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Receptors

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Raju Sanghvi
Raju Sanghvi

Introduction - receptor Drug – receptor interactions Ligand gated ion channel receptors G – protein coupled receptors Kinase liked receptors Nuclear receptors Comparison of receptor types Conclusion References

Educación
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RECEPTORS Presented by VENKAT SANNAPU(11AB1R0057) Under the guidance of Mrs.B.DEEPTHI M.Pharm (PhD) VIGNAN PHARMACY COLLEGE (Affiliated to JNTU Kakinada Approved by PCI & AICTE, New Delhi) Vadlamudi , Guntur, Andhra Pradesh
CONTENTS  Introduction - receptor  Drug – receptor interactions  Ligand gated ion channel receptors  G – protein coupled receptors  Kinase liked receptors  Nuclear receptors  Comparison of receptor types  Conclusion  References RECEPTORS @ VPC 2
WHAT IS A RECEPTOR? o Specialized areas of cell to which drugs get bound.  They are regulatory protein macro molecules .  Drug should have –selectivity to a receptor ; receptor should have ligand specificity to elicit action. RECEPTORS @ VPC 3
DRUG RECEPTOR INTERACTIONS  Effect of drug attributed to two factors 1. Affinity : tendency of the drug to bind to receptor and form D-R complex . 2. Efficacy or intrinsic activity : ability of the drug to trigger pharmacological responses after forming D-R complex . RECEPTORS @ VPC 4
CONTD…  Based on affinity and intrinsic activity :  Full agonist : high affinity high intrinsic activity(=1) Eg. Methacholine on acetylcholine receptors  Antagonist : only affinity no intrinsic activity (=0) Eg. Atropine on muscarinic receptors RECEPTORS @ VPC 5
RECEPTORS @ VPC 6
RECEPTOR CLASSIFICATION Cell surface Intracellular 1. Inotropic. 2. Metabotropic. 3. Ligand regulated trans membrane. 1. Nuclear receptors . RECEPTORS @ VPC 7
 Also called ionotropic receptors.  Involved mainly in fast synaptic transmission. RECEPTORS @ VPC Eg: nAchR, GABAA, and glutamate receptors of the NMDA, AMPA and kainate types. 8
FEATURES – ION CHANNELS  Protein molecules form water filled pores that span the membrane.  Switch between open and closed states. RECEPTORS @ VPC  Rate and Direction of movement depends on electrochemical gradient of the ions 9
MOLECULAR STRUCTURE  ligand binding site in extracellular domain.  4 subunits α, β, γ and δ.  α2, β, γ - pentameric str - 2 ligand binding sites RECEPTORS @ VPC  Each subunit spans the membrane 4 times; all subunits form a central pore. 10
Ligand binding site RECEPTORS @ VPC 11
RECEPTORS @ VPC 12
Mechanism of receptor action RECEPTORS @ VPC 13
RECEPTORS @ VPC 14
CONTD…  Due to the concentration changes of different ions the following effects are seen.  Increase in Na+ and Ca+ levels- excitatory  Decrease in Na+ and Ca+ levels- inhibitory  Increase in K+ levels – inhibitory  Decrease in K+ levels – excitatory  Increase in Cl- levels – inhibitory  Decrease in Cl- levels- excitatory RECEPTORS @ VPC 15
ION CHANNELS - IMPORTANCE  Generation , propagation of nerve impulse.  Synaptic transmission of neurons.  Muscle contraction.  Salt balance.  Hormone release. RECEPTORS @ VPC 16  Muscle relaxants , anti-arrhythmatics ,anesthetics – act by blocking ion channels.
 metabotropic or 7-transmembrane-spanning (heptahelical) receptors.  coupled to intracellular effector systems via a G-protein. RECEPTORS @ VPC  mAChRs, adrenoceptors, dopamine, 5-HT, opiate, peptide, purinoceptors, orphans . 17
MOLECULAR STRUCTURE RECEPTORS @ VPC 18
FAMILIES OF GPCR 3 families:  A – rhodopsin family eg. Amine NT, purines , cannabinoids  B - secretin/glucagon receptor family Eg. Peptide hormones.  C - metabotropic glutamate receptor/calcium sensor family. Eg. GABAB , Glutamate. RECEPTORS @ VPC 19
G-PROTEIN -ROLE  Membrane resident proteins – recognize activated GPCRs- pass message to effector system.  Occurs in interaction with guanine nucleotides ; freely moving in cytoplasm.  α, β and γ subunits – trimer in resting state.  3 subunits attached to GPCR through fatty acid chain – reaction called prenylation. RECEPTORS @ VPC 20
G-PROTEIN SUBTYPES G-PROTEIN RECEPTOR FOR SIGNALLING PATHWAY GS Beta adrenergic amines, glucagon histamine, serotonin Adenylyl cyclase CAMP •Excitatory effects Gi1, Gi2, Gi3 Alpha2 adrenergic amines, mAchR, opioid, serotonin adenylyl cyclase CAMP Cardiac K+ channel open- heart rate Golf Olfactory epithelium Adenylyl cyclase – CAMP RECEPTORS @ VPC 21
G-PROTEIN RECEPTOR FOR SIGNALLING PATHWAY GO NT ,Opioid cannabinoid Not clear Gq mAchR, serotonin 5HT1C PLC IP3 , DAG Cytoplasmic Ca Gt1 , Gt2 Rhodopsin and colour opsins in retinal rod and cone cells cGMP phosphodiesterase-cGMP RECEPTORS @ VPC 22
SECONDARY MESSENGER SYSTEMS INVOLVED IN SIGNAL TRANSDUCTION  The adenyly cyclase / cAMP system  The Phospholipase C / inositol phosphate system  The Ion channels  The Rho A /Rho kinase system RECEPTORS @ VPC 23
ADENYLYL CYCLASE/ CAMP SYSTEM  c AMP –nucleotide synthesized from ATP - by adenylyl cyclase, metabolized by PDE.  Regulate enzymes of metabolism, growth, contractile proteins of muscle.  NT - acts on GPCR –Gs/Gi activated - produce effects – by inc or dec. activity of adenylyl cylase-and cAMP.  c AMP- activate - Protein kinases-activate/inactivate enzymes by phosphorylation – cellular events. RECEPTORS @ VPC 24
PHOSPHOLIPASE C-INOSITOL SYSTEM  Phospholipase C : Cleaves membrane phospholipids - phosphoinositides.  PLC beta – cleaves phosphatidylinositol(4,5)bis Phosphate PIP2 - into DAG and IP3.  DAG and IP3 - Secondary messenegers – elicit cellular responses. RECEPTORS @ VPC 25
ION CHANNELS  GPCR- directly control ion channel-without secondary messenger. Eg. mAchR in heart – activate K+ channel. RECEPTORS @ VPC 26
 Involved in growth, proliferation, differentiation or survival-called growth factors.  Mediate actions of protein mediators- GF, cytokines , harmones - insulin and leptin.  Slow – require the expression of new genes.  Single membrane spanning helix - extracellular ligand binding domain - intracellular domain. RECEPTORS @ VPC 27
Structure of Kinases linked receptors Y Y Y Y Y Y Extracellular domain Binds to the ligand (growth factor) Trans membrane domain Intracellular domain Endogenous kinases bind and get phosphorlated RECEPTORS @ VPC 28
TYPES  receptor tyrosine kinases Eg. EGF , NGF , insulin receptor  serine/ threonine kinases Eg. TGF  cytokine receptors Eg. Cytokines , CSF  guanylyl cyclase receptors Eg. ANP RECEPTORS @ VPC 29
Gene Kinase cascade transcription RECEPTORS @ VPC 30
 Important pathways activated : 1. The Ras/Raf/mitogen- activated protein (MAP) kinase pathway - activated by tyrosine kinases. - important in cell division, growth, differentiation. 2. The Jak/Stat pathway - activated by cytokines. -controls synthesis and release of inflammatory mediators. RECEPTORS @ VPC 31
 Ligand activated transcription factors.  Present in soluble form – either in cytoplasm or nucleus – freely diffusable.  Transduce signals by- modifying gene transcription.  Eg: steroid hormones, glucocorticoids, vit D and A, orphan receptors  Play vital role in endocrine signaling and metabolic regulation. RECEPTORS @ VPC 32
Zn fingers;hor response elements -Binds with corepressor coactivator ptns AF1 AF2 RECEPTORS @ VPC 33
CONCLUSION  Extensive research done on Receptor pharmacology -lead to discovery of new drug targets for treatment of several diseases.  Still requires discovery of new receptor types and the mechanisms of many orphan receptors that can result in effective treatment of many diseases.  Requires development of receptor crystallization etc.  Much to be discovered about the nuclear receptors. RECEPTORS @ VPC 34
ACKNOWLEDGEMENT  I would like to thank my guide, Mrs. B. Deepthi for her constant guidance and support .  I would also like to thank our principal, Mr. P. Srinivasa Babu and the seminar committee for giving me this opportunity. RECEPTORS @ VPC 35
REFERENCES  Rang , Dale, Ritter ,Flower :Rang and Dale’s, pharmacology;6th edition, Churchill Livingstone;2008, 9-52.  Bertram G. Katzung , Basic and clinical pharmacology; 10th edition ; 2006 , 197-209  KD Tripati , essentials of medical pharmacology ; 6th edition; 2008, 40-52.  RICHARD’s LIPPINCOTT’s illustrated reviews of PHARMACOLOGY , 4th edition , Page no 25 – 34. RECEPTORS @ VPC 36
RECEPTORS @ VPC 37

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Receptors

  • 1. RECEPTORS Presented by VENKAT SANNAPU(11AB1R0057) Under the guidance of Mrs.B.DEEPTHI M.Pharm (PhD) VIGNAN PHARMACY COLLEGE (Affiliated to JNTU Kakinada Approved by PCI & AICTE, New Delhi) Vadlamudi , Guntur, Andhra Pradesh
  • 2. CONTENTS  Introduction - receptor  Drug – receptor interactions  Ligand gated ion channel receptors  G – protein coupled receptors  Kinase liked receptors  Nuclear receptors  Comparison of receptor types  Conclusion  References RECEPTORS @ VPC 2
  • 3. WHAT IS A RECEPTOR? o Specialized areas of cell to which drugs get bound.  They are regulatory protein macro molecules .  Drug should have –selectivity to a receptor ; receptor should have ligand specificity to elicit action. RECEPTORS @ VPC 3
  • 4. DRUG RECEPTOR INTERACTIONS  Effect of drug attributed to two factors 1. Affinity : tendency of the drug to bind to receptor and form D-R complex . 2. Efficacy or intrinsic activity : ability of the drug to trigger pharmacological responses after forming D-R complex . RECEPTORS @ VPC 4
  • 5. CONTD…  Based on affinity and intrinsic activity :  Full agonist : high affinity high intrinsic activity(=1) Eg. Methacholine on acetylcholine receptors  Antagonist : only affinity no intrinsic activity (=0) Eg. Atropine on muscarinic receptors RECEPTORS @ VPC 5
  • 7. RECEPTOR CLASSIFICATION Cell surface Intracellular 1. Inotropic. 2. Metabotropic. 3. Ligand regulated trans membrane. 1. Nuclear receptors . RECEPTORS @ VPC 7
  • 8.  Also called ionotropic receptors.  Involved mainly in fast synaptic transmission. RECEPTORS @ VPC Eg: nAchR, GABAA, and glutamate receptors of the NMDA, AMPA and kainate types. 8
  • 9. FEATURES – ION CHANNELS  Protein molecules form water filled pores that span the membrane.  Switch between open and closed states. RECEPTORS @ VPC  Rate and Direction of movement depends on electrochemical gradient of the ions 9
  • 10. MOLECULAR STRUCTURE  ligand binding site in extracellular domain.  4 subunits α, β, γ and δ.  α2, β, γ - pentameric str - 2 ligand binding sites RECEPTORS @ VPC  Each subunit spans the membrane 4 times; all subunits form a central pore. 10
  • 11. Ligand binding site RECEPTORS @ VPC 11
  • 13. Mechanism of receptor action RECEPTORS @ VPC 13
  • 15. CONTD…  Due to the concentration changes of different ions the following effects are seen.  Increase in Na+ and Ca+ levels- excitatory  Decrease in Na+ and Ca+ levels- inhibitory  Increase in K+ levels – inhibitory  Decrease in K+ levels – excitatory  Increase in Cl- levels – inhibitory  Decrease in Cl- levels- excitatory RECEPTORS @ VPC 15
  • 16. ION CHANNELS - IMPORTANCE  Generation , propagation of nerve impulse.  Synaptic transmission of neurons.  Muscle contraction.  Salt balance.  Hormone release. RECEPTORS @ VPC 16  Muscle relaxants , anti-arrhythmatics ,anesthetics – act by blocking ion channels.
  • 17.  metabotropic or 7-transmembrane-spanning (heptahelical) receptors.  coupled to intracellular effector systems via a G-protein. RECEPTORS @ VPC  mAChRs, adrenoceptors, dopamine, 5-HT, opiate, peptide, purinoceptors, orphans . 17
  • 19. FAMILIES OF GPCR 3 families:  A – rhodopsin family eg. Amine NT, purines , cannabinoids  B - secretin/glucagon receptor family Eg. Peptide hormones.  C - metabotropic glutamate receptor/calcium sensor family. Eg. GABAB , Glutamate. RECEPTORS @ VPC 19
  • 20. G-PROTEIN -ROLE  Membrane resident proteins – recognize activated GPCRs- pass message to effector system.  Occurs in interaction with guanine nucleotides ; freely moving in cytoplasm.  α, β and γ subunits – trimer in resting state.  3 subunits attached to GPCR through fatty acid chain – reaction called prenylation. RECEPTORS @ VPC 20
  • 21. G-PROTEIN SUBTYPES G-PROTEIN RECEPTOR FOR SIGNALLING PATHWAY GS Beta adrenergic amines, glucagon histamine, serotonin Adenylyl cyclase CAMP •Excitatory effects Gi1, Gi2, Gi3 Alpha2 adrenergic amines, mAchR, opioid, serotonin adenylyl cyclase CAMP Cardiac K+ channel open- heart rate Golf Olfactory epithelium Adenylyl cyclase – CAMP RECEPTORS @ VPC 21
  • 22. G-PROTEIN RECEPTOR FOR SIGNALLING PATHWAY GO NT ,Opioid cannabinoid Not clear Gq mAchR, serotonin 5HT1C PLC IP3 , DAG Cytoplasmic Ca Gt1 , Gt2 Rhodopsin and colour opsins in retinal rod and cone cells cGMP phosphodiesterase-cGMP RECEPTORS @ VPC 22
  • 23. SECONDARY MESSENGER SYSTEMS INVOLVED IN SIGNAL TRANSDUCTION  The adenyly cyclase / cAMP system  The Phospholipase C / inositol phosphate system  The Ion channels  The Rho A /Rho kinase system RECEPTORS @ VPC 23
  • 24. ADENYLYL CYCLASE/ CAMP SYSTEM  c AMP –nucleotide synthesized from ATP - by adenylyl cyclase, metabolized by PDE.  Regulate enzymes of metabolism, growth, contractile proteins of muscle.  NT - acts on GPCR –Gs/Gi activated - produce effects – by inc or dec. activity of adenylyl cylase-and cAMP.  c AMP- activate - Protein kinases-activate/inactivate enzymes by phosphorylation – cellular events. RECEPTORS @ VPC 24
  • 25. PHOSPHOLIPASE C-INOSITOL SYSTEM  Phospholipase C : Cleaves membrane phospholipids - phosphoinositides.  PLC beta – cleaves phosphatidylinositol(4,5)bis Phosphate PIP2 - into DAG and IP3.  DAG and IP3 - Secondary messenegers – elicit cellular responses. RECEPTORS @ VPC 25
  • 26. ION CHANNELS  GPCR- directly control ion channel-without secondary messenger. Eg. mAchR in heart – activate K+ channel. RECEPTORS @ VPC 26
  • 27.  Involved in growth, proliferation, differentiation or survival-called growth factors.  Mediate actions of protein mediators- GF, cytokines , harmones - insulin and leptin.  Slow – require the expression of new genes.  Single membrane spanning helix - extracellular ligand binding domain - intracellular domain. RECEPTORS @ VPC 27
  • 28. Structure of Kinases linked receptors Y Y Y Y Y Y Extracellular domain Binds to the ligand (growth factor) Trans membrane domain Intracellular domain Endogenous kinases bind and get phosphorlated RECEPTORS @ VPC 28
  • 29. TYPES  receptor tyrosine kinases Eg. EGF , NGF , insulin receptor  serine/ threonine kinases Eg. TGF  cytokine receptors Eg. Cytokines , CSF  guanylyl cyclase receptors Eg. ANP RECEPTORS @ VPC 29
  • 30. Gene Kinase cascade transcription RECEPTORS @ VPC 30
  • 31.  Important pathways activated : 1. The Ras/Raf/mitogen- activated protein (MAP) kinase pathway - activated by tyrosine kinases. - important in cell division, growth, differentiation. 2. The Jak/Stat pathway - activated by cytokines. -controls synthesis and release of inflammatory mediators. RECEPTORS @ VPC 31
  • 32.  Ligand activated transcription factors.  Present in soluble form – either in cytoplasm or nucleus – freely diffusable.  Transduce signals by- modifying gene transcription.  Eg: steroid hormones, glucocorticoids, vit D and A, orphan receptors  Play vital role in endocrine signaling and metabolic regulation. RECEPTORS @ VPC 32
  • 33. Zn fingers;hor response elements -Binds with corepressor coactivator ptns AF1 AF2 RECEPTORS @ VPC 33
  • 34. CONCLUSION  Extensive research done on Receptor pharmacology -lead to discovery of new drug targets for treatment of several diseases.  Still requires discovery of new receptor types and the mechanisms of many orphan receptors that can result in effective treatment of many diseases.  Requires development of receptor crystallization etc.  Much to be discovered about the nuclear receptors. RECEPTORS @ VPC 34
  • 35. ACKNOWLEDGEMENT  I would like to thank my guide, Mrs. B. Deepthi for her constant guidance and support .  I would also like to thank our principal, Mr. P. Srinivasa Babu and the seminar committee for giving me this opportunity. RECEPTORS @ VPC 35
  • 36. REFERENCES  Rang , Dale, Ritter ,Flower :Rang and Dale’s, pharmacology;6th edition, Churchill Livingstone;2008, 9-52.  Bertram G. Katzung , Basic and clinical pharmacology; 10th edition ; 2006 , 197-209  KD Tripati , essentials of medical pharmacology ; 6th edition; 2008, 40-52.  RICHARD’s LIPPINCOTT’s illustrated reviews of PHARMACOLOGY , 4th edition , Page no 25 – 34. RECEPTORS @ VPC 36

Notas del editor

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