Essentials of Drug Action PDF

Summary

This document discusses the essentials of drug action, covering topics like pharmacodynamics, receptors, ligands, drug properties, classifications, signal transduction, and dose-response relationships. It provides a comprehensive overview of drug action, including various types of drug interaction and effects.

Full Transcript

ESSENTIALS OF DRUG ACTION
VPM 61 - Basic Veterinary Pharmacology

Philip John S. Sajol
Assistant Professor I
Department of Anatomy, Physiology, and Pharmacology
College of Veterinary Medicine
Essentials of Drug Action
Pharmacodynamics
focuses on the action and e ects of drugs within the body
concerned with what and how the drug can produce an e ect

terminologies used to de ne the pharmacodynamic properties of a drug include:
1) receptor; 2) ligand; 3) drug activity; 4) a nity; 5) e cacy / intrinsic activity; and
6) potency
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Essentials of Drug Action
Receptors
macromolecular component of body tissues with which a drug interacts to
initiate its pharmacologic e ects
proteins: muscarinic receptors on cells of the heart, smooth muscle, or exocrine
glands

enzymes: acetylcholinesterase (AChE)

other cellular constituents: nucleic acids, ion channels tubulin
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Essentials of Drug Action
Receptors
Essentials of Drug Action
Receptors
Properties of receptors
saturability: a nite number of receptors are present in a cell

speci city: the binding of the drug with receptors is made possible by their
complementary structures similar to a lock and key

reversibility: the drug that binds to a receptor can dissociate in its non-
metabolized form
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Essentials of Drug Action
Ligands
any drug or substance with speci c a nity to a receptor
receptors bind ligands (drugs) and transduce signals (signal transduction)

drug binding to receptor uses similar chemical bonds as that used for enzyme-
substrate interaction

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 Essentials of Drug Action
Properties of Drugs
Intrinsic activity
also known as e cacy, it is the property of the drug that permits it to initiate post-
receptor processes, which lead to a response

A nity
the tendency of the drug to combine with a particular kind of receptor
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Essentials of Drug Action
Properties of Drugs
Essentials of Drug Action
Classi cation of Ligands (Drugs)
Agonists
ligands (drugs) with both a nity and intrinsic activity (e.g epinephrine,
acetylcholine)

full agonists: produces full cell/tissue response

partial agonist: provokes a response, but the maximum response is less than the
maximum response of a full agonist, due to a higher a nity for the receptor but a
lesser activity than a full agonist

inverse agonist: drugs that bind to the receptor, suppressing the signaling activity
(e.g propanolol and antihistamines)
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Essentials of Drug Action
Classi cation of Ligands (Drugs)
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Essentials of Drug Action
Classi cation of Ligands (Drugs)
Antagonists
have a nity for receptor site but
with no intrinsic activity, and block
or reduce the e ects of agonists
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Essentials of Drug Action
Classi cation of Ligands (Drugs)
Antagonists
antagonist e ect is seen as a DEFICIENCY of the normal physiological e ects of
the blocked hormone, transmitter or substrate
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Essentials of Drug Action
Classi cation of Ligands (Drugs)
Antagonists
competitive antagonist: reversible on removal, where the degree of antagonism
depends on the quantity of the antagonist relative to the quantity of the agonist

noncompetitive antagonist: irreversible, removes the receptor or response
potential from the system, where the agonist has no in uence upon the degree of
antagonism or reversibility
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Essentials of Drug Action
Antagonism
Competitive Antagonism
occurs on the same receptor protein such that two drugs, an agonist and an
antagonist, compete and bind to the same receptor protein
Essentials of Drug Action
Antagonism
Physiologic Antagonism
occurs as the result of activating receptors with opposite physiological e ects

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Essentials of Drug Action
Antagonism
Chemical Antagonism
occurs as the result of a drug combining with two or more molecules via the
formation of chemical bonds

often does not require animal tissue to be demonstrated, commonly used to treat
heavy metal intoxication

e.g dimercaprol chelates Hg and As, penicillamine chelates Cu, Pb, and Hg
Essentials of Drug Action
Signal Transduction
Ligand-gated ion channels
regulates ow of ions through the cellular plasma membrane channels

rapid response

e.g Ach at nicotinic receptors
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Essentials of Drug Action
Signal Transduction
Kinase-linked receptors
signal transduction occurs through activation of an enzyme associated with the
intracellular domain of a receptor

e.g tyrosine kinase
Essentials of Drug Action
Signal Transduction
GTP-binding proteins
couple the binding of the ligand on the
cell surface receptor to intracellular
second messengers

catecholamines cause displacement of
GDP from G protein and its replacement
by GTP
Essentials of Drug Action
Signal Transduction
Intracellular receptors
activated receptor proteins form dimer
and move to the promoter region of the
DNA, altering transcription processes

e.g steroid hormones and thyroid
hormones
 Essentials of Drug Action
Potency
refers to the dose of a drug that must be administered to produce a particular
e ect of a given intensity
in uenced by a nity and by pharmacokinetic processes

not necessarily correlated with e cacy or safety

the most potent drug in a series is not necessarily clinically superior
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Essentials of Drug Action
Drug Action vs Drug E ect
Drug action
where and how the e ect is produced (MOA)

Drug e ect
what is produced by the drug, consequence of the drug-receptor interaction

e.g Aspirin blocks the synthesis of prostaglandins which mediates the raising of
the body thermostat by the hypothalamus (DA), reducing fever (DE)
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Essentials of Drug Action
Categories of Drug Action
Stimulation or Depression: acts to increase or decrease activity of
physiological function

Replacement: in therapy for de ciencies e.g diabetes mellitus
Inhibition or killing organisms: e.g antibiotics, antifungals, antiparasitics
Irritation: e.g antiparasitics, anthelminthics
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Essentials of Drug Action
Categories of Drug Action
Physiologic E ect: retains the normal function of the biologic system
Pharmacologic E ect: aka side e ects resulting from the lack of speci c
action while binding to other tissues

e.g antihistamines as Tx for allergy can depress the CNS and produce
drowsiness and dizziness
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Essentials of Drug Action
Categories of Drug Action
Drug Toxicity: predictable adverse e ect of the drug related to the dose
administered (range between therapeutic and toxic dose is known as drug
safety)

Allergic Reactions: unpredictable adverse e ects due to the response of the
patient’s immune system

Idiosyncratic Reactions: due to genetic di erences of patient occurring at
the 1st exposure of the drug
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 Essentials of Drug Action
Drug E ects Enhancement
Additive E ects: if two drugs with the same e ect produces an e ect equal
in magnitude to the sum of individual e ects (1+1=2)

Synergism: if two drugs with the same e ect produces an e ect greater in
magnitude than sum of individual e ects (1+1=3)

Potentiation: occurs if a drug lacking an e ect of its own increases the
e ects of a second active drug (0+1=3)
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Essentials of Drug Action
Dose-Response Relationships
parameter that characterizes drug activity
describes the nature of drug action, potency of the drug, and presence of
competitive or non-competitive antagonism

two types: graded dose response and quantal dose-response relationship
Essentials of Drug Action
Dose-Response Relationships
Graded dose-response relationship
refers to the rate of change in the intensity of
response proportional to the rate of change of
drug concentration

higher dose, greater response
Essentials of Drug Action
Dose-Response Relationships
Graded dose-response relationship:
characteristic variables
Potency: refers to the dose needed to
produce an e ect (smaller dose, greater
potency)

Slope of the curve: indicates the range of
dosage to which the drug acts
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 Essentials of Drug Action
Dose-Response Relationships
Graded dose-response relationship:
characteristic variables
Variability in response: depends on
physiological, pathological, or drug induced
problem in the patient

Maximal e ect: peak response possible for
the e ector
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Essentials of Drug Action
Dose-Response Relationships
Quantal dose-response relationship
all-or-none response, measures the
frequency in which a dose of a drug produces
a pharmacological e ect in a population

assumes that an individual responds to their
maximum capability or none at all

the graph assumes a Gaussian or normal
distribution curve

used in clinical trials before a drug is marketed
for use
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Essentials of Drug Action
Dose-Response Relationships
Quantal dose-response relationship:
parameters that can be derived
Standard deviation: determines the spread of
the population around the mean

Therapeutic index: ratio of LD50 to ED50
(TI=LD50/ED50), higher TI means the more safe
is the drug
Essentials of Drug Action
Dose-Response Relationships
Quantal dose-response relationship: parameters that can be derived
Standard safety margin

assume 10 mg/kg of a drug is e ective in 99% of the animal population and that a
dose of 100 mg/kg will cause toxicity in 1% of the same population

the dose which is e ective in 99% of the population must be increased by
900% to produce a toxic e ect in 1% of the population
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References

Martin, RJ and Hsu, WH (2008). Principles of Drug Absorption, Drug
Disposition, and Drug Action. Handbook of Veterinary Pharmacology. Wiley-
Blackwell. USA. pp. 1-28.

Brunton, et. al. (2008).PHARMACOKINETICS AND PHARMACODYNAMICS
The Dynamics of Drug Absorption, Distribution, Action, and Elimination.
Goodman and Gilman’s Manual of Pharmacology and Therapeutics. McGraw-
Hill. USA. pp. 1-26.