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‘Fluorescent fish’ at NCSU shed light on gene function

Researchers insert a fluorescent marker into zebrafish that allows them to track a gene that is linked to tumor development. When the gene is expressed, fish turns red under ultraviolet light.

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Editor’s note: Local Tech Wire publishes selected stories from the news services of various universities as part of its UniversityTech coverage. LTW is enhancing its coverage of scientific and research efforts at regional universities where many of tomorrow’s discoveries are being made and the foundations of new companies are in the process of being created.

By Tracey Peake, NCSU News Service

RALEGH, N.C. - Researchers at North Carolina State University are using fluorescent fish as a molecular “beacon” to study the early stages of animal development.

The researchers focused their attention on a gene – known as Sp2 – that regulates the expression of other genes, and the fluorescent fish they created may also provide hints to the causes of tumor development.

Sp2 is a member of the Sp family of transcription factors – proteins that act as cellular “switchboard operators” by turning genes on or off as needed. NC State researchers had noted that the development of skin tumors was correlated with the production of too much Sp2, and others noted similar findings in prostate cancers, but beyond that very little was known about the protein.

Dr. Jonathan Horowitz, associate professor of oncology at NCSU’s Molecular Biomedical Sciences department, and NC State researchers Jianzhen Xie, Haifeng Yin, Teresa Nichols and Dr. Jeffrey Yoder, wondered whether they could use over-production of Sp2 as an early indicator of tumor formation. They inserted a fluorescent marker into zebrafish – attached to the Sp2 gene – allowing them to trace the synthesis of Sp2 throughout the organism. When the zebrafish were viewed under ultraviolet light, the Sp2 marker glowed red where the gene was expressed.

“Zebrafish are good model animals for this research because their embryos develop in a 24-hour period, and they develop externally so you can watch what is happening under a microscope,” Horowitz says. “Additionally, their Sp2 protein is the same as those found in mammals, so the function of the protein will be the same in humans as in zebrafish.”

According to Horowitz, earlier findings had suggested that Sp2 regulated development – not just of tumors, but of the organism as a whole. When the team looked at the zebrafish, they quickly saw just how critical Sp2 was to embryonic development.

“We noticed that in the adult zebrafish that carried the fluorescent marker, the ‘lights were out’ except in the ovaries of the females, which glowed bright red,” Horowitz says. “Then when the female laid her eggs, they also glowed red. This told us that Sp2 must be important for the earliest stages of development. Sure enough, if we eliminated Sp2 in an embryo, the embryo simply didn’t develop. We think that we’ve uncovered a fundamental mechanism for embryonic development.”

The team’s findings will appear in the Feb. 3 issue of the Journal of Biological Chemistry.

Horowitz believes that the fluorescent fish will help him answer another question about Sp2: whether the protein plays a role in the development of certain types of cancer.

“If Sp2 is important in the development of brain cancer, for example, and you’re using our fluorescent zebrafish to study brain tumors, then theoretically as the tumor grows you should see a bright red brain when you look at those fish under ultraviolet light,” Horowitz says. “We think that these fish may be a useful tool – an aquatic canary in the coal mine – that will allow us to detect early tumor development.”
 

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