Identification of a Novel Mammary-Restricted Cytochrome P450, CYP4Z1, with Overexpression in Breast Carcinoma

Abstract

By screening a transcriptome database for expressed sequence tags that are specifically expressed in mammary gland and breast carcinoma, we identified a new human cytochrome P450 (CYP), termed CYP4Z1. The cDNA was cloned from the breast carcinoma line SK-BR-3 and codes for a protein of 505 amino acids. Moreover, a transcribed pseudogene CYP4Z2P that codes for a truncated CYP protein (340 amino acids) with 96% identity to CYP4Z1 was found in SK-BR-3. CYP4Z1 and CYP4Z2P genes consisting of 12 exons are localized in head-to-head orientation on chromosome 1p33. Tissue-specific expression was investigated using real-time reverse transcription PCR with normalized cDNA from 18 different human tissues. CYP4Z1 mRNA was preferentially detected in breast carcinoma tissue and mammary gland, whereas only marginal expression was found in all other tested tissues. Investigation of cDNA pairs from tumor/normal tissues obtained from 241 patients, including 50 breast carcinomas, confirmed the breast-restricted expression and showed a clear overexpression in 52% of breast cancer samples. The expression profile of CYP4Z2P was similar to that of CYP4Z1 with preference in breast carcinoma and mammary gland but a lower expression level in general. Immunoblot analyses with a specific antiserum for CYP4Z1 clearly demonstrated protein expression in mammary gland and breast carcinoma tissue specimens as well as in CYP4Z1-transduced cell lines. Confocal laser-scanning microscopy of MCF-7 cells transfected with a fluorescent fusion protein CYP4Z1-enhanced green fluorescent protein and a subcellular fractionation showed localization to the endoplasmic reticulum as an integral membrane protein concordant for microsomal CYP enzymes.