Array-based Western-blotting reveals spatial differences in hepatic signaling and metabolism following CAR activation.

The complex three-dimensional architecture of the liver with its metabolically zonated lobules is a prerequisite to perform functions of metabolic conversion of endogenous and foreign substrates. The enzymatic competencies of hepatocytes differ between zones and dynamically adapt upon xenobiotic activation of the nuclear constitutive androstane receptor (CAR). Using the antibody-based DigiWest proteomics approach, the abundance and phosphorylation status of hepatocyte proteins isolated by laser capture microdissection from the periportal and pericentral regions of murine liver lobules were analyzed. Patterns that distinguish region-specific hepatocytes were detected and the characteristic changes in phosphorylation and phosphatase activity were observed after CAR activation by TCPOBOP in mice. Time- and liver zone-dependent induction of CAR target proteins was monitored. Our observations substantially broaden our knowledge on zone-specific expression and regulation of signaling proteins and metabolic enzymes in different liver zones and their regulation by CAR activation. Inhibition of PP2A was observed in periportal hepatocytes and the amount and phosphorylation state of central hepatic co-regulators such as HNF4α and PGC-1α were altered. Thereby, this analysis of cellular signaling identifies inhibition of PP2A as the central regulatory element governing zonal metabolism. Our study demonstrates the usefulness of the DigiWest approach in unraveling zone-specific hepatic responses to the exposure against xenobiotics.