Pharmacodynamics

Question 1

What is a drug?

Answer 1

Any substance that when administered to a living organism, produces a biological effect

Question 2

What is pharmacology ?

Answer 2

The study of how the function of living systems is affected by chemical agents

Question 3

What are pharmocokinetics?

Answer 3

The study of absorption, distribution, metabolism and excretion of drugs

Question 4

What are pharmacodynamics?

Answer 4

The study of effects of drugs and their mechanisms of action

Question 5

What is clinical pharmacology or Pharmacotherapeutucs?

Answer 5

The study of the use of drugs in the prevention and treatment of diseas

Question 6

What is pharmacotherapy?

Answer 6

Use of drugs to treat disease

Question 7

What is toxicology?

Answer 7

The study of adverse effects of drugs

Question 8

What are drug actions?

Answer 8

Drugs are chemicals that alter basic processes in body cells

They can stimulate or inhibit normal cellular functions

Question 9

What is the mechanism of drug action?

Answer 9

Drug molecules must bind to macromolecular components of the organism in order to produce an effect

Question 10

What is a drug receptor / drug target?

Answer 10

The component of the organism with which a drug interacts is called a drug receptor or drug target

Most drug targets are proteins

Question 11

How does a drug initiate a cellular response?

Answer 11

First it must bind to a drug receptor

In most cases, drugs bind to their receptor by forming hydrogen, ionic or hydrophobic bonds with the receptor

• These weak bonds are reversible
• In a few cases, drugs form covalent bonds with their receptor

Question 12

What determines drug selectivity ?

Answer 12

Drug receptors are responsible for the selectivity of drug action

• The size, shape, and charge of a drug determine whether it will bind to a particular receptor or set 9r receptors
• For a drug to be useful as a therapeutic tool it must act selectively on particular types of receptors, ie, it must show a high degree of binding selectively

Question 13

What are the major types of drug targets?

Answer 13

• Ion channels
• G-protein linked receptors
• Enzyme linked receptors
• Nuclear receptors
• Enzymes
• Transporters
• Structural proteins

Question 14

What are ion channels?

Answer 14

Several classes of drugs act by altering the conductance of ion channels

Examples:
-Local anaesthetics

• Sedative-hypnotics
• Antileptics

Question 15

What are G-protein linked receptors?

Answer 15

Approximately 60% of prescription drugs act by binding to G protein linked receptors

Examples:

• Albuterol, a B2 agonist, is used for asthma
• Propranolol, a B-antagonist, is used for hypertension

Question 16

What are the enzyme- linked receptors?

Answer 16

The largest group is the receptor tyrosine kinase family

This class of receptors includes the :
-Insulin receptor

-Epidermal growth factor receptor (EGFR)

Question 17

What are the tyrosine kinase receptors?

Answer 17

Tyrosine kinase receptors play an important role in cellular growth and differentiation

• Gain of function mutations in these receptor can lead to cancer
• Inhibitirs of tyrosine kinase receptors are used as anti cancer agents
• An example is imantib, which is effective for leukemia

Question 18

What drugs use nuclear receptors?

Answer 18

These are intracellular

• nuclear receptors regulate the expression of genes controlling metabolism and development
• Members of the nuclear receptor superfamily include receptors for:
• Steroid hormones
• Thyroid hormones
• Vitamin D

Question 19

Describe enzyme as drug targets

Answer 19

These are a common drug target

Most drugs that target enzymes act by inhibiting enzyme activity.

• Aspirin
• Ibuprofin
• Omeprazole

Question 20

Describe transporters as sources of drug targets

Answer 20

• Neurotransmitter transporters are the targets of drugs used in the treatment of psychiatric disorders
• Some antidepressant drugs act by blocking serotonin reuptake

Question 21

Describe structural proteins as targets to drugs

Answer 21

• Some anti cancer drugs bind to tubulin and prevent the polymerization of this molecule into microtubules
• As a consequence cells are arrested in metaphase
• An example is vinblastine

Question 22

What drugs aren’t mediated by binding to receptors?

Answer 22

Some drugs don’t act by interacting with macromolecular components of the organism

-Antacids neutralize gastric acid

Question 23

What are the types of dose response curves?

Answer 23

1. Graded

2. Potential

Question 24

In a grade dose-response curves, what is the correlation between drug concentration and effect?

Answer 24

The relation between drug concentration and effect is described by a hyperbolic curve according to the following equation:

E= (Emax x C)/ (C+EC50)

E is the effect

Emax is the maximal response produced by the drug

EC50 is the drug concentration that produces 50% of the maximal effect

Question 25

What is the relationship of receptor binding of drugs?

Answer 25

The relation between drug bound (B) to receptors and the concentration (C) of free drug is described by the equation:

B= (Bmax x C)/(C+ KD)

Bmax= total concentration of receptor sites

KD = equilibrium dissociation constant

KD= the concentration of drug required to occupy half of the receptors- this characterizes the receptor’s affinity for the drug

Question 26

What is affinity in relation to drug receptor binding?

Answer 26

The tendency of a drug to combine with its receptor: its a measure of the strength of the drug-receptor complex

-If KD is low, binding affinity is high, and vice versa

Question 27

Why is the shape of dose response curve, and binding curve similar?

Answer 27

The shape of the dose-response curve is similar to the binding curve because the response to the drug is a consequence of the binding of the drug to the receptor

Question 28

What is a graded dose-response curve?

Answer 28

Dose-response data is frequently plotted as the drug effect against the logarithm of the concentration

This transforms the hyperbolic curve into a sigmoidal curve

Question 29

Why is EC50 lower than KD?

Answer 29

An agonist doesn’t have to occupy all receptors to evoke a full response

Therefore EC50 is lower than KD

Because of this certain number of receptors are said to be “spare”

The presence of spare receptors indicates that there is signal amplification

Question 30

What is efficacy?

Answer 30

Efficacy is the magnitude of the response a drug produces

-Maximal efficacy (sometimes refferred to simply as efficacy), is the greatest effect a drug can produce (Emax)

Question 31

What is potency?

Answer 31

This is a measure of the concentration or amount of drug necessary to produce an effect of a given magnitude

-The EC50 of a drug is usually used to determine potency

Question 32

What are agonists and antagonists?

Answer 32

An agonist is a drug that binds to and activates a receptor in a way that brings about an effect

• An antagonist inhibits the action of an agonist but has no effect in the absence of an agonist
• Agonists have receptor affinity and efficacy
• Antagonists have receptor affinity but no efficacy

Question 33

What’s a receptor antagonist?

Answer 33

Binds to the same receptor to which the agonist binds

Question 34

What is competitive antagonism ?

Answer 34

Competitive antagonists bind to the agonist binding site on the receptor

Binding of antagonist to the agonist binding site prevents the binding of agonist to the receptor

Binding of antagonist to the receptor May be reversible or irreversible

Question 35

What is reversible competitive antagonism ?

Answer 35

The presence of the competitive antagonist increases the concentration of agonist required for a given degree of response

So, the agonist concentration-effect curve shifts to the right

-High concentrations of agonist can surmount the effect of a given concentration of the antagonist: the Emax for the agonist remains the same.

Question 36

What is irreversible competitive antagonism?

Answer 36

A receptor bound by an irreversible antagonist cannot respond to the binding of an agonist

The Emax of the agonist is reduced

This antagonism is insurmountable

Some authors refer to this type of antagonism as noncompetitive

Question 37

Summarize noncompetitive antagonism

Answer 37

Also called allosteric antagonism

-Noncompetitive antagonists bind to the receptor at a site different from the agonist binding site

This type of antagonism is insurmountable

-Emax is decreased

Question 38

What is nonreceptor antagonism ?

Answer 38

A nonreceptor antagonist doesn’t bind to the receptor to which the agonist binds

Question 39

What is physiological antagonism?

Answer 39

One drug opposes another drug, but through different receptors.

Question 40

Give an example of physiological antagonism?

Answer 40

Epinephrine—> increase in blood pressure and bronchodilation

Histamine—> decrease in blood pressure and bronchoconstriction

Question 41

What is chemical antagonism?

Answer 41

A chemical antagonist reacts chemically with an agonist to form an inactive product

-For example, Protamine, a protein which is positively charged, counteracts the effects of heparin, an anticoagulant that is negatively charged

Question 42

What are full and partial agonists?

Answer 42

Agonists activate the receptor that they occupy

Antagonists cause no activation

But the ability of a drug molecule to activate the receptor is a graded property

• Full agonists produce a maximal response
• Partial agonists produce a sub maximal response
• Partial agonists produce a lower response, at full receptor occupancy, than do full agonists

Question 43

How can a partial agonist act as a competitive antagonist ?

Answer 43

A partial agonist can act as a competitive antagonist in the presence of a full agonist, by competing with the full agonist for receptor occupancy, thus reducing the response to the full agonist

Question 44

What are inverse agonists?

Answer 44

-Many receptor systems exhibit some activity in the absence of an agonist, suggesting that a fraction of the receptors is always in the active state

Activity in the absence of an agonist is called constitutive activity

Inverse agonists reverse the constitutive activity of the receptors

Question 45

What are Quantal-dose effects?

Answer 45

The quintal dose-response relationship plots the fraction of the population the responds to a given dose of drug as a function of the drug dose.

The responses are defined as either present or not present (I.e., quantal, not graded), such as prevention of convulsions, arrhythmia, or death

Question 46

How is the Quantal dose effect curve characterized?

Answer 46

By stating the median effective dose (ED50), the dose at which 50% of individuals exhibit the specified quantal effect

Question 47

What is the median toxic dose(TD50)?

Answer 47

The dose required to produce a particular toxic effect in 50% of animals is called the median toxic dose (TD50)

Question 48

What is the median lethal dose 50 (LD50)?

Answer 48

The dose required to cause death in 50% of animals is called the median lethal dose (LD50)

Question 49

What is the therapeutic index?

Answer 49

The therapeutic index is defined as the ratio of the TD50 or the LD50 to the ED50 for a therapeutically relevant effect

TI= (TD50)/(ED50)

Or

TI= (LD50)/(ED50)

Question 50

Is the therapeutic index known in humans?

Answer 50

The therapeutic index of a drug in humans is almost never known with real precision

• The TI represents an estimate of the safety of the drug
• A very safe drug will have a very large toxic dose and a small effective dose

Question 51

What is the therapeutic window?

Answer 51

The therapeutic window is a more clinically relevant index of safety

-It is the dosage range between the minimum effective therapeutic concentration and the minimum toxic concentration