Radioligands for GABA and AcCh receptors

Radioligands for GABA and AcCh receptors GABA • ionotropic receptors: GABAA receptors • metabotropic receptors: GABAB receptors AcCh • ionotropic receptors: nicotinic receptors • metabotropic receptors: muscarinic receptors

Ion-transport mechanisms underlying GABAA receptor-mediated responses in immature (left) and mature (right) neurons. NKCC1 mediates Cl– uptake in immature hippocampal and cortical neurons. In mature CNS neurons, KCC2 is the principal K-Cl cotransporter. Cl– transport is fuelled by the Na+ and K+ gradients generated by the Na-K ATPase. Intracellular concentration of Cl– is high in immature neurons (indicated by the shade of blue). Blaesse et al. (2009) Cation-Chloride Cotransporters and Neuronal Function. Neuron 61, 820-838.

Radioligands for GABA and AcCh receptors GABA Muscimol (an isoxazole) • ionotropic receptors: GABAA receptors • metabotropic receptors: GABAB receptors AcCh • ionotropic receptors: nicotinic receptors • metabotropic receptors: muscarinic receptors Bicuculline, Bicuculline methochloride

Radioligands for GABA and AcCh receptors  University Colorado

Radioligands for GABA and AcCh receptors t-Butyl bicyclo phosphorothionate (TBPS) GABA • ionotropic receptors: GABAA receptors • metabotropic receptors: GABAB receptors AcCh Flumazenil Flunitrazepam • ionotropic receptors: nicotinic receptors • metabotropic receptors: muscarinic receptors Allopregnanolone (a steroid)

Radioligands for GABA and AcCh receptors GABA • ionotropic receptors: GABAA receptors b-carboline-3-carboxylic acid, ethyl ester • metabotropic receptors: GABAB receptors AcCh Pena, Medina, Novas, Paladini, De Robertis (1986) Isolation and identification in bovine cerebral cortex of n-butyl b-carboline-3-carboxylate, a potent benzodiazepine binding inhibitor. PNAS 83:4952 • ionotropic receptors: nicotinic receptors • metabotropic receptors: muscarinic receptors

Radioligands for GABA and AcCh receptors GABA • ionotropic receptors: GABAA receptors (R)-Baclofen • metabotropic receptors: GABAB receptors AcCh • ionotropic receptors: nicotinic receptors • metabotropic receptors: muscarinic receptors SKF 97541 CGP 54 626 (phosphinic acids)

Radioligands for GABA and AcCh receptors Acetylcholine Carbamylcholine (Carbachol) GABA • ionotropic receptors: GABAA receptors • metabotropic receptors: GABAB receptors N-Methylcarbamylcholine Nicotine AcCh • ionotropic receptors: nicotinic receptors Epibatidine • metabotropic receptors: muscarinic receptors 5-I-A85380

Radioligands for GABA and AcCh receptors GABA • ionotropic receptors: GABAA receptors • metabotropic receptors: GABAB receptors Structures of major alkaloids present in tobacco. (S)-Nicotine is the predominant enantiomer in tobacco. The other alkaloids exist in tobacco as not very precisely defined mixtures of enantiomers (Pogocki et al. 2007, Eur. J. Pharmacol. 563: 18). Nicotine AcCh • ionotropic receptors: nicotinic receptors Epibatidine • metabotropic receptors: muscarinic receptors 5-I-A85380

Radioligands for GABA and AcCh receptors GABA • ionotropic receptors: GABAA receptors • metabotropic receptors: GABAB receptors Epipedobates tricolor (John W Daly 1933-2008) Nicotine AcCh • ionotropic receptors: nicotinic receptors Epibatidine • metabotropic receptors: muscarinic receptors 5-I-A85380

Radioligands for GABA and AcCh receptors Oxotremorine (agonists) Oxotremorine-M GABA • ionotropic receptors: GABAA receptors • metabotropic receptors: GABAB receptors QNB (Quinuclidinyl-benzilate) AcCh • ionotropic receptors: nicotinic receptors • metabotropic receptors: muscarinic receptors Pirenzepine AF-DX 384 (M1) (M2)

Association & Dissociation BL(t) = BL. (1 - e-nt) BL(t) = BL- BL. e-nt BL- BL(t) = e-nt BL n (greek letter n) ... apparent association rate constant

Association & Dissociation BL(t) = BL. (1 - e-nt) BL(t) = BL- BL. e-nt BL- BL(t) = e-nt BL BL ln = nt BL- BL(t) n (greek letter n) ... apparent association rate constant

Association & Dissociation BL(t) = BLo. e-bt BL(t) = e-bt BLo b ... dissociation rate constant

Association & Dissociation BL(t) = BLo. e-bt BL(t) = e-bt BLo BL(t) ln = -bt BLo b ... dissociation rate constant

Association & Dissociation Only if the ligand binds covalently (irreversible binding), all bindings sites (BM) are occupied.

Association & Dissociation If presented as % of finally achieved occupancy (B∞), the reversible process is recognized as faster.

Association & Dissociation What is the true association rate constant? a B + L BL b association rate: a . [B] . [L] dissociation rate: b . [BL] equilibrium: a . [B] . [L] = b . [BL] [B] . [L] KD = = b / a [BL]

! attention ℮ ∫ ∑mathematics∂ ∞ √ % attention ! a Association & Dissociation B + L BL b How is the true association rate constant related to the apparent association rate constant? d[BL] = a . [B] . [L] – b . [BL] dt ! attention ℮ ∫ ∑mathematics∂ ∞ √ % attention !

! attention ℮ ∫ ∑mathematics∂ ∞ √ % attention ! a Association & Dissociation B + L BL b How is the true association rate constant related to the apparent association rate constant? d[BL] = a .[B]. [L] – b . [BL] dt [B] = BM – [BL] ! attention ℮ ∫ ∑mathematics∂ ∞ √ % attention !

! attention ℮ ∫ ∑mathematics∂ ∞ √ % attention ! a Association & Dissociation B + L BL b How is the true association rate constant related to the apparent association rate constant? d[BL] = a . [B] . [L] – b . [BL] dt [B] = BM – [BL] [L] at equilibrium [BL]∞ = BM. [L] + KD replace by b/a ! attention ℮ ∫ ∑mathematics∂ ∞ √ % attention !

! attention ℮ ∫ ∑mathematics∂ ∞ √ % attention ! a Association & Dissociation B + L BL b How is the true association rate constant related to the apparent association rate constant? d[BL] = a . [B] . [L] – b . [BL] dt [B] = BM – [BL] [L] [L] + b/a at equilibrium [BL]∞ = BM. BM = [BL]∞ ⋅ [L] + KD [L] ! attention ℮ ∫ ∑mathematics∂ ∞ √ % attention !

! attention ℮ ∫ ∑mathematics∂ ∞ √ % attention ! a Association & Dissociation B + L BL b How is the true association rate constant related to the apparent association rate constant? d[BL] = a . [B] . [L] – b . [BL] dt [B] = BM – [BL] [L] [L] + b/a at equilibrium [BL]∞ = BM. BM = [BL]∞ ⋅ [L] + KD [L] [L] + b/a [B] = [BL]∞ ⋅ – [BL] [L] ! attention ℮ ∫ ∑mathematics∂ ∞ √ % attention !

! attention ℮ ∫ ∑mathematics∂ ∞ √ % attention ! a Association & Dissociation B + L BL b How is the true association rate constant related to the apparent association rate constant? d[BL] = a . [B] . [L] – b . [BL] dt [B] = BM – [BL] [L] [L] + b/a at equilibrium [BL]∞ = BM. BM = [BL]∞ ⋅ [L] + KD [L] [L] + b/a [B] = [BL]∞ ⋅ – [BL] [L] d[BL] = a . [BL]∞. ([L] + b/a) – a . [L] . [BL] – b . [BL] dt ! attention ℮ ∫ ∑mathematics∂ ∞ √ % attention !

! attention ℮ ∫ ∑mathematics∂ ∞ √ % attention ! a Association & Dissociation B + L BL b How is the true association rate constant related to the apparent association rate constant? d[BL] = a . [B] . [L] – b . [BL] dt [B] = BM – [BL] [L] [L] + b/a at equilibrium [BL]∞ = BM. BM = [BL]∞ ⋅ [L] + KD [L] [L] + b/a [B] = [BL]∞ ⋅ – [BL] [L] d[BL] = a . [BL]∞. ([L] + b/a) – a . [L] . [BL] – b . [BL] dt = ([BL]∞ – [BL]) . (a . [L] + b) ! attention ℮ ∫ ∑mathematics∂ ∞ √ % attention !

! attention ℮ ∫ ∑mathematics∂ ∞ √ % attention ! a Association & Dissociation B + L BL b How is the true association rate constant related to the apparent association rate constant? d[BL] = (a . [L] + b) . dt [BL]∞ - [BL] d[BL] = ([BL]∞ – [BL]) . (a . [L] + b) dt ! attention ℮ ∫ ∑mathematics∂ ∞ √ % attention !

! attention ℮ ∫ ∑mathematics∂ ∞ √ % attention ! a Association & Dissociation B + L BL b How is the true association rate constant related to the apparent association rate constant? d[BL] = (a . [L] + b) . dt [BL]∞ - [BL] [BL]∞ ln = (a . [L] + b) . t = n. t [BL]∞ - [BL] ! attention ℮ ∫ ∑mathematics∂ ∞ √ % attention !

a Association & Dissociation B + L BL b How is the true association rate constant related to the apparent association rate constant? BL(t) = BL. (1 - e-nt) BL(t) = BL- BL. e-nt BL- BL(t) = e-nt BL BL ln = nt BL- BL(t) n (greek letter n) ... apparent association rate constant

! attention ℮ ∫ ∑mathematics∂ ∞ √ % attention ! a Association & Dissociation B + L BL b How is the true association rate constant related to the apparent association rate constant? d[BL] = (a . [L] + b) . dt [BL]∞ - [BL] [BL]∞ ln = (a . [L] + b) . t = n. t [BL]∞ - [BL] a . [L] + b = n true apparent association rate constant ! attention ℮ ∫ ∑mathematics∂ ∞ √ % attention !

a Association & Dissociation B + L BL b n = a . [L] + b dissociation rate constant a . [L] + b = n true apparent association rate constant

Radioligands for NA, DA and 5HT receptors Noradrenaline a-receptors b-receptors Dopamine D1,D2,D3,D4,D5 Serotonin (5-Hydroxytryptamine) ionotropic: 5HT3 metabotrop: 5HT1,5HT2, 5HT4, 5HT6, 5HT7 Ligands for uptake carriers

Radioligands for NA, DA and 5HT receptors Noradrenaline a-receptors b-receptors Prazosine (a1) Dopamine D1,D2,D3,D4,D5 Idazoxane (a2 antagonists) RX 821002 Serotonin (5-Hydroxytryptamine) Clonidine (a2 agonist) ionotropic: 5HT3 metabotrop: 5HT1,5HT2, 5HT4, 5HT6, 5HT7 Ligands for uptake carriers

Radioligands for NA, DA and 5HT receptors Radioligands for NA, DA and 5HT receptors CGP 26505 (antagonist, b1) Noradrenaline Noradrenaline Dihydroalprenolol (antagonist) a-receptors b-receptors Dopamine D1,D2,D3,D4,D5 Serotonin (5-Hydroxytryptamine) ionotropic: 5HT3 metabotrop: 5HT1,5HT2, 5HT4, 5HT6, 5HT7 ICI-118.551 (antagonist, b2) Ligands for uptake carriers

Radioligands for NA, DA and 5HT receptors Noradrenaline a-receptors b-receptors Dopamine Haloperidol Spiroperidol D1,D2,D3,D4,D5 Serotonin (5-Hydroxytryptamine) ionotropic: 5HT3 metabotrop: 5HT1,5HT2, 5HT4, 5HT6, 5HT7 Ligands for uptake carriers Sulpiride

Radioligands for NA, DA and 5HT receptors Noradrenaline a-receptors b-receptors Dopamine Haloperidol D1,D2,D3,D4,D5 Serotonin (5-Hydroxytryptamine) Mavlyutov et al (2010) The sigma-1 receptor is enriched in postsynaptic sites of C-terminals in mouse motoneurons. An anatomical and behavioral study. Neurosci 167: 247 ionotropic: 5HT3 metabotrop: 5HT1,5HT2, 5HT4, 5HT6, 5HT7 Ligands for uptake carriers

Radioligands for NA, DA and 5HT receptors Noradrenaline a-receptors b-receptors SCH 23390 (D1) Dopamine D1,D2,D3,D4,D5 Serotonin (5-Hydroxytryptamine) ionotropic: 5HT3 metabotrop: 5HT1,5HT2, 5HT4, 5HT6, 5HT7 Ligands for uptake carriers

Radioligands for NA, DA and 5HT receptors Noradrenaline a-receptors b-receptors SCH 23390 (D1) 7-OH-DPAT (D3) Dopamine D1,D2,D3,D4,D5 Serotonin (5-Hydroxytryptamine) ionotropic: 5HT3 metabotrop: 5HT1,5HT2, 5HT4, 5HT6, 5HT7 Ligands for uptake carriers

Radioligands for NA, DA and 5HT receptors Noradrenaline a-receptors b-receptors SCH 23390 (D1) 7-OH-DPAT (D3) Dopamine D1,D2,D3,D4,D5 Clozapine (D4) Serotonin (5-Hydroxytryptamine) ionotropic: 5HT3 metabotrop: 5HT1,5HT2, 5HT4, 5HT6, 5HT7 L-750.667 (D4) Ligands for uptake carriers

Radioligands for NA, DA and 5HT receptors Noradrenaline a-receptors b-receptors Flunitrazepam (benzodiazepine) Dopamine D1,D2,D3,D4,D5 Clozapine (dibenzodiazepine) Serotonin (5-Hydroxytryptamine) ionotropic: 5HT3 metabotrop: 5HT1,5HT2, 5HT4, 5HT6, 5HT7 Ligands for uptake carriers

Radioligands for NA, DA and 5HT receptors Noradrenaline a-receptors b-receptors SCH 23390 (D1) 7-OH-DPAT (D3) Dopamine D1,D2,D3,D4,D5 Olanzapine Serotonin (5-Hydroxytryptamine) ionotropic: 5HT3 metabotrop: 5HT1,5HT2, 5HT4, 5HT6, 5HT7 L-750.667 (D4) Ligands for uptake carriers

Radioligands for NA, DA and 5HT receptors Noradrenaline a-receptors b-receptors Dopamine D1,D2,D3,D4,D5 http://criticalpsychiatry.blogspot.com Serotonin (5-Hydroxytryptamine) ionotropic: 5HT3 metabotrop: 5HT1,5HT2, 5HT4, 5HT6, 5HT7 Ligands for uptake carriers

Radioligands for NA, DA and 5HT receptors 8-OH-DPAT (5HT1A) Noradrenaline a-receptors b-receptors 7-OH-DPAT (D3) Dopamine D1,D2,D3,D4,D5 Serotonin (5-Hydroxytryptamine) ionotropic: 5HT3 metabotrop: 5HT1,5HT2, 5HT4, 5HT6, 5HT7 Ligands for uptake carriers

Radioligands for NA, DA and 5HT receptors 8-OH-DPAT (5HT1A) Noradrenaline a-receptors b-receptors Dopamine Ketanserine (5HT2) D1,D2,D3,D4,D5 Serotonin (5-Hydroxytryptamine) ionotropic: 5HT3 metabotrop: 5HT1,5HT2, 5HT4, 5HT6, 5HT7 Ligands for uptake carriers

Radioligands for NA, DA and 5HT receptors 8-OH-DPAT (5HT1A) Noradrenaline a-receptors b-receptors Dopamine Ketanserine (5HT2) D1,D2,D3,D4,D5 Granisetron (5HT3) Serotonin (5-Hydroxytryptamine) ionotropic: 5HT3 metabotrop: 5HT1,5HT2, 5HT4, 5HT6, 5HT7 Ligands for uptake carriers

Radioligands for NA, DA and 5HT receptors 8-OH-DPAT (5HT1A) Noradrenaline a-receptors b-receptors Dopamine Ketanserine (5HT2) D1,D2,D3,D4,D5 Granisetron (5HT3) Serotonin (5-Hydroxytryptamine) ionotropic: 5HT3 metabotrop: 5HT1,5HT2, 5HT4, 5HT6, 5HT7 Ligands for uptake carriers RS 23597-190 (5HT4)

Radioligands for NA, DA and 5HT receptors Nisoxetine (NA) Noradrenaline a-receptors b-receptors Dopamine D1,D2,D3,D4,D5 WIN 35428 (DA; a cocaine analogue) Serotonin (5-Hydroxytryptamine) ionotropic: 5HT3 metabotrop: 5HT1,5HT2, 5HT4, 5HT6, 5HT7 Ligands for uptake carriers Citalopram (5HT)

Inhibitors; IC50, Ki, Hill coefficient A competitive inhibitor (I) displaces a ligand (L) from its binding site (B): [L] BM. [BL] = defined as BLo (in absence of I) [L] + KD

Inhibitors; IC50, Ki, Hill coefficient A competitive inhibitor (I) displaces a ligand (L) from its binding site (B): [L] BM. [BL] = defined as BLo (in absence of I) [L] + KD This original value BLo is decreased by increasing [I]: [I] BL(I) = BLo – BLo. [I] + IC50

Inhibitors; IC50, Ki, Hill coefficient A competitive inhibitor (I) displaces a ligand (L) from its binding site (B): [L] BM. [BL] = defined as BLo (in absence of I) [L] + KD This original value BLo is decreased by increasing [I]: [I] BL(I) = BLo – BLo. [I] + IC50 BLo. [I] + BLo. IC50 – BLo. [I] IC50 = = BLo. [I] + IC50 [I] + IC50

Inhibitors; IC50, Ki, Hill coefficient The IC50 of a competitive inhibitor ...

Radioligands for GABA and AcCh receptors

Radioligands for GABA and AcCh receptors

Presentation Transcript

Receptors and Sense Organs

Drug action and receptors

Neurotransmitters and Receptors Overview

Receptors

Receptors and Senses

Receptors and Signalling

Receptors

Proteomics and “Orphan” Receptors

Receptors

RECEPTORS

GABA GLYCINE HISTAMINE

Chapter 7: Glutamate and GABA

GABA A and GABA B Receptor Abnormalities in Autism

Touch Receptors and Axons

Receptors

Receptors

3.2 GABA Glycine

Immune Recognition and Receptors