower efflux of PPIX and reduced synthesis and export of bile acid .PPIX binds to bile components and disrupts the physiologic equilibrium of phospholipids , bile acids , and cholesterol in bile . This process might be involved in pathogenesis of sclerosing cholangitis from EPP ; a better understanding might improve diagnosis and development of reagents to treat or prevent liver failure in patients with EPP .