Seeking the cellular and
molecular targets for Tregs in control of T-lymphocyte activation in the neonatal liver, we identified CD11b+ mDCs expressing the costimulatory molecule CD86 as mediators of intrahepatic CD8 lymphocyte activation. Although hepatic DCs are often tolerogenic and inhibit T-cell responses under physiologic conditions, DCs are critical for effector cell activation during hepatobiliary inflammation. Here we show that during peak inflammatory ductal obstruction at 7 dpi, mDCs constitute the predominant DC subset in regulation of T-lymphocyte activation, which is in keeping with reports by other investigators showing cholestasis induced expansion of hepatic mDCs STA-9090 datasheet in a bile duct ligation model.27 Further, we found that antibody mediated blockade of CD86, more
than Galunisertib ic50 of CD80, decreased DC-mediated proliferation of naïve, neonatal CD8 cells and diminished their production of IFN-γ in an in vitro coculture assay, recapitulating the cellular network in the neonatal liver. We propose that in experimental BA hepatic mDCs are critical for intrahepatic T-lymphocyte activation by way of the B7/CD28 pathway. Importantly, in infants with BA, increased B7 expression in the liver is correlated with poor prognosis.28 Our data in an experimental model suggest that this increase is directly involved in pathogenesis and not just a reflection of immune activation. Finally, we examined how Tregs control this pathogenic DC/T-lymphocyte crosstalk in the neonatal liver. Important findings include: (1) Tregs down-regulated expression of CD86 on neonatal hepatic mDCs in vitro; (2) AT of Treg-containing CD4 cells reduced expression of CD86 on mDCs in vivo; and (3) on the contrary, Treg-depletion in older mice enhanced the stimulatory capacity of hepatic DCs. Based on the association between decreased
CD8 responses RNA Synthesis inhibitor and down-regulated CD86 on mDCs in livers of mice subjected to AT of Treg-containing CD4 cells compared with infected controls without AT, we conclude that modulation of maturation of hepatic DCs is critical for Treg-inhibition of T cell activation in BA. Similar crosstalks between Tregs and tissue specific DC populations have been described in other experimental systems.12, 18 An increased number of hepatic mDCs following AT of CD25−CD4 likely drives aberrant CD8 expansion in these mice, although the mechanisms for this interaction and its effects on bile duct injury require further investigations. Importantly, this study focuses on immune regulation during ductal obstruction at 7 dpi. The cellular targets for Tregs during other stages of bile duct injury and timepoints may be different.