posted on 2022-03-29, 11:41authored byWhitney
L. Garcia, Carson J. Miller, Gerard X. Lomas, Kari A. Gaither, Kimberly J. Tyrrell, Jordan N. Smith, Kristoffer R. Brandvold, Aaron T. Wright
The gut microbiome is a key contributor
to xenobiotic metabolism.
Polycyclic aromatic hydrocarbons (PAHs) are an abundant class of environmental
contaminants that have varying levels of carcinogenicity depending
on their individual structures. Little is known about how the gut
microbiome affects the rates of PAH metabolism. This study sought
to determine the role that the gut microbiome has in determining the
various aspects of metabolism in the liver, before and after exposure
to two structurally different PAHs, benzo[a]pyrene
and 1-nitropyrene. Following exposures, the metabolic rates of PAH
metabolism were measured, and activity-based protein profiling was
performed. We observed differences in PAH metabolism rates between
germ-free and conventional mice under both unexposed and exposed conditions.
Our activity-based protein profiling (ABPP) analysis showed that,
under unexposed conditions, there were only minor differences in total
P450 activity in germ-free mice relative to conventional mice. However,
we observed distinct activity profiles in response to corn oil vehicle
and PAH treatment, primarily in the case of 1-NP treatment. This study
revealed that the repertoire of active P450s in the liver is impacted
by the presence of the gut microbiome, which modifies PAH metabolism
in a substrate-specific fashion.