TY - JOUR T1 - Targeted Disruption of the Olfactory Mucosa-Specific <em>Cyp2g1</em> Gene: Impact on Acetaminophen Toxicity in the Lateral Nasal Gland, and Tissue-Selective Effects on <em>Cyp2a5</em> Expression JF - Journal of Pharmacology and Experimental Therapeutics JO - J Pharmacol Exp Ther SP - 719 LP - 728 DO - 10.1124/jpet.103.060301 VL - 308 IS - 2 AU - Xiaoliang Zhuo AU - Jun Gu AU - Melissa J. Behr AU - Pam J. Swiatek AU - Huadong Cui AU - Qing-Yu Zhang AU - Yingqiu Xie AU - Doris N. Collins AU - Xinxin Ding Y1 - 2004/02/01 UR - http://jpet.aspetjournals.org/content/308/2/719.abstract N2 - CYP2G1 is a cytochrome P450 monooxygenase expressed uniquely in the olfactory mucosa (OM). We have generated Cyp2g1-null mice to identify the roles of CYP2G1 in the biology and the tissue-specific toxicity of xenobiotic compounds in the nose. Homozygous Cyp2g1-null mice are viable and fertile; they show no evidence of embryonic lethality, morphological abnormality, or developmental deficits; and they seem to have normal olfactory ability. However, OM microsomes from Cyp2g1-null mice were found to have significantly lower activities than microsomes from wild-type mice in the metabolism of testosterone and progesterone (∼60% decrease) and in the metabolic activation of coumarin (&gt;70% decrease). Unexpectedly, a significant reduction in the expression of the Cyp2a5 gene was found in the liver, the lateral nasal gland (LNG), and, to a lesser extent, the kidney of adult Cyp2g1-null mice. The loss of CYP2G1 expression, and the associated decrease in the hepatic expression of CYP2A5, did not decrease systemic clearance, extent of hepatotoxicity, or OM toxicity of acetaminophen (AP). However, the LNG was protected from AP (at 400 mg/kg) toxicity in the Cyp2g1-null mice. Paradoxically, the LNG did not have detectable CYP2G1, and the decrease in LNG CYP2A5 expression in the Cyp2g1-null mice was not accompanied by decreases in microsomal AP metabolism. We hypothesize that OM CYP2G1 (through a paracrine pathway) or LNG CYP2A5 may indirectly influence resistance of the LNG to chemical toxicity, possibly by regulating gene expression in the LNG through steroid hormones or other endogenous P450 substrates and their metabolites. The American Society for Pharmacology and Experimental Therapeutics ER -