An experimental anti-cancer drug can prevent -- and even reverse -- potentially fatal cardiovascular damage in a mouse model of progeria, a rare genetic disorder that causes the most dramatic form of human premature ageing, National Institutes of Health (NIH) researchers reported today.
In a study published in the Oct. 6 early online edition of the Proceedings of the National Academy of Sciences, a team led by Francis S. Collins, M.D., Ph.D., of the National Human Genome Research Institute (NHGRI), and Elizabeth G. Nabel, M.D., director of the National Heart, Lung and Blood Institute (NHLBI), describes its effort to use transgenic mice to identify and test potential therapies for children with Hutchinson-Gilford progeria syndrome.
There currently are no treatments for progeria, which is estimated to affect about one child in 4 million. At birth, children with progeria appear normal. But soon growth slows, and the children begin to show signs of accelerated ageing, such as hair loss, wrinkled skin and loss of body fat. The most lethal damage, however, occurs within the children's major blood vessels. The children develop premature cardiovascular disease, which typically leads to death from heart attack or stroke at about the age of 13.
Building upon its past experiments in cells and mice, the NIH-led team examined the effects of an experimental cancer drug, tipifarnib, in a strain of mice genetically engineered to develop cardiovascular damage similar to that seen in progeria patients. Tipifarnib belongs to a class of drugs known as farnesyltransferase inhibitors (FTIs), which are being tested in people with myeloid leukemia, neurofibromatosis and other conditions. The team had previously found that FTI drugs could reverse structural abnormalities in skin cells taken from progeria patients and grown in the laboratory.
"This approach worked much better than we thought it would. Not only did this drug prevent these mice from developing cardiovascular disease, it reversed the damage in mice that already had disease," said the study's senior author, Dr. Collins, who is the former director of NHGRI and who continues to conduct research as a special volunteer in the Genome Technology Branch of NHGRI's Division of Intramural Research.
Researchers emphasised that more work needs to be done to determine whether FTI drugs will reverse progeria-associated cardiovascular disease in humans the same way they do in mice. In children suffering from progeria, the cardiovascular disease process often remains relatively stable until late in life, when it dramatically accelerates.
"If these are found to have similar effects in children, this could mark a major breakthrough for treating this devastating disease," said NHLBI's Dr. Nabel, who was a co-author of the study. "In addition, these findings shed light on the potential role of FTI drugs to treat other forms of coronary artery disease."
In 2007, researchers led by Mark Kieran, M.D., Ph.D., at the Dana-Farber Cancer Institute in Boston launched a clinical trial of another FTI drug, lonafarnib, in 28 progeria patients, ranging in age from 3 to 15, from 16 countries. Results of that study are not expected for at least a year.
Earlier this year, in experiments involving a different type of mouse model for progeria, a group of researchers from Spain and France reported that a combination of statin and bisphosphonate drugs slowed development of the visible symptoms of aging and extended life spans in the animals. Both drugs act upon the same biological pathway as FTI drugs.
While progeria affects only a few dozen children worldwide, efforts aimed at untangling the biological roots of this rare disease may prove valuable in understanding the human aging process in general. "What we learn through studies of rare genetic disorders often has implications for more common conditions," said NHGRI Eric D. Green, M.D., Ph.D. "For example, a growing body of evidence indicates that all people produce small amounts of the mutant protein found in progeria patients, and that this protein may play roles in ageing or longevity."
Definition Of Cardiovascular Disease
Cardiovascular Disease is becoming a growing issue in our fast paced society, and no one is exempt from being at risk. It is classified as any disease that affects the blood vessels and the heart. It is brought on by numerous factors such as high blood pressure, high bad cholesterol, obesity, stress, and lack of exercise.
It is very important that you find out how to prevent cardiovascular disease now, no matter what age group you belong to. The cases of this disease have been dropping somewhat, but even so it remains one of the leadings causes of death. As a matter of fact, over 1 million people died of complications brought on by the disease in 1999 alone. In order to stop ardiovascular disease now, it is important that you understand what exactly puts you at risk of this horrible affliction.
First on the list is cigarette smoking. Everyone knows of the risk that smoking poses to your lungs, but often the fact that it can cause cardiovascular disease is overlooked. The good news is that if you quit smoking now, you will have decreased your chance of getting cardiovascular disease by 40 percent within the first 5 years. With all the other healthy benefits of quitting smoking, you should really consider giving it up.
High blood pressure is another common cause. Basically, the lower your blood pressure within the reasonable limits, the better chance you have to prevent cardiovascular disease. If you have high blood pressure, make sure you monitor it, checking it often. Also, see your doctor regularly.
Another big risk is blood cholesterol levels. There has been clear evidence that there is a link between high cholesterol and cardiovascular disease. Research has shown that there are two kinds of cholesterol: good cholesterol or LDL, and bad cholesterol or HDL. In order to keep your bad cholesterol low, always exercise and eat heart friendly foods. These foods will always have a heart image on their packaging.
One thing is for certain, you cannot prevent cardiovascular disease if you do not exercise. Lack of exercise is one of the more common reasons why people develop cardiovascular diseases. In fact, it is regarded as one of the 4 major causes of cardiovascular disease. Make sure you begin by exercising a little bit each day and gradually working your way up; you do not have to overdo it when you first start out.
Besides the 4 major causes of cardiovascular disease, other causes include: obesity and diabetes. Those who are obese will often not get exercise and will have high blood pressure and cholesterol.
Make sure you follow the aforementioned advice and see your primary care physician if you think you may be at risk. Your doctor has many methods by which he or she can help you to prevent cardiovascular disease that may end up saving your life someday. With so many people dying from the complications that it brings on, it is important that you take the proper measures to stop cardiovascular disease now before it can have a chance to ruin your health.
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