CLEMSON University researchers found that chicken eggs can provide a better understanding of human birth defects.
Susan Chapman, associate professor in Clemson's College of Agriculture, Forestry & Life Sciences, received a South Carolina IDeA Networks of Biomedical Research Excellence award that allowed researchers to identify two regions in the chicken genome that are associated with congenital deafness and spine deformities in humans.
Chapman examined the eggs from the Araucana breed of chicken (pictured), a popular show bird because of its ear tufts, rounded rump and blue eggs, which were each a result of a change or mutation in the DNA.
"Using eggs from these birds, we can learn which mutations influence normal development and then apply that knowledge to human health issues," Chapman said.
One mutation the researchers identified in the Araucana causes failure of the final few vertebrae of the spine to form, which leads to the unusual "rumpless" bird. In humans, this results in a fairly severe defect, including lower-leg paralysis and urinary and bowel incontinence. However, the chicken mutation is not as severe, and the birds live a normal, but tailless, life.
The researchers identified a region of mutations in the Araucana that lead to its rumplessness and contain a family of genes that are important in making cells in the nervous system, Clemson said. These genes do not normally function in the region that gives rise to the tail, but in the Araucana, they are active, which changes the fate of the cells in the region. Because the cells in the mutant become neurons rather than vertebral cells, the final vertebrae of the spine fail to form.
The researchers identified another mutation in the Araucana containing genes known to cause DiGeorge syndrome in humans, a disorder that results in poor development of several body systems, including the facial bones, cleft palates, heart defects, poor immune system function, complications related to low levels of calcium in the blood and behavioral disorders.
The mutation in the Araucana leads to the formation of the ear tufts and abnormal middle ear blockages, causing conductive deafness. While the bird's ear tufts may look appealing, they hide the hearing defect that affects these birds.
Clemson said investigating the Araucana mutations is helping researchers understand how the embryo develops normally, which suggests reasons why the development process goes wrong and what potentially can be done to avoid or treat such conditions.
The long-term goal of this research is to offer options and therapies to families faced with deafness, infections and birth defects and to their health care providers.