An international group of researchers has discovered seven new regions of the human genome -- called loci-that are associated with increased risk of age-related
macular degeneration(黄斑变性) (AMD), a leading cause of blindness. The AMD
Gene1 Consortium, a network of international
investigators2 representing 18 research groups, also confirmed 12 loci identified in previous studies. The findings are reported online today in the journal Nature Genetics. Supported by the National Eye Institute (NEI), a part of the National Institutes of Health, the study represents the most comprehensive genome-wide analysis of
genetic3 variations associated with AMD. "This
compelling(引人注目的) analysis by the AMD Gene Consortium demonstrates the enormous value of effective collaboration," said NEI Director Paul A.
Sieving4, M.D., Ph.D. "Combining data from multiple studies, this international effort provides insight into the
molecular5 basis of AMD, which will help researchers search for causes of the disease and will inform future development of new diagnostic and treatment strategies."
AMD affects the
macula(斑点), a region of the retina responsible for central vision. The retina is the layer of light-sensitive tissue in the back of the eye that houses rod and
cone6 photoreceptor cells. Compared with the rest of the retina, the macula is especially
dense7 with cone photoreceptors and is what humans rely on for tasks that require sharp vision, such as reading, driving, and recognizing faces. As AMD progresses, such tasks become more difficult and eventually impossible. Some kinds of AMD are treatable if detected early, but no cure exists. An estimated 2 million Americans have AMD.
Scientists have shown that age, diet, and smoking influence a person's risk of developing AMD. Genetics also plays a strong role. AMD often runs in families and is more common among certain ethnicities, such as people of Asian or European descent.
Since the 2005 discovery that certain variations in the gene for
complement8 factor H -- a
component9 of the immune system -- are associated with major risk for AMD, research groups around the world have conducted genome-wide association studies to identify other loci that affect AMD risk. These studies were made possible by tools developed through the Human Genome Project, which mapped human
genes10, and related projects, such the International HapMap Project, which identified common patterns of genetic variation within the human genome.