Scientists
use bioengineered yeast instead of poppies to make opioids
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[August 14, 2015]
By Will Dunham
WASHINGTON (Reuters) - Scientists have
invented a speedy method to make potent painkilling opioids using
bioengineered baker's yeast instead of poppies, but need to fine-tune
the process to make it commercially viable, according to a study
published on Thursday.
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The new method, if it can be made more efficient, could
significantly change the multibillion-dollar pain medication
manufacturing business, but raises concerns about aggravating the
growing problem of opioid abuse.
This same type of approach potentially also could be used to make
other currently plant-based medicines for fighting cancer,
infectious diseases and chronic illnesses.
The scientists said they altered the yeast's genetic make-up in a
way that coaxed the cells to convert sugar into two opioids -
hydrocodone and thebaine - in three to five days.
Hydrocodone, which shuts down pain receptors in the brain, and
related chemicals like morphine and oxycodone are part of a group of
painkilling drugs called opioids produced from the opium poppy.
Making opioids from opium poppies can take more than a year.
"This is important because, with further development, it may provide
an alternative supply for these essential medicines and allow
greater access for most of the global population that currently has
insufficient access to pain medication," said Stanford University
bioengineering professor Christina Smolke, who led the research
published in the journal Science.
The researchers said they recognized their findings on a quicker
process to make opioids could generate concern about worsening the
growing abuse of these painkillers.
Smolke's team inserted DNA into the yeast that encodes instructions
for the cells to make the enzymes necessary to perform the sugar
conversion steps.
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The baker's yeast was engineered with 23 genes from six different
organisms: the brown rat, the goldthread herb, the California poppy,
the Iranian poppy, the opium poppy and a soil bacterium called
Pseudomonas putida.
The process unveiled by Smolke's team represents "proof of principle
experiments" showing that the bioengineered yeast can produce small
amounts of opioid painkillers from scratch, Smolke said. Currently,
about 4,400 gallons of bioengineered yeast would be needed to yield
a single dose of the medication.
Smolke said the process needs to be improved to make it efficient
enough for commercial production, saying this could take several
years.
Stanford University holds the patents on the technology described by
the researchers, who have formed a company to pursue the commercial
applications.
(Reporting by Will Dunham; Editing by Bill Rigby)
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