IUPS/APS Newsroom March 29-April 6
San Diego Convention Center
Hall E Registration Area/Flex Unit
Telephone: 619.525.6228
Contact: Donna Krupa
(703) 967-2751 (cell)
(301) 634-7209 (office, outside IUPS dates)
It’s Not The Medication,
It’s The Inflammation That Increases Asthmatics’ Increased Risk And
Damage In Heart Disease
Airway
inflammation boosts infarction damage
San Diego (April 3, 2005) – Epidemiological studies
show that the incidence of cardiovascular disease (CVD) complications are
increased in long standing cases of asthma. Historically, the complications
are often attributed to the chronic drug therapy used to treat asthma.
However, researchers in the Department of Physiology,
Brody School of Medicine at East Carolina University discovered that the
inflammation associated with asthma directly affects the heart’s recovery
from a heart attack, confirming the growing body of evidence that indicates
asthma may directly, and negatively, impact the cardiovascular system.
“The findings are clinically important because they
provide the first evidence of a direct contribution of asthmatic conditions
to cardiovascular complications, independent of any asthma drug therapy,”
according to Surovi Hazarika, the lead author. “If the findings are
confirmed in human trials, asthma could be identified as a potential risk
factor for post-operative complications and recurrent events following such
cardiology interventions as angioplasty,” she added.
*Paper presentations: Hazarika is
presenting the research at the 35th Congress of the International Union of
Physiological Sciences in San Diego, March 31 - April 5, 2005.
“Airway inflammation increases infarction after
myocardial ischemia-reperfusion in mice,” 12:30 p.m.-3 p.m. Sunday April 3,
Physiology 389.21/board #A713. On view 7:30 a.m. - 4 p.m.
“Neutrophil degranulation and ischemia-induced
expression of neutrophil chemotactic molecules are enhanced in a murine
model of asthma,” 12:30 p.m.-3 p.m. Monday April 4, Physiology 691.4/board
#A690. On view 7:30 a.m. - 4 p.m.
Research for both papers was done by Surovi Hazarika,
Michael R. Van Scott and Robert M. Lust of the Department of Physiology,
Brody School of Medicine at East Carolina University, Greenville, North
Carolina. The studies are part of a collaborative project between the
laboratory of Robert M Lust, which studies acute coronary syndromes, and the
laboratory of Michael R Van Scott, which studies asthma in animal models.
Improved short- and long-term clinical strategies
seen for asthma-CVD co-risks
In the short term this should lead to “improved
management strategy of acute coronary syndrome patients with clinical
history of asthma. And in the longer term, identification of the precise
cause of cardiac changes induced by asthma and the appropriate therapeutic
targets should provide better, specific alternatives for patients
symptomatic for both asthma and cardiovascular disease, or CVD,” Hazarika
predicted.
Study shows asthma “helps” heart attract damaging
inflammatory cells
The results of the studies indicate that “inflammatory
responses associated with asthma enhance the ability of the heart to attract
inflammatory cells when injured, and that the inflammatory cells that are
attracted are more prone to be damaging,” Hazarika said. “The end result is
increased recruitment of more highly activated neutrophils to the infarct
zone during an acute MI, leading to significantly more cardiac tissue
damage,” she added.
Evidence for a role of inflammation in the development
and progression of cardiovascular diseases has been growing rapidly. Studies
demonstrate that blood levels of non-specific biomarkers of systemic
inflammation such as C-reactive protein (CRP) correlate with increased risk
of myocardial events.
Furthermore, in patients with acute coronary syndrome (ACS),
serum myeloperoxidase (MPO) levels, another inflammatory biomarker, indicate
the risk of subsequent cardiovascular events. Circulating white blood cells,
called neutrophils, are an important part of the immune system, and are the
predominant source of MPO. Neutrophils have been shown to play a key role
in myocardial infarction (MI, or heart attack), as well as in recovery from
MI.
Finding the asthma mechanisms that increase cardiac
injury
Inflammation also underlies asthma. Asthma is
characterized by increased numbers of inflammatory cells at both local
(airways) and systemic levels. As in cardiovascular disease, neutrophils
play a significant role in the pathology of asthma. Earlier studies from the
Van Scott-Lust laboratory showed that infarct size is increased after an
acute MI in both rabbit and mouse models of asthma, with enhanced neutrophil
accumulation in the damaged region of the heart, often referred to as the
“area at risk.”
So “the goal of the current study was to investigate
the inflammatory mechanisms underlying the asthma-associated increase in
cardiac injury following a heart attack,” Hazarika explained.
Asthma symptoms were induced in mice, with a sham
treated group used as control. Circulating neutrophils were isolated from
the peripheral blood and examined for their activation state by measuring
stimulated release of the enzyme myeloperoxidase. Neutrophils isolated from
asthmatic animals showed an enhanced rate of MPO release compared to those
from control animals (substrate consumption rate of 1.52
± 0.3
hg/ sec vs. 0.29
± 0.08
hg/sec; p < 0.05). “The increased
MPO release suggests that the neutrophils have been ‘primed’ to produce a
proportionally larger inflammatory response if stimulated,” she said. Also,
neutrophils from asthmatic animals showed an enhanced expression of PSGL-1
and CD11b, both key molecules involved in the movement of neutrophils out of
blood vessels.
In addition, after experimental induction of myocardial
ischemia-reperfusion, the myocardial tissue level of macrophage inhibitory
protein-2 (MIP-2), and expression of endothelial P-selectin were higher in
asthmatic animals compared to the controls. Both MIP-2 and P-selectin
participate in attracting neutrophils out of circulation to the injured
tissue, leading to significantly more cardiac tissue damage in asthmatic
conditions.
***
The 35th Congress of the International Union of
Physiological Sciences is in San Diego, March 31 - April 5, 2005. The
Congress (http://www.iups2005.org/)
is organized by the six member societies of the U.S. National Committee of
the IUPS,
the American Physiological Society,
the Society for Neuroscience,
the Microcirculatory Society,
the Society of General Physiologists,
the Biomedical Engineering Society, and
the Society for Integrative and Comparative Biology, under the auspices
of the U.S. National Academy of Sciences.
The IUPS conference, held every four years, runs
concurrently this year with Experimental Biology 2005 at the San Diego
Convention Center.
The American Physiological Society (APS), which is
hosting IUPS, was founded in 1887 to foster basic and applied science, much
of it relating to human health. The Bethesda, MD-based Society has more than
10,000 members and publishes nearly 4,000 articles every year in its 14
peer-reviewed journals. In May, APS received the Presidential Award
for Excellence in Science, Mathematics and Engineering Mentoring (PAESMEM).
***
Editor’s Note: For further information or to
schedule an interview with a member of the research team, please contact
Donna Krupa at the IUPS/APS newsroom @ 619.525.6228 (March 31-April
6), or (703) 967-2751 (cell) or (301) 634-7209 (office), or Stacy Brooks at
240.432.9697 (cell) or 301.634.7253 (office).
A searchable online program for IUPS and EB is at
http://www.faseb.org/meetings/eb2005/call/default.htm
