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Key Protein In Stress Response Mechanism Identified

by VR Sreeraman on September 4, 2007 at 7:28 PM
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Key Protein In Stress Response Mechanism Identified

A new study has revealed that a protein molecule, Osteopontin, involved in many different cellular processes plays a significant role while responding to chronic stress.

Osteopontin plays a vital part in immune deficiency and organ atrophy following chronic physiological stress such as space flight, which leads to greater propensity to illness.

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"Following periods of prolonged physical stress such as when astronauts live in microgravity, white blood cells that fight disease, called lymphocytes, die at an increased rate and immune system organs like the thymus and spleen lose mass and begin to atrophy," said Dr. Yufang Shi, investigator on National Space Biomedical Research Institute Radiation Effects Team and professor of molecular genetics, microbiology and immunology at the University of Medicine and Dentistry of New Jersey.

Immune system organs include the thymus, spleen, lymph nodes and bone marrow.

"By determining the role of lymphocyte death in a stressed immune system, we may be able to develop therapies to maintain a healthy immune system, which can help in space and in clinical settings to prevent and treat malignancy and infections," Dr. Shi said.
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It is known that space flight and long periods of physiological stress cause changes in the immune system. "Until now, the role of OPN in the stress response of immune organs has never been examined," Shi said.

Through an animal study, Shi and colleagues simulated space flight conditions to investigate its effects on the immune system. They found that infection-fighting white blood cells inappropriately die off in large numbers, leading to immune-organ atrophy and the decreased ability of the immune system to protect the body from illness.

The team studied two types of mice, one group with the normal OPN gene and another group lacking this gene. The mice experienced three days of hind limb unloading, a widely used technique to simulate the physiologic changes that astronauts experience during space flight. With this technique, body fluids shift similarly to how they do in micro gravity (toward the head instead of toward the extremities) and immune system changes occur.

Mice of both types made up the control groups, which did not undergo unloading. After three days, the researchers compared the mice with normal OPN and the OPN-lacking mice. The normal OPN mice experienced weight loss, spleen and thymus atrophy, and a reduced number of white blood cells. In addition, increased levels of corticosterone, a steroid that contributes to the death of white blood cells, were found only in the normal OPN mice studied.

By contrast, the mice lacking the OPN gene showed statistically insignificant changes in weight and the levels of corticosterone, and were more similar to the control group.

"White blood cell death in the spleen and thymus was evident only in the mice with normal OPN. Since white blood cells were dying rather than increasing, that indicates partly why immune system organs atrophy during prolonged physical stress," Shi said.

The team concluded that under chronic physical stress, OPN must be present for the increase in corticosterone, which leads to atrophy and white blood cell death.

Shi hopes that this finding will lead to preventative treatments in the future. "Already we're researching an antibody that can remove OPN from blood serum. Perhaps one day, we can turn this research into a therapy to counteract white blood cell death in immune system organs and keep humans healthier during times of prolonged physical stress," Shi said.

The study appears in the September 4th issue of the Proceedings of the National Academy of Sciences.

Source: ANI
LIN/C
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