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Stubbing Out Smoking: Nicotine Blocking Enzyme Takes Reward Out of Smoking

A new study from scientists at The Scripps Research Institute (TSRI) explores a bacterial enzyme that might be used as a drug candidate to help people quit smoking. The research shows that this enzyme can be recreated in lab settings and possesses a number of promising characteristics for drug development.

“Our research is in the early phase of drug development process, but the study tells us the enzyme has the right properties to eventually become a successful therapeutic,” said Kim Janda, the Ely R. Callaway Jr. Professor of Chemistry and member of the Skaggs Institute for Chemical Biology at TSRI.

The new research, published online ahead of print on August 6 in the Journal of the American Chemical Society, offers a possible alternative to current smoking cessation aids, which are shown to fail in at least 80 to 90 percent of smokers. The idea behind an enzyme therapy would be to seek out and destroy nicotine before it reaches the brain—depriving a person of the “reward” of nicotine that can trigger relapse into smoking.

For more than 30 years, Janda and his colleagues have struggled to create such an enzyme in the lab, but they recently ran across a potential enzyme found in nature—NicA2 from the bacteria known as Pseudomonas putida. It turns out this bacterium—originally isolated from soil in a tobacco field—consumes nicotine as its sole source of carbon and nitrogen.

“The bacterium is like a little Pac-Man,” said Janda. “It goes along and eats nicotine.”

In the new study, the TSRI researchers characterized the bacterial enzyme responsible for nicotine degradation and tested its potential usefulness as a therapeutic.

This image shows a cigarette stub on a road.

The idea behind an enzyme therapy would be to seek out and destroy nicotine before it reaches the brain—depriving a person of the “reward” of nicotine that can trigger relapse into smoking. This image is for illustrative purposes only.

The researchers first combined serum (a component of blood) from mice with a dose of nicotine equivalent to one cigarette. When they added the enzyme, the nicotine’s half-life dropped from two to three hours to just 9 to 15 minutes. Janda said a higher dose of the enzyme—with a few chemical modifications—could reduce the half-life of nicotine even further and keep it from ever reaching the brain.

Next, the researchers subjected the enzyme to a barrage of tests to determine its practicality as a drug candidate. “It was a long shot,” said Janda. “If it didn’t have the right metrics, it would be a bust.”

The results were encouraging. The enzyme stayed stable in the lab for more than three weeks at 98 degrees Fahrenheit—which Janda said was “pretty remarkable.” Importantly, the researchers detected no toxic metabolites produced when the enzyme degraded nicotine.

“The enzyme is also relatively stable in serum, which is important for a therapeutic candidate,” said Song Xue, a TSRI graduate student and first author of the new study.

Janda said the next step is to alter the enzyme’s bacterial makeup, which will help mitigate potential immune liabilities and maximize its therapeutic potential.

“Hopefully we can improve its serum stability with our future studies so that a single injection may last up to a month,” added Xue.

About this cancer research

In addition to Janda and Xue, Joel E. Schlosburg of TSRI was an author of the study, “A new strategy for smoking cessation: Characterization of a bacterial enzyme for the degradation of nicotine.”

Funding: The research was supported by the Skaggs Institute for Chemical Biology at TSRI.

Source: Scripps Research Institute
Image Source: The image is in the public domain
Original Research: Abstract for “A New Strategy for Smoking Cessation: Characterization of a Bacterial Enzyme for the Degradation of Nicotine” by Song Xue, Joel E. Schlosburg, and Kim D. Janda in Journal of the American Chemical Society. Published online August 3 2015 doi:10.1021/jacs.5b06605


Abstract

A New Strategy for Smoking Cessation: Characterization of a Bacterial Enzyme for the Degradation of Nicotine

Smoking is the leading cause of preventable diseases; thus, effective smoking cessation aids are crucial for reducing the prevalence of cigarette smoking and smoking-related illnesses. In our current campaign we offer a nicotine-degrading enzyme from Pseudomonas putida, NicA2, a flavin-containing protein. To explore its potential, a kinetic evaluation of the enzyme was conducted, which included determination of Km, kcat, buffer/serum half-life, and thermostability. Additionally, the catabolism profile of NicA2 was elucidated to assess the potential toxicity of the nicotine-derived products. In characterizing the enzyme, a favorable biochemical profile of the enzyme was discovered, making NicA2 a prospective therapeutic candidate. This approach provides a new avenue for the field of nicotine addiction therapy.

“A New Strategy for Smoking Cessation: Characterization of a Bacterial Enzyme for the Degradation of Nicotine” by Song Xue, Joel E. Schlosburg, and Kim D. Janda in Journal of the American Chemical Society. Published online August 3 2015 doi:10.1021/jacs.5b06605

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