Cough Clinical Trial
Official title:
An Investigation Into the Mechanism of Inhalation Cough Challenge
Despite its commonplace use in respiratory medicine the mechanism whereby inhalation
challenge with a variety of mild acid aerosols produces a dose related and predictable cough
is unknown. In this proposal the investigators wish to use established cough challenge
methodology to explore the mechanism of action of agents provoking cough both in health and
disease.
The hypotheses to be tested include:
- Intracellular changes in pH, rather than extracellular changes, are key in the
activation of TRP receptors, the main sensor for provoking cough.
- ATP acting through P2X channels is the mechanism of increased nerve excitability
underlying cough hypersensitivity.
The investigators have previously demonstrated that mild acids, such as citric, tartaric or
phosphoric acid produce a highly reliable cough challenge and that the sensitivity of these
are complex individual acids correlates within the population studied inferring a common
mechanism of action.In contrast there is no correlation with the other common cough challenge
methodology, capsaicin inferring that there are at least two different mechanisms for
producing cough with aerosols in man.
Over the past 10 years it has been established that capsaicin works by a specific irritant
receptor known as the TRPV1. A second receptor, TRPA1 has been recently discovered and we
were the first group to demonstrate that inhalation of agonists of this receptor in the form
of the extract of cinnamon (cinnamaldehyde) produces cough in man . TRPA1 is a very
attractive candidate for the main cough receptor since it is activated by many common
irritants, such as smoke, perfumes and other strong smells known to provoke coughing in
patients.
The investigators have cloned the human TRP receptors and expressed them in cell lines. This
in vitro work has allowed us to investigate the molecular action of the TRP receptors.
Recently, the investigators and others have shown that weak acids can activate TRPA1, not as
previously thought by stimulating the external surface of the cells but by altering the
intracellular pH. This would explain why weak and not strong acids are better at producing
cough, since weaker acids (technically those with a higher pKa) exist in solution in a form
which is able to cross the cell membrane and render a change in the intracellular pH, which
in turn activates TRPA1 from inside the cell.
In the first study the investigators wish to the simply alter the pH of the nebulised
solution provoking cough by altering the balance of the salts in the solution, and then carry
out standard cough challenge protocols.
In a second study the investigators wish to examine the effect of a number of known agonists
of TRPA1 which are commonly used in the perfumes and foodstuffs in order to understand the
rank order of potency of these compounds as tussive agents. This can then be compared to the
rank order of potency of the same compounds in causing intracellular pH change in in vitro
cell culture systems, in order to test the strength of the hypothesis over a variety of
different agonists.
Finally, recent work has shown that blockade of a neuronal ion channel known as P2X3 can
dramatically reduce cough. P2X3 responds to the substance adenosine triphosphate (ATP), which
has previously been used as a cough challenge solution in man. If the hypothesis that the
cough hypersensitivity seen in patients is due to activation of P2X3 is correct then patients
will cough at much lower doses of ATP than normal volunteers. We wish to assess the value of
ATP, and the related substance AMP and adenosine in a cough challenge protocol. Studying the
cough produced by these naturally occurring compounds may allow us to distinguish patients
with cough hypersensitivity from those with cough due to other causes, and also lead to a
methodology important in future drug development
The greater understanding of the cough reflex which these studies would yield would have
important clinical applications pointing the way to novel therapeutic avenues, as well as
enhancing our fundamental understanding of the genesis of cough.
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