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Genetic variation in statin response revealed in
new study
13/11/05 - 16/11/05, Dallas, Texas
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Scientific Sessions, the largest cardiovascular meeting
in the world, is being held in Dallas, Texas Nov. 13–16.
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DALLAS, Nov. 14 – A newly discovered genetic variation, in
combination with a second variation, reduces the ability of
statin drugs to lower “bad” LDL cholesterol, researchers report
at the American Heart Association’s Scientific Sessions 2005.
The new variation was found in a gene critical to the
synthesis of cholesterol. The combination of the two variations
occurred in nine African Americans (3 percent) and one Caucasian
(0.2 percent) participating in the study.
“We need to understand more clearly the basis for the wide
range of responses to statins, both in the lowering of
cholesterol and in outcomes, such as heart attacks and strokes,”
said Ronald M. Krauss, M.D., lead author of the study and
director of atherosclerosis research at Children’s Hospital
Oakland Research Institute in Oakland, Calif.
“This study is one piece of the overall equation that we and
others are trying to fill in to understand why some people do
not respond as well as others to statin therapy,” he said.
The new finding — somewhat akin to fitting together the first
pieces of a 1,000-part jigsaw puzzle — has no immediate
implications for treating patients, researchers said.
Many clinical studies have demonstrated that statin drugs
effectively lower cholesterol and reduce death from
cardiovascular disease. Evidence also indicates that genetic
inheritance influences the drugs’ effectiveness.
“We compared African Americans and Caucasians because they
have very different genetic histories,” Krauss said. “We were
interested in knowing if there were any differences in response
to the drugs between the two groups because there is very little
information in the scientific literature to answer the
question.”
Genes commonly have several slightly different forms. These
variations result from single nucleotide polymorphisms (SNPs). A
SNP is a place where one of the four building blocks of genes
has been substituted for another. Typically, however, two or
more SNPs are inherited together. Such a combination is called a
haplotype.
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For their study, Krauss and his colleagues enrolled 296 African
Americans and 573 Caucasians at the University of California,
San Francisco and the University of California, Los Angeles.
“They were largely representative of the people who are
candidates for statin treatment in clinical practice,” Krauss
said. Participants took one 40-milligram tablet of the drug
simvastatin each evening for six weeks.
The researchers identified nine haplotypes in the gene that
carries the code for HMGCoA reductase (HMGCR), an enzyme that
statin drugs target to reduce the production of cholesterol. The
nine included the newly discovered haplotype, designated Hap 2,
consisting of 12 SNPs. It also included a previously identified
haplotype associated with statin response that consists of two
SNPs and is known as Hap 7.
The findings included:
- The 35 African Americans who carried Hap 7 had a 34.1
percent reduction in LDL compared to 39.8 percent for
noncarriers. Caucasians with Hap 7 showed no significant
difference compared to noncarriers.
- The 10 participants who carried both Hap 7 and Hap 2 had
a much lower LDL reduction — 24.5 percent compared to 41.9
percent in the 620 volunteers who carried neither haplotype.
- Overall, Caucasians had an average drop in LDL of 42
percent versus 39.2 percent in African Americans, a small
but statistically significant difference.
- When the team excluded the 10 participants who carried
both Hap 7 and 2 from the analysis, they found no
significant difference in LDL-lowering between the 111
African Americans and 509 Caucasians who carried neither
haplotype. The two groups lowered their LDL by 41 percent
and 41.9 percent, respectively.
Krauss cautioned that nothing in the study’s findings
suggests restricting the use of statins in African Americans or
in subgroups carrying Hap 2 and Hap 7. “By no means would we
draw that conclusion,” he said. “This is just one gene and two
haplotypes, and there are certainly many more genes involved.
But an understanding of the basis for these genetic differences
in statin response could lead to improved treatments for
reducing LDL levels.”
Financial support for the study came from the National Heart,
Lung, and Blood Institute; Merck. Inc.; and Pfizer, Inc.
Co-authors are Huiying Yang, Ph.D.; Mark J. Rieder, Ph.D.;
Joshua D. Smith, M.S.; Kent D. Taylor, Ph.D.; Paul T. Williams,
Ph.D.; Dai Wang, Ph.D.; Xiuqing Guo, Ph.D.; Joel A. Simon, M.D.;
Stephen Hulley, M.D.; David D. Waters, M.D.; Mohammed Saad,
M.D.; Jerome I. Rotter, M.D.; and Deborah A. Nickerson, Ph.D.
Sources
American Heart Association - Scientific Sessions - 2005
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