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)
Estrogen, SERMS Reduce
Asthma Impact By Halting Constriction
New
molecular targets, concentration tests may improve current therapy
San Diego (April 3, 2005) – For years, anecdotal
evidence suggested that ovulating or pregnant women or post-menopausal women
taking estrogen supplements, experienced fewer asthma attacks and less
severe asthma symptoms, strongly suggesting that perhaps estrogen affects
airway smooth muscle function by preventing the hyperresponsiveness
characteristic of asthma and other chronic lung diseases.
Now, scientists at the Medical College of Georgia have
shown that elevated estrogen levels may reduce the severity of asthma and
perhaps of other chronic lung diseases involving airway constriction.
Christiana Dimitropoulou and her team at the Department of Pharmacology and
Toxicology report that estrogen, as well as selective estrogen receptor
modifiers (SERMs), completely abolished abnormal tracheal constriction in a
carbachol test.
Carbachol is often used to stimulate, or mimic,
contractions of airway and other muscles. The Georgia researchers found that
hyperresponsiveness of mouse tracheal rings to carbachol was completely
prevented with only 30 minutes of estrogen treatment. Then they repeated the
tests with SERMs, such as tamoxifen, and found they were equally able
prevent the exaggerated constriction to allergen seen in asthmatic-induced
airways.
“This could represent a new and potentially important
role for estrogen, SERMs, or both,” Dimitropoulou said. She is presenting
the research at the 35th Congress of the International Union of
Physiological Sciences in San Diego, March 31 - April 5.
*Paper presentation: “Estrogens prevent the
tracheal hyper-responsiveness to carbachol in asthma,” 12:30 p.m.-3 p.m.
Sunday April 3, Physiology 375.5/board #A492. On view 7:30 a.m. - 4 p.m.
The full team includes: Christiana Dimitropoulou, Shu
Zhu, Richard E. White and John D. Catravas of the Department of Pharmacology
& Toxicology, Medical College of Georgia, Augusta, and Dennis Ownby of the
Department of Pedatrics; Catravas also is with the MCG Vascular Biology
Center.
Estrogen receptor inhibitors abolish protective
effect
To confirm that the dramatic results weren’t a
non-specific effect of estrogen, experiments were repeated in the presence
of an inhibitor of estrogen receptors, the cell proteins that are
responsible for binding estrogen and mediating their pharmacologic effects.
Estrogen receptor inhibitors abolished the protective effect of estrogen.
In the experiments, researchers removed airways from
adult male mice, cut them into rings and placed them in an apparatus that
measures their contractility to external stimuli. To simulate asthmatic
conditions, the rings were exposed for 24 hours to sera drawn from severely
asthmatic patients (IgE over 1,000) and then challenged to constrict, by
exposing them to carbachol.
Carbachol is a stable congener of the neurotransmitter
acetylcholine traditionally used to stimulate contractions of airway and
other muscle. Each ring was exposed to a range of carbachol concentrations
and the magnitude of the constrictor responses was measured. Rings that were
exposed to sera from asthmatic patients constricted more than twice as much
and at lower carbachol concentrations than rings exposed to sera from normal
human subjects (IgE under 70).
When airway rings that were exposed to sera from normal
subjects were treated with estrogen, their response to carbachol was not
affected. But when airway rings that were exposed to sera from asthmatic
patients were treated with estrogen for only 30 minutes before exposing them
to carbachol, the normally observed hypersensitivity to carbachol was
abolished; instead, they constricted no more than normal airway rings.
Next steps. In future studies, Dimitropoulou
will test her hypothesis in live asthmatic mice, to confirm the current
findings. If these new studies prove successful, they will be followed by
“studies examining whether low estrogen or SERM concentrations given by
inhalation can improve our current, standard treatment of asthma,” she said.
“Taken together, the results to date offer new
molecular targets for the pharmacological management of both asthma and
chronic obstructive pulmonary disease,” Dimitropoulou concluded.
***
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
