The pineal gland - integral to setting the body's sleep and wake cycles - may be involved in a broad range of bodily functions, according to a study by researchers at the National Institutes of Health and other institutions.

Using a technology that scans for the activity of thousands of genes at a time, the researchers found that the activity of more than 600 genes in the pineal gland are synchronized in some way with the 24-hour sleep and wake cycle. The genes influence such diverse functions as inflammation and immunity.

Researchers have traditionally studied the gland in hopes of gaining insight into the health problems of shift workers and people who frequently travel between time zones. The pineal gland produces the hormone melatonin, which regulates the cycle of sleep and waking.
"The results of this study indicate that the pineal gland may be involved in a far greater range of physiological functions than we thought," said Duane Alexander, M.D., director of NIH's Eunice Kennedy Shriver National Institute of Child Health and Human Development, where much of the research took place. "An understanding of how the pineal gland interacts with the genes that the researchers identified could provide insight into a broad range of disorders and conditions."

The study appears in the March 20, 2009 issue of The Journal of Biological Chemistry. The study's first author was Michael J. Bailey, of the NICHD Section on Neuroendocrinology. Other authors of the paper were from the NIH Center for Information Technology, NIH's National Institute of Mental Health, Cardiff University, Wales, the University of Copenhagen, Denmark, King's College of London, England, and The Genomics Institute of the Novartis Research Foundation, San Diego, Calif.

The pineal gland is located within the brain, explained the study's senior author, David Klein, Ph.D., Chief of the Section on Neuroendocrinology. To conduct the study, Dr. Klein and his colleagues analyzed rodent pineal glands with a gene chip, a device that can analyze the activity of thousands of genes at a time. The researchers found that the activity of 604 genes changed on a 24-hour schedule, more than has been reported to occur in any other tissue.

The researchers discovered that these genes increase their activity from 2- to 100-fold during a 24-hour cycle. About 70 percent of the genes were found to increase activity at night, the remaining 30 percent during the day. The genes are involved in a variety of functions, and govern such processes as:

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