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Discovery lays the foundation for yeast-based drug synthesis [Morphine,& Opioids!]
Phys.Org ^ | 05-18-2015 | Journal reference: Nature

Posted on 05/18/2015 12:06:04 PM PDT by Red Badger

Fans of homebrewed beer and backyard distilleries already know how to employ yeast to convert sugar into alcohol. But a research team led by bioengineers at the University of California, Berkeley, has gone much further by completing key steps needed to turn sugar-fed yeast into a microbial factory for producing morphine and potentially other drugs, including antibiotics and anti-cancer therapeutics.

Over the past decade, a handful of synthetic-biology labs have been working on replicating in microbes a complex, 15-step chemical pathway in the poppy plant to enable production of therapeutic drugs. Research teams have independently recreated different sections of the poppy's drug pathway using E. coli or yeast, but what had been missing until now were the final steps that would allow a single organism to perform the task from start to finish.

In a new study to appear in the Monday, May 18, advanced online publication of the journal Nature Chemical Biology, UC Berkeley bioengineer John Dueber teamed up with microbiologist Vincent Martin at Concordia University in Québec to overcome that hurdle by replicating the early steps in the pathway in an engineered strain of yeast. They were able to synthesize reticuline, a compound in poppy, from tyrosine, a derivative of glucose.

"What you really want to do from a fermentation perspective is to be able to feed the yeast glucose, which is a cheap sugar source, and have the yeast do all the chemical steps required downstream to make your target therapeutic drug," said Dueber, the study's principal investigator and an assistant professor of bioengineering. "With our study, all the steps have been described, and it's now a matter of linking them together and scaling up the process. It's not a trivial challenge, but it's doable."

Paving the path from plants to microbes

The qualities that make the poppy plant pathway so challenging are the same ones that make it such an attractive target for research. It is complex, but it is the foundation upon which researchers can build new therapeutics. Benzylisoquinoline alkaloids, or BIAs, are the class of highly bioactive compounds found in the poppy, and that family includes some 2,500 molecules isolated from plants.

Perhaps the best-known trail in the BIA pathway is the one that leads to the opiates, such as codeine, morphine and thebaine, a precursor to oxycodone and hydrocodone. All are controlled substances. But different trails will lead to the antispasmodic papaverine or to the antibiotic precursor dihydrosanguinarine.

"Plants have slow growth cycles, so it's hard to fully explore all the possible chemicals that can be made from the BIA pathway by genetically engineering the poppy," said study lead author William DeLoache, a UC Berkeley Ph.D. student in bioengineering. "Moving the BIA pathway to microbes dramatically reduces the cost of drug discovery. We can easily manipulate and tune the DNA of the yeast and quickly test the results."

The researchers found that by repurposing an enzyme from beets that is naturally used in the production of their vibrant pigments, they could coax yeast to convert tyrosine, an amino acid readily derived from glucose, into dopamine.

With help from the lab of Concordia University's Vincent Martin, the researchers were able to reconstitute the full seven-enzyme pathway from tyrosine to reticuline in yeast.

"Getting to reticuline is critical because from there, the molecular steps that produce codeine and morphine from reticuline have already been described in yeast," said Martin, a professor of microbial genomics and engineering. "Also, reticuline is a molecular hub in the BIA pathway. From there, we can explore many different paths to other potential drugs, not just opiates."

Red flag for regulators

The study authors noted that the discovery dramatically speeds up the clock for when homebrewing drugs could become a reality, and they are calling for regulators and law enforcement officials to pay attention.

"We're likely looking at a timeline of a couple of years, not a decade or more, when sugar-fed yeast could reliably produce a controlled substance," said Dueber. "The time is now to think about policies to address this area of research. The field is moving surprisingly fast, and we need to be out in front so that we can mitigate the potential for abuse."

In a commentary to be published in Nature and timed with the publication of this study, policy analysts call for urgent regulation of this new technology. They highlight the many benefits of this work, but they also point out that "individuals with access to the yeast strain and basic skills in fermentation would be able to grow the yeast using the equivalent of a homebrew kit."

They recommend restricting engineered yeast strains to licensed facilities and to authorized researchers, noting that it would be difficult to detect and control the illicit transport of engineered yeast strains.

While such controls may help, Dueber said, "An additional concern is that once the knowledge of how to create an opiate-producing strain is out there, anyone trained in basic molecular biology could theoretically build it."

Another target for regulation would be the companies that synthesize and sell DNA sequences. "Restrictions are already in place for sequences tied to pathogenic organisms, like smallpox," said DeLoache. "But maybe it's time we also look at sequences for producing controlled substances."

Explore further: Bioengineers close to brewing opioid painkillers without using opium from poppies

More information: An enzyme-coupled biosensor enables (S)-reticuline production in yeast from glucose, Nature Chemical Biology, DOI: 10.1038/nchembio.1816


TOPICS: Business/Economy; Crime/Corruption; Culture/Society
KEYWORDS: antibiotics; gmo; morphine; wod; wof; wot; yeast

Yeast cells producing the yellow beet pigment betaxanthin, which UC Berkeley researchers used to quickly identify key enzymes in the production of benzylisoquinoline alkaloids (BIAs). BIAs are the metabolites in the poppy plant that could lead to morphine, antibiotics and other pharmaceutical agents. Credit: William DeLoache/UC Berkeley

1 posted on 05/18/2015 12:06:04 PM PDT by Red Badger
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To: Red Badger; SunkenCiv

I could actually see this to be seriously useful in a TSHTF scenario, or .gov restricting painkillers to the point where folks that need them can’t get them. We’re practically there on the latter point already.

Things like this and 3D Printing is going to give the bureaucracy some serious heartburn! (you gotta love that)


2 posted on 05/18/2015 12:11:14 PM PDT by KoRn (Department of Homeland Security, Certified - "Right Wing Extremist")
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To: Red Badger

Why not? Virtually all of the citric acid produced in the last century came from a microbial source, and not citrus fruit.

CC


3 posted on 05/18/2015 12:13:15 PM PDT by Celtic Conservative (Sufficient unto the day are the troubles therof)
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To: Red Badger

mrk’d


4 posted on 05/18/2015 12:14:22 PM PDT by piroque ("In times of universal deceit, telling the truth becomes a revolutionary act")
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To: KoRn

It also screws up the organized quasi-criminal enterprises that operate in Afghanistan, Venezuela and Columbia.


5 posted on 05/18/2015 12:14:37 PM PDT by Cboldt
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To: Red Badger

Later


6 posted on 05/18/2015 12:26:24 PM PDT by gaijin
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To: Red Badger

Amazing.


7 posted on 05/18/2015 12:27:56 PM PDT by RushIsMyTeddyBear (The White House is now known as "Casa Blanca".)
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To: Cboldt
"It also screws up the organized quasi-criminal enterprises that operate in Afghanistan, Venezuela and Columbia."

Along with Pharmaceuticals, which have a virtual monopoly to manufacture and distribute such medicines.

8 posted on 05/18/2015 1:00:33 PM PDT by KoRn (Department of Homeland Security, Certified - "Right Wing Extremist")
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To: KoRn; AdmSmith; AnonymousConservative; Berosus; bigheadfred; Bockscar; cardinal4; ColdOne; ...

Thanks KoRn.


9 posted on 05/19/2015 2:51:02 PM PDT by SunkenCiv (What do we want? REGIME CHANGE! When do we want it? NOW!)
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