Thursday 24 July, 2014

Scientists solve 40-yr-old puzzle related liver enzyme function

Published On: Fri, Nov 12th, 2010 | Biochemistry | By BioNews

Penn State University researchers have finally found the answer to a 40-year-long puzzle about a mysterious process by which a critical enzyme metabolizes drugs and chemicals in food.

Michael Green and colleagues have been able to “freeze in time” the workings of this family of enzymes produced by the liver that break down common drugs such as Tylenol, caffeine, and opiates, as well as nutrients in many foods.

The find may help development of a wide range of more efficient and less-expensive drugs, household products, and other chemicals.

Enzymes in the family named P450 pass through a critical chemical phase-change called “Compound I,” whereby an oxygen molecule is temporarily added.

“This phase change happens quickly, and P450 just as quickly changes back to its original state,” Green explained.

Green and his colleagues grew one of the P450 enzymes in E.coli — bacteria found in the human gut. They then developed a method to cool the enzyme at just the right rate — one one-thousandth of a second — to “freeze in time” the formation process of Compound I.
Green also explained that different populations of humans vary in which version of the gene they carry, and thus, which version of P450 they produce.
“With a drug such as caffeine, for example, one population of people might be fast metabolizers, while another might metabolize the drug more slowly,” Green explained.

“The answer to why some people have bad interactions could be understood at the level of the P450 enzymes and their state changes. Now that we can see those state changes on a molecular level, a deeper investigation is finally possible.”
The scientists” findings will be published in the journal Science on 12 November 2010.

Reference:
Cytochrome P450 Compound I: Capture, Characterization, and C-H Bond Activation Kinetics, Jonathan Rittle and Michael T. Green, Science 12 November 2010: 933-937.

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  1. Mike says:

    "They then developed a method to cool the enzyme at just the right rate — one one-thousandth of a second"

    So what would that be, 1 gigacool per second? Because "one one-thousandth of a second" is a measure of time, not a rate.

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