Neuropharmacology: drug antagonism (Dr. Moss) Flashcards
Why is the pairing of a receptor w/ a drug often transient ?
Because the bonds that hold the receptor/drug complex together are often are comparatively weak.
How can the agonist-receptor or antagonist-receptor occupancy be shifted ?
Be increasing the concentration of one or the other (Law of mass action): the greater the concentration of a drug, the greater the chance of a collision occurring between the drug and a vacant receptor and therefore the greater the chance that a complex will form
How does a rev reversible competitive antagonist (RCA) (e.g. atropine) alter the concentration-response relationship for the action of an agonist (e.g. ACh) ?
What can we say about the antagonism ?
The presence of the RCA causes the agonist log concentration-response curve to be shifted to the right, without any change in slope or maximal response.
The antagonism is surmountable over a wide range of concentrations.
What is the concentration ration r ?
r = factor by which the agonist concentration must be increased to restore a given response in the presence of the antagonist
Detail: In the absence of antagonist, a response is elicited by a concentration [A] of agonist. When the antagonist is present, to achieve the same level of response, the agonist concentration has to be increased to a new value [A’]. This concentration [A’] > [A] and so it is possible to find a number r > 1, such that [A’]=r[A]
What is the Gaddum equation ?
What does it express ?
What happens if [B] = 0 ?
pAR = [A] / (KA (1 + [B]/KB) + [A])
It expresses how pAR depends on the concentration of [A] and [B], w/ B = RCA
If [B] = 0, we get the Hill-Langmuir equation.
To address the practical problem of how a RCA will affect the response to an agonist, what crucial assumption did JH Gaddum and HO Schild make about the relationship that exists between the response and the proportion of receptors occupied by agonist ?
They assumed that the same response (e.g. 30% of the maximum attainable) corresponded to the same receptor occupancy by agonist whether the agonist was acting alone, or in the presence of the competitive antagonist. This assumption makes made it unnecessary to know the exact form of the relationship between occupancy and response.
What is the Schild equation (first applied in 1949) ?
r-1 = [B] / KB
What does the Schild equation predict ?
Why ?
That a RCA should cause a parallel shift in the log agonist concentration response curve.
This is because for a given value of [B] and of KB, the concentration ratio, r, should also be constant, regardless of the concentration and even the identity of the agonist
What is the most important application of the Schild equation ?
It provides a way of estimating the dissociation equilibrium constant for the combination of an antagonist with its binding sites. A series of agonist concentration-response curves is established, first without and then with increasing concentrations of antagonist, and tested for parallelism. If this condition is met, the value of (r - 1) is plotted against the [B]. This should give a straight line of slope equal to the reciprocal of KB.
What is the Schild plot ?
log(r-1) = log[B] - logKB
Should give slope = 1 and x-intercept = logKB
What is pAx ?
pAx = the negative logarithm of the concentration of antagonist which causes a concentration ratio of x.
This term was introduced by H.O. Schild as an empirical measure of the activity of an antagonist. The value most often quoted is pA2: pA2 = pKB = -logKB
Hence, pA2 = the value of [B] that forces us to double [A] to get the same response
What are the 5 major assumptions for the Schild equation to function ?
- Equilibrium
- Equal response = equal proportion of receptors activated
- A and B are mutually exclusive
- B is a “pure” RCA
- B must have the same affinity at all binding sites
What are the 3 main characteristics of RCAs ?
- The action of the RCA can be overcome by a sufficient increase in the concentration of agonist (i.e., the antagonism is surmountable)
- In the presence of the antagonist, the curve relating the log of the agonist concentration to the size of the response is shifted to the right in a parallel fashion.
- The quantitative relationship between the magnitude of the shift (as expressed by the concentration ratio) and the antagonist concentration obeys the Schild equation.
What are other mechanisms of drug antagonism (different from RCAs) ?
- chemical antagonsim
- fctal or physiological antagonism
- pharamacokinetic antagonism
- indirect antagonism
What is chemical antagonism ?
The antagonist combines directly with the substance being antagonised. Receptors are not involved.
E.g. the chelating agent EDTA (ethylenediaminetetraacetic acid) is used to treat inorganic lead (Pb) poisoning (a less toxic chelate (a compound containing a ligand (typically organic) bonded to a central metal atom at two or more points) is formed and excreted).
