Pharmacology Lecture Notes PDF

Summary

These lecture notes cover the fundamental concepts of pharmacology, including pharmacokinetics and pharmacodynamics. The notes delineate the different mechanisms of drug action, focusing on both target and non-target protein-mediated mechanisms. Various receptor types and examples of drugs acting on specific receptors are detailed.

Full Transcript

1. Pharmacokinetics
2. Pharmacodynamics
ƒ The study of the fate of drugs in the body :
ƒ drug disposition= the way in which th
the
he b
body
ody handles
han
ndles d
drugs
rugss
- A branch of pharmacology that focuses on
the study of the biochemical and
physiological effects of drugs and the
mechanisms by which they produce
such effects.
ƒ Target Protein mediated mechanism
ƒ Non Ȃ target protein mediated mechanism
ƒ Colligative mechanism ± osmotic pressure
ƒ Chemical reaction
ƒ NEUTRALIZATION
ƒ LOCAL
ƒ SYST
SYSTEMIC
TEMIC
ƒ CHELATION
ƒ OTHERS
ƒ CN + Sodium
m tthiosulfate
hiosulfate
e
ƒ Counterfeit incorporation mechanism
SITES OF DRUG ACTION

Target protein - biologic site of action of
drugs
Microtubule - important site of action
Drugs that inhibit microtubule synthesis/
spindle protein
Griseofulvin
Vinca alkaloids
Colchicine
 ‰ mediates the transmission of endogenous
chemical signals such as neurotransmitters,
autacoids, and hormones.
1. Transports/Channels
2. Enzymes
3. Carrier Molecules
4. Receptors

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 1. Channels/transport
Proteins that take part in transmembrane signaling and
regulates ionic composition
Voltage-gated Na channel
Voltage-gated Ca channel

e.g. drugs act on:
Na channel- Local anesthetic,CBZ, PHENYTOIN
Ca++ channel ± Ca++ channel blockers
2. Carrier molecules
Na+-K+ ATPase pump - Digitalis glycosides
(inhibitor)
H+-K+ ATPase pump - PPI

Na+-K+-2Cl- cotransport
 3. Enzymes
protein catalysts
Xanthine oxidase - allopurinol
Cyclooxygenase - NSAIDs
ACE - ACE inhibitors
MAO - MAOI
Phenelzine
Isocarbozaxid
Tranylcypromine
Acetylcholinesterase - Edrophonium
COMT -ENTACAPONE,TOLCAPONE
4. Receptors

Functional macromoleular components of
cells with specific stereochemical
configuration and in which a ligand
interacts
SPECIFICITY
SELECTIVITY
Ligand ± any chemical that has ability to bind
to a receptor
1. Type I Receptor
2. Type II Receptor
3. Type III Receptor
4. Type IV Receptor
 - Controls movement of ions
- Found in cell membranes
memb
branes
mulated in milliseconds
- Stimulated
Stim

GABA
A receptors
receptors control
con
ntrol Cl
Cl- iions
ons
-Benzodiazepines
-Barbiturates
-Barbitu
uratess
¾Nicotinic receptors
‡ controls the entry of Na+
‡ inhibited by neuromuscular blocker.
Neurotransmitter
IIons
ons
- G-protein linked receptor / metabotropic

GTP ± binding signal transducer protein is
G-Protein.
G-protein modulates production of an
intracellular second messenger.
location: cell membrane
onset: in seconds
Examples of Type II receptors

alpha receptors
Beta receptors
Muscarinic receptors
‰ Examples of G-proteins:
¾ Gs Ȃ stimulates adenylyl cyclase
¾ Gi Ȃ inhibits adenylyl cyclase
¾ Gq Ȃ increases IP3, DAG

30
Second messengers
cyclic adenosine monophosphate (cAMP)
cyclic guanosine monophosphate (cGMP)
Inositol triphosphate (IP3)
3. Type III receptors/tyrosine
kinases-linked receptors

Tyrosine kinase - catalyze phosphorylation
of tyrosine residues to modulate a number of
biochemical processes
 glucokinase
glucose =====Îglucose-6-phosphate

location: nucleus
onset: hours
 ‰ Examples:
¾Imatinib-gastrointestinal stromal tumors
(GIST)
¾Gefitinib-epidermal growth factor
receptor
¾Erythropoietin receptor
¾Receptor for Insulin ± utilization of
glucose

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4. Type IV receptor/gene transcription-linked
receptors
Central dogma
-replication (DNA copied into complimentary DNA)
-transcription (DNA template is copied to RNA)
-translation (RNA synthesize protein)
-location: nucleus/cytosol (cytoplasm)
-onset: hours
 Drugs that act on Type IV receptors
ƒ Corticosteroids
ƒ Mineralocorticoids
ƒ Sex steroids
ƒ Vitamin D
ƒ Thyroid hormone