Publications

BACKGROUND & AIMS

Biliary-directed inflammation is an important cause of acute and chronic liver disease. We developed and characterized a transgenic mouse model of immune-mediated hepatobiliary injury.

METHODS

Ovalbumin (OVA)-BIL mice were developed using 3.0 kilobase of the rat apical sodium-dependent bile acid transporter promoter to drive aberrant expression of a membrane form of ovalbumin (OVA) on biliary epithelium. Liver inflammation resulted from adoptive transfer of OVA-specific T cells. Liver immune cells were characterized to determine the mechanism of the response by assessing activation, proliferation, and intracellular cytokine expression.

RESULTS

OVA-BIL transgenic mice were tolerant to OVA, without evidence of liver disease. Adoptive transfer of OVA-specific CD4+ and CD8+ T cells into naïve OVA-BIL mice led to biliary-centered necroinflammatory damage in a dose-dependent manner. This inflammation absolutely required CD8+ T cells and was augmented by CD4+ T cells. Adoptively transferred OVA CD8+ cells homed to and proliferated in the liver but not the spleen. These activated, adoptively transferred cytotoxic T lymphocytes produced elevated levels of tumor necrosis factor alpha and interferon gamma.

CONCLUSIONS

T-cell recognition of antigen aberrantly expressed on bile duct epithelium induced an acute necroinflammatory response specific to the liver, with activation, proliferation, and cytokine production predominantly by the OVA-specific cytotoxic T cells. Thus, OVA BIL represents an antigen-specific animal model of inflammatory bile duct injury.

Natural killer (NK) cells from certain rat strains promptly kill MHC allogeneic lymphocytes in vivo, a rejection phenomenon termed allogeneic lymphocyte cytotoxicity (ALC). ALC can be reproduced in vitro, and is preferentially mediated by a subset of NK cells expressing the Ly49 stimulatory receptor 3 (Ly49s3) in PVG strain rats. Functional studies have suggested that Ly49s3 triggers NK cell alloreactivity, but its importance relative to other Ly49 receptors has not been investigated. In this study, we have characterized three rat Ly49 receptors with close sequence similarity to Ly49s3 in the extracellular region, i.e., Ly49s4, Ly49 inhibitory receptor 3 (Ly49i3), and Ly49i4. Similar to Ly49s3, Ly49s4 mediated cellular activation while Ly49i4 inhibited NK cytolytic function. Ly49s4, -i3, and -i4 all reacted with a previously described anti-Ly49s3 monoclonal antibody (mAb) (DAR13), but not a novel mAb (STOK6), which was shown to be specific for Ly49s3. Expression of these Ly49 receptors varied markedly between inbred strains, in patterns related to their NK gene complex (NKC) haplotype, and ability to mediate ALC. Three major groups of NKC haplotypes could be discerned by restriction fragment length polymorphism analysis. Ly49s3 was present in strains from one of the groups, which corresponded with the "high" ALC responders. Ly49s3 surface expression was also markedly reduced in the presence of its putative MHC class Ib ligand(s) in MHC congenic strains. These data support the notion that Ly49s3 functions as a triggering MHC receptor both in vitro and in vivo. MHC ligands for the other three Ly49 receptors remain to be determined.