University of California, Davis
November 4, 2005
FIRST GENE MUTATION TO CAUSE HEART DISEASE IN CATS IDENTIFIED
A gene mutation responsible for a devastating heart disease in cats
-- which is also a leading cause of sudden death in young athletes --
has been identified by a team of researchers at the University of
California, Davis; The Ohio State University; and the Baylor College
of Medicine.
This is the first report of a spontaneous genetic mutation causing
any type of heart disease in a cat or dog and the first to identify a
mutation in a non-human species causing hypertrophic cardiomyopathy.
The discovery of the mutation in Maine coon cats was reported Oct. 19
online in the journal Human Molecular Genetics.
The human form of hypertrophic cardiomyopathy was responsible for the
deaths of the Boston Celtics' Reggie Lewis in 1993 and Loyola
Marymount University basketball player Hank Gathers in 1990. The
disease causes an excessive thickening of the muscle of the left
ventricle, the lower left chamber of the heart.
"This finding paves the way for development of a screening test that
will identify those Maine coon cats carrying this genetic mutation so
that they can be identified before they are bred, thus reducing the
incidence of the disease and, we hope, ridding this breed of the
disease," said Mark Kittleson, a veterinary cardiologist at UC Davis
and a co-author on the study.
"We also are hopeful that this discovery will provide a valuable
model for investigators in both veterinary and human medicine who are
studying the disease," he said. He noted that the findings of this
study should equip scientists to further investigate the mechanism by
which this mutation leads to thickening of the muscle and potentially
to pursue novel treatments for the disease, based on this knowledge.
The nature of hypertrophic cardiomyopathy
Hypertrophic cardiomyopathy occurs in one out of every 500 humans and
is the most common heart disease in domestic cats. It is
characterized by progressive thickening of the left ventricular
myocardium (heart muscle) -- most commonly during adolescence and
young adulthood in both humans and cats -- a defect that can be
detected if the heart is examined using an ultrasound procedure known
as echocardiography.
The disease, however, is highly variable, and in some cases
ultrasound evidence is not present until much later in life. Sudden
death from abnormal electrical activity in the heart can occur at any
stage. At some age, the disease reaches its maximum severity, ranging
from mild to severe. In cats, if the disease is severe, it causes
heart failure.
When viewed at the microscopic level, hypertrophic cardiomyopathy in
humans and Maine coon cats appears as poorly aligned muscle fibers.
The fibers are aligned in an orderly parallel fashion in normal heart
muscle but are scattered erratically in a heart affected by the
disease. This abnormality is thought to interfere with the electrical
activity of the heart, resulting in rapid or irregular heart rhythms.
Cats with hypertrophic cardiomyopathy often develop severe disease,
which may lead to heart failure, or a blood clot in the heart's left
atrium that most commonly breaks loose and lodges in the terminal
aorta, resulting in acute pain and paralysis. Sudden death often
occurs.
"Veterinary therapies for this condition in domestic cats cannot halt
the progression of the disease," Kittleson said.
"These therapies are only able to provide limited relief when the
disease is severe, so the prognosis for severely affected cats is
often poor," he added. "Consequently, preventing the disease from
occurring by identifying affected cats before they are bred can save
a lot of heartache."
Maine coon cat colony at UC Davis
Since the early 1990s, Kittleson and colleagues, primarily Kathryn
Meurs, formerly of The Ohio State University and lead author on this
paper, have been studying the genetic basis of the disease in a
research colony of Maine coon cats at UC Davis. Meurs is now at
Washington State University.
The research project began when Marcia Munro, a private owner of a
Maine coon cat with hypertrophic cardiomyopathy, notified Kittleson
that she knew of several cats related to her cat that also had the
disease.
The Maine coon cat is a native American longhaired breed in which,
along with many other cat breeds, hypertrophic cardiomyopathy is
common. The disease is most frequently diagnosed in non-purebred
middle-aged cats, although it has been diagnosed in cats ranging from
one to 13 years of age.
Previous research in humans with hypertrophic cardiomyopathy has
identified more than 200 mutations in 11 genes involved with the
production of certain muscle proteins known as sarcomeric proteins,
which are responsible for the heart's contraction. It previously had
been thought that a mutation in one of these genes might also lead to
hypertrophic cardiomyopathy in Maine coon cats by affecting protein
function or structure.
Now that one gene mutation has been identified in one cat breed, the
researchers hope that the same mutation or, more likely, different
mutations will be identified in other purebred cats.
The researchers evaluated 23 related Maine coon cats from a colony of
this breed at UC Davis and 100 unaffected mixed-breed cats for the
control group. The cats were examined with echocardiograms to
determine the presence and severity of hypertrophic cardiomyopathy.
Sixteen of the 23 Maine coon cats were found to have the disease.
Hunt for the gene mutation
Meurs and colleague Peter Reiser of the College of Dentistry at The
Ohio State University found that Maine coon cats affected with
hypertrophic cardiomyopathy had a marked reduction in one of the
sarcomeric proteins, known as cardiac myosin binding protein C.
Because of this abnormality, the researchers decided to target this
protein for analysis.
In the cats with hypertrophic cardiomyopathy, they discovered a
change in one of the pairs of chemical compounds, called nucleotides,
which make up DNA. Where the normal gene carried the nucleotide
guanine, the mutated gene substituted the nucleotide cytosine. This,
in turn, changed the amino acid in the region from alanine to
proline. This change was not found in any of the non-affected Maine
coon cats or in cats from the control group. The gene that encodes
for the targeted protein is one of the most frequent genes to have a
mutation in human families affected by hypertrophic cardiomyopathy.
Symptoms of the disease in the affected cats ranged from moderate to
severe. Six of the 16 cats with hypertrophic cardiomyopathy carried
two copies of the mutated gene, while the other 10 carried one copy.
Those with two copies of the mutated gene mostly died suddenly at a
young age, while three of the 10 cats with only one copy lived beyond
eight years of age.
In addition to Kittleson, Meurs, Reiser and Munro, collaborators on
this study include Ximena Sanchez, Ryan David, Neil Bowles and
Jeffrey Towbin of the Baylor College of Medicine, and Judith
Kittleson and Kristin MacDonald at UC Davis.
Funding for the study was provided by the Winn Feline Foundation and
its Ricky Fund, the Center for Companion Animal Health at UC Davis,
and various private donors.
Media contact(s):
* Mark Kittleson, Veterinary Medicine, UC Davis, (530) 752-7294,
[email protected]
* Kathryn Meurs, Washington State University, (509) 335-0711
* Pat Bailey, UC Davis News Service, (530) 752-9843,
[email protected]
View this story on the Web at
<
http://www.news.ucdavis.edu/search/news_detail.lasso?id=7533>
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