Scientists report that research in zebrafish has helped identify the cause of an unknown genetic disorder affecting a boy and two of his uncles.
In an article published October 14 in the journal Genetics, scientists report that research in zebrafish has helped identify the cause of an unknown genetic disorder affecting a boy and two of his uncles. The findings demonstrate the growing importance of zebrafish as laboratory models of rare diseases. Such models allow geneticists to make sense of the deluge of candidate disease genes being uncovered by advances in sequencing technologies. Although rare diseases are uncommon individually, together they affect as many as 25 million people in the United States.
The project began when a young boy with a puzzling constellation of symptoms was referred to medical geneticist Susan Brooks of the Rutgers Robert Wood Johnson Medical School. The child was suffering from delayed development, recurrent fevers, seizures, and slow growth. He also had poor head growth, resulting in microcephaly, or head size much smaller than healthy children his age. Two of the boy's uncles shared many of these symptoms, suggesting that the mysterious disorder might be caused by a recessive mutation on the X-chromosome. Such "X-linked" mutations can be carried by both males and females, but with few exceptions, cause symptoms only in males.
Using this clue, the scientists tracked down a mutation carried only by the affected males and their mothers, within a gene called RPL10 located on the X-chromosome. This gene encodes part of the ribosome, which is a central piece of the molecular machinery that translates the genetic code into proteins.
But although they now had a candidate mutation, they couldn't tell if it had actually caused the disorder or if it was merely one of the many harmless DNA variants that litter the genomes of every family.
For more common genetic diseases, scientists can confirm that a candidate mutation causes a disease by identifying other families with the same mutation and same symptoms. But this variant was unique. Although a few mutations in other parts of the RPL10 gene had been found previously, those who carried them did not show clinical signs similar to this family's disorder. So, the team turned to the next best option for studying very rare variants — they tested the effect of the mutation in a model organism.
Brooks enlisted the help of a Duke University team led by Erica Davis from the Center for Human Disease Modeling, with most of the zebrafish experimental work performed by then-undergraduate Alissa Wall. They showed that dampening expression of the zebrafish rpl10 gene caused the animals to develop significantly smaller heads — in other words, they were displaying the fish version of microcephaly.
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With assistance from Duke researchers in Christopher Nicchitta's group, who specialize in the mechanics of protein translation, the team was even able to start investigating the specific effects of the mutation that might lead to smaller head size: when zebrafish rpl10 expression was suppressed, the animals showed reduced protein production and increased cell death within the brain.
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"This was a one-of-a-kind family affected by a disorder that no one had ever seen before. But they are not alone," said Davis. "Many others suffer from ultra-rare genetic diseases, and one of the best ways of finding answers for these families is for clinicians and model organism researchers to join forces."
Zebrafish are particularly useful for this kind of study because they strike a balance between evolutionary relatedness to humans and the speed and cost of research. For example, around 70% of human protein-coding genes have an equivalent in zebrafish. That figure rises to 84% when you consider only those genes known to be associated with disease. But compared to laboratory mice and rats, zebrafish are considerably cheaper to maintain and faster to grow.
Source-Eurekalert