A frameshift mutation and alternate splicing in human brain generate a functional form of the pseudogene cytochrome P4502D7 that bemethylates codeine to morphine

Pai, Harish V. ; Kommaddi, Reddy P. ; Chinta, Shankar J. ; Mori, Toshiyuki ; Boyd, Michael R. ; Ravindranath, Vijayalakshmi (2004) A frameshift mutation and alternate splicing in human brain generate a functional form of the pseudogene cytochrome P4502D7 that bemethylates codeine to morphine Journal of Biological Chemistry, 279 (28). pp. 27383-27389. ISSN 0021-9258

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Official URL: http://www.jbc.org/content/279/26/27383.short

Related URL: http://dx.doi.org/10.1074/jbc.M402337200

Abstract

A frameshift mutation 138delT generates an open reading frame in the pseudogene, cytochrome P4502D7 (CYP2D7), and an alternate spliced functional transcript of CYP2D7 containing partial inclusion of intron 6 was identified in human brain but not in liver or kidney from the same individual. mRNA and protein of the brain variant CYP2D7 were detected in 6 of 12 human autopsy brains. Genotyping revealed the presence of the frameshift mutation 138delT only in those human subjects who expressed the brain variant CYP2D7. Genomic DNA analysis in normal volunteers revealed the presence of functional CYP2D7 in 4 of 8 individuals. In liver, the major organ involved in drug metabolism, a minor metabolic pathway mediated by CYP2D6 metabolizes codeine (pro-drug) to morphine (active drug), whereas norcodeine is the major metabolite. In contrast, when expressed in Neuro2a cells, brain variant CYP2D7 metabolized codeine to morphine with greater efficiency compared with the corresponding activity in cells expressing CYP2D6. Morphine binds to μ-opioid receptors in certain regions of the central nervous system, such as periaqueductal gray, and produces pain relief. The brain variant CYP2D7 and μ-opioid receptor colocalize in neurons of the periaqueductal gray area in human brain, indicating that metabolism of codeine to morphine could occur at the site of opioid action. Histio-specific isoforms of P450 generated by alternate splicing, which mediate selective metabolism of pro-drugs within tissues, particularly the brain, to generate active drugs may play an important role in drug action and provide newer insights into the genetics of metabolism.

Item Type:Article
Source:Copyright of this article belongs to The American Society for Biochemistry and Molecular Biology.
ID Code:40633
Deposited On:24 May 2011 14:00
Last Modified:17 May 2016 22:39

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