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October 23, 2001

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FRESH EVIDENCE POINTS TO MARINE BACTERIA AS SOURCE OF ANTI-CANCER DRUG
Research methods may pave the way for future new drugs from the sea

VIDEO
Haygood on marine drug development
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Researchers at Scripps Institution of Oceanography at the University of California, San Diego (UCSD), have produced evidence that bacteria living inside a small marine animal may be the source of a new drug compound being developed to fight cancer.

The marine invertebrate Bugula neritina, a brown bryozoan animal with stringy tufts that look like algae, appears unremarkable and similar to a variety of moss-like sea creatures. In fact, bryozoans are widely known by boat operators, who consider them ordinary fouling organisms and often scrape them off their vessels' hulls.

But their potential may be far from ordinary. Scientists previously discovered Bugula neritina to be the source of bryostatins, a family of chemical compounds currently being studied for their ability to treat a variety of cancers. The anticancer drug Bryostatin 1 can be extracted from colonies of Bugula neritina.

The new study provides evidence that bacteria that live inside Bugula neritina, and are passed in larvae from one generation to the next, are the likely source of the anticancer compound.

VIDEO
Haygood on unlocking the potential of drugs from the sea
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"This paper presents a whole series of experiments from a variety of different directions that provide evidence that this bacteria may indeed be the agent for producing the drug," said Margo Haygood, the senior author of the paper appearing in this month's issue of Applied and Environmental Microbiology.

Through the experiments, Haygood and her co-authors identified a gene of the type that produces the compound. They also showed that the gene is expressed solely in the bacteria, called "Candidatus Endobugula sertula."

The findings pave the way for new studies in Haygood's laboratory, research that addresses problems historically facing the development of drugs from the sea.

"Currently there really isn't a practical way to produce enough bryostatin for people to use. Even if there were enough of the animals out there, collecting enough would be environmentally destructive. This is one of the biggest problems in the development of drugs from marine organisms," said Haygood, an associate professor in the Marine Biology Research Division and the Center for Marine Biotechnology and Biomedicine at Scripps.

VIDEO
Haygood on bryozoans
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"There are many cases of these very interesting and useful compounds that are found in marine invertebrates that are suspected to be made by bacterial symbionts (organisms living in symbiosis with another). This work is important because if we can use this experimental system to unlock the potential of these bryostatin drugs, it can serve as a model for many, many others."

Haygood's new research is addressing two areas: Attempting to cultivate and grow the bacteria outside of its natural environment within Bugula neritina; and attempting to clone the genes that make the drug and deliver them into an organism that can be more practically produced in large quantities.

Most anticancer drugs act by killing any rapidly growing cells, inevitably interfering with the body's normal processes. Bryostatin 1 "flips a switch" that controls how cells behave in the body. In the case of leukemia cells, for example, it seems to bring them to their senses and make them behave like normal blood cells. The drug is now in clinical trials for use in humans.

CalBioMarine Technologies Inc. of Carlsbad, Calif., has signed an exclusive agreement with UCSD to commercialize Haygood's findings for the eventual commercial supply of bryostatin.

Co-authors of the paper include Seana Davidson, Scott Allen, Grace Lim, and Christine Anderson. Davidson is now at the University of Washington. The study was supported by the California Sea Grant College Program, the National Sea Grant Technology Program, the National Cancer Institute, CalBioMarine Technologies Inc., and the Howard Hughes Medical Institute.

 



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