Bookmark and Share
BioAssay: AID 1938

Discovery of a Highly Selective in vitro and in vivo M4 Positive Allosteric Modulator (PAM): Analog Dose Response with rM4

Grant Title: Discovery of a Highly Selective in vitro and in vivo M4 Positive Allosteric Modulator(PAM) ..more
_
   
 Tested Compounds
 Tested Compounds
All(4)
 
 
Active(4)
 
 
 Tested Substances
 Tested Substances
All(4)
 
 
Active(4)
 
 
AID: 1938
Data Source: Vanderbilt Screening Center for GPCRs, Ion Channels and Transporters (rM4_analog_crc_rM4)
BioAssay Type: Confirmatory, Concentration-Response Relationship Observed
Depositor Category: NIH Molecular Libraries Screening Center Network
Deposit Date: 2009-09-08
Modify Date: 2010-07-13

Data Table ( Complete ):           View Active Data    View All Data
Target
Sequence: cholinergic receptor, muscarinic 4 [Rattus norvegicus]
Description ..   

Gene:CHRM4     Conserved Domain     Related Protein 3D Structures     More BioActivity Data..
BioActive Compounds: 4
Related Experiments
Show more
AIDNameTypeProbeComment
626Discovery of Novel Allosteric Modulators of the M1 Muscarinic Receptor: Agonist Primary ScreenScreening depositor-specified cross reference
643Discovery of Novel Allosteric Agonists of the M4 Muscarinic Receptor: Confirmation ScreenOther depositor-specified cross reference
2616Chemical optimization of in vitro pharmacology and DMPK properties of the highly selective mAChR 4 (M4) Positive Allosteric Modulator (PAM) Series with Greatly Improved Human Receptor ActivitySummary depositor-specified cross reference
625Discovery of Novel Allosteric Agonists of the M4 Muscarinic Receptor: Primary ScreenScreening same project related to Summary assay
1921Discovery of a Highly Selective in vitro and in vivo M4 Positive Allosteric Modulator: Ancillary ActivityOther same project related to Summary assay
1923Discovery of a Highly Selective in vitro and in vivo M4 Positive Allosteric Modulator(PAM): Analog PotencyConfirmatory same project related to Summary assay
1928Discovery of a Highly Selective in vitro and in vivo M4 Positive Allosteric Modulator(PAM): Analog Fold-shift Selectivity at hM5Confirmatory same project related to Summary assay
1929Discovery of a Highly Selective in vitro and in vivo M4 Positive Allosteric Modulator(PAM): Analog Foldshift Selectivity with hM3Confirmatory same project related to Summary assay
1930Discovery of a Highly Selective in vitro and in vivo M4 Positive Allosteric Modulator(PAM): Fold-shift Selectivity with hM2Confirmatory same project related to Summary assay
1932Discovery of a Highly Selective in vitro and in vivo M4 Positive Allosteric Modulator(PAM): Analog Fold-shift Selectivity at rM1Confirmatory same project related to Summary assay
1939Discovery of a Highly Selective in vitro and in vivo M4 Positive Allosteric Modulator (PAM): NMS Competition at rM4Confirmatory same project related to Summary assay
449767Discovery of a Highly Selective in vitro and in vivo M4 Positive Allosteric Modulator(PAM): Foldshift of AcetylcholineOther same project related to Summary assay
449769Discovery of a Highly Selective in vitro and in vivo M4 Positive Allosteric Modulator(PAM): Analog Fold-shift Selectivity at rM4Confirmatory same project related to Summary assay
449770Discovery of a Highly Selective in vitro and in vivo M4 Positive Allosteric Modulator(PAM): Foldshift of Acetylcholine with human M4Confirmatory same project related to Summary assay
588743Chemical optimization of the highly selective mAChR 4 (M4) Positive Allosteric Modulator (PAM) SeriesConfirmatory same project related to Summary assay
588744Human M1 PAM Extended Characterization CounterScreen (CRC)Confirmatory same project related to Summary assay
588745Human M3 PAM Extended Characterization CounterScreen (CRC)Confirmatory same project related to Summary assay
588746Human M2 PAM Extended Characterization CounterScreen (CRC)Confirmatory same project related to Summary assay
588747Human M5 PAM Extended Characterization CounterScreen (CRC)Confirmatory same project related to Summary assay
588748Rat M2 PAM Extended Characterization CounterScreen (CRC)Confirmatory same project related to Summary assay
588749Rat M1 PAM Extended Characterization CounterScreen (CRC)Confirmatory same project related to Summary assay
588750Rat M3 PAM Extended Characterization CounterScreen (CRC)Confirmatory same project related to Summary assay
588751Rat M4 PAM Extended Characterization CounterScreen (CRC)Confirmatory same project related to Summary assay
588755Human M4 PAM Extended Characterization Fold ShiftOther same project related to Summary assay
588758ML253 Competition in Radioligand Binding assays (Riserca)Other same project related to Summary assay
623924Chemical optimization of in vitro pharmacology and DMPK properties of the highly selective mAChR 4 (M4) Positive Allosteric Modulator (PAM) Series with Greatly Improved Human Receptor Activity (hM1 CounterScreen)Confirmatory same project related to Summary assay
623925Chemical optimization of in vitro pharmacology and DMPK properties of the highly selective mAChR 4 (M4) Positive Allosteric Modulator (PAM) Series with Greatly Improved Human Receptor Activity (hM2 CounterScreen)Confirmatory same project related to Summary assay
623926Chemical optimization of in vitro pharmacology and DMPK properties of the highly selective mAChR 4 (M4) Positive Allosteric Modulator (PAM) Series with Greatly Improved Human Receptor Activity (hM3 CounterScreen)Confirmatory same project related to Summary assay
623938Chemical optimization of in vitro pharmacology and DMPK properties of the highly selective mAChR 4 (M4) Positive Allosteric Modulator (PAM) Series with Greatly Improved Human Receptor Activity (hM4 Calcium Potency)Confirmatory1 same project related to Summary assay
623939Chemical optimization of in vitro pharmacology and DMPK properties of the highly selective mAChR 4 (M4) Positive Allosteric Modulator (PAM) Series with Greatly Improved Human Receptor Activity (hM5 CounterScreen)Confirmatory same project related to Summary assay
623940Chemical optimization of in vitro pharmacology and DMPK properties of the highly selective mAChR 4 (M4) Positive Allosteric Modulator (PAM) Series with Greatly Improved Human Receptor Activity (rM1 CounterScreen)Confirmatory same project related to Summary assay
623941Chemical optimization of in vitro pharmacology and DMPK properties of the highly selective mAChR 4 (M4) Positive Allosteric Modulator (PAM) Series with Greatly Improved Human Receptor Activity (rM2 CounterScreen)Confirmatory same project related to Summary assay
623943Chemical optimization of in vitro pharmacology and DMPK properties of the highly selective mAChR 4 (M4) Positive Allosteric Modulator (PAM) Series with Greatly Improved Human Receptor Activity (rM3 CounterScreen)Confirmatory same project related to Summary assay
623945Chemical optimization of in vitro pharmacology and DMPK properties of the highly selective mAChR 4 (M4) Positive Allosteric Modulator (PAM) Series with Greatly Improved Human Receptor Activity (rM4 CounterScreen)Confirmatory1 same project related to Summary assay
623946Chemical optimization of in vitro pharmacology and DMPK properties of the highly selective mAChR 4 (M4) Positive Allosteric Modulator (PAM) Series with Greatly Improved Human Receptor Activity (rM5 CounterScreen)Confirmatory same project related to Summary assay
623948Chemical optimization of in vitro pharmacology and DMPK properties of the highly selective mAChR 4 (M4) Positive Allosteric Modulator (PAM) Series with Greatly Improved Human Receptor Activity (hM4 Fold Shift)Other1 same project related to Summary assay
Description:
Assay Provider: Colleen Niswender
Assay Provider Affiliation: Vanderbilt University
Grant Title: Discovery of a Highly Selective in vitro and in vivo M4 Positive Allosteric Modulator(PAM)
Grant Number: MH077607-1

To date, five muscarinic acetylcholine receptor (mAChR) subtypes have been identified (M1-M5) and play important roles in mediating the actions of ACh in the peripheral and central nervous systems. Of these, M1 and M4 are the most heavily expressed in the CNS and represent attractive therapeutic targets for cognition, Alzheimer's disease, and schizophrenia. In contrast, the adverse effects of cholinergic agents are thought to be primarily due to activation of peripheral M2 and M3 mAChRs. Due to the high sequence homology and conservation of the orthosteric ACh binding site among the mAChR subtypes, development of chemical agents that are selective for a single subtype has been largely unsuccessful, and in the absence of highly selective activators of M4, it has been impossible to test the role of selective M4 activation. Clinical trials with xanomeline, a M1/M4-preferring orthosteric agonist, demonstrated efficacy as both a cognition-enhancing agent and an antipsychotic agent. In follow-up studies in rats, xanomeline displayed an antipsychotic-like profile comparable to clozapine. However, a long standing question concerned whether or not the antipsychotic efficacy or antipsychotic-like activity in animal models is mediated by activation of M1, M4, or a combination of both receptors. Data from mAChR knockout mice led to the suggestion that a selective M1 agonist would be beneficial for cognition, whereas an M4 agonist would provide antipsychotic activity for the treatment of schizophrenia. This proposal is further supported by recent studies demonstrating that M4 receptors modulate the dynamics of cholinergic and dopaminergic neurotransmission and that loss of M4 function results in a state of dopamine hyperfunction. These data, coupled with findings that schizophrenic patients have altered hippocampal M4 but not M1 receptor expression, suggest that selective activators of M4 may provide a novel treatment strategy for schizophrenia patients. However, multiple studies suggest that M1 may also play an important role in the antipsychotic effects of mAChR agonists and that the relative contributions of M1 and M4 to the antipsychotic efficacy of xanomeline or antipsychotic-like effects of this compound in animal models are not known. However, highly selective centrally penetrant activators of either M1 or M4 have not been available, making it impossible to determine the in vivo effects of selective activation of these receptors.
Protocol
The purpose of this assay was to test the lead compounds for dose-dependency at rM4/Gqi5 using a calcium uptake assay.
Assay Info: CHO-K1 cells stably expressing rat M4 and Gqi5 were loaded with calcium indicator dye (2mM Fluo-4 AM) for 45-60 min at 37 degreesC. Dye was removed and replaced with the appropriate volume of assay buffer, pH 7.4 (1X HBSS (Hanks' Balanced Salt Solution), supplemented with 20 mM HEPES and 2.5 mM probenecid). All compounds were serially diluted in assay buffer for a final 2X stock in 0.6% DMSO. This stock was then added to the assay plate for a final DMSO concentration of 0.3%. Acetylcholine EC20 was prepared at a 10X stock solution in assay buffer prior to addition to assay plates. Calcium mobilization was measured at 25 degrees C using a FLEXstation II (Molecular Devices, Sunnyvale, CA) according to the following protocol. Cells were preincubated with test compound (or vehicle) for 1.5 min prior to the addition of the agonist, acetylcholine. Cells were then stimulated for 50 sec with a submaximal concentration (EC20). The signal amplitude was first normalized to baseline and then as a percentage of the maximal response to acetylcholine. EC50 values for each compound were determined using GraphPad Prism (4.0c), which fit curves using standard non-linear regression (variable slope). Compounds that showed dose-response activity were assigned as 'Outcome' = 'Active' and 'Score' = '100'.
Categorized Comment - additional comments and annotations
From PubChem:
Assay Test Type: In vitro/In vivo
Result Definitions
Show more
TIDNameDescriptionHistogramTypeUnit
OutcomeThe BioAssay activity outcomeOutcome
ScoreThe BioAssay activity ranking scoreInteger
1Conc1 Rep1 (0.00151μM**)Normalized response value for 0.00151 uM concentration for replica 1Float
2Conc2 Rep1 (0.00457μM**)Normalized response value for 0.00457 uM concentration for replica 1Float
3Conc3 Rep1 (0.0138μM**)Normalized response value for 0.0138 uM concentration for replica 1Float
4Conc4 Rep1 (0.0407μM**)Normalized response value for 0.0407 uM concentration for replica 1Float
5Conc5 Rep1 (0.123μM**)Normalized response value for 0.123 uM concentration for replica 1Float
6Conc6 Rep1 (0.371μM**)Normalized response value for 0.371 uM concentration for replica 1Float
7Conc7 Rep1 (1.12μM**)Normalized response value for 1.12 uM concentration for replica 1Float
8Conc8 Rep1 (3.31μM**)Normalized response value for 3.31 uM concentration for replica 1Float
9EC50 Rep1EC50 for Replicate 1FloatμM
10Conc1 Rep2 (0.00151μM**)Normalized response value for 0.00151 uM concentration for replica 2Float
11Conc2 Rep2 (0.00457μM**)Normalized response value for 0.00457 uM concentration for replica 2Float
12Conc3 Rep2 (0.0138μM**)Normalized response value for 0.0138 uM concentration for replica 2Float
13Conc4 Rep2 (0.0407μM**)Normalized response value for 0.0407 uM concentration for replica 2Float
14Conc5 Rep2 (0.123μM**)Normalized response value for 0.123 uM concentration for replica 2Float
15Conc6 Rep2 (0.371μM**)Normalized response value for 0.371 uM concentration for replica 2Float
16Conc7 Rep2 (1.12μM**)Normalized response value for 1.12 uM concentration for replica 2Float
17Conc8 Rep2 (3.31μM**)Normalized response value for 3.31 uM concentration for replica 2Float
18EC50 Rep2EC50 for Replicate 2FloatμM
19Conc1 Rep3 (0.00151μM**)Normalized response value for 0.00151 uM concentration for replica 3Float
20Conc2 Rep3 (0.00457μM**)Normalized response value for 0.00457 uM concentration for replica 3Float
21Conc3 Rep3 (0.0138μM**)Normalized response value for 0.0138 uM concentration for replica 3Float
22Conc4 Rep3 (0.0407μM**)Normalized response value for 0.0407 uM concentration for replica 3Float
23Conc5 Rep3 (0.123μM**)Normalized response value for 0.123 uM concentration for replica 3Float
24Conc6 Rep3 (0.371μM**)Normalized response value for 0.371 uM concentration for replica 3Float
25Conc7 Rep3 (1.12μM**)Normalized response value for 1.12 uM concentration for replica 3Float
26Conc8 Rep3 (3.31μM**)Normalized response value for 3.31 uM concentration for replica 3Float
27EC50 Rep3EC50 for Replicate 3FloatμM
28EC50 Mean*Mean EC50 for replicatesFloatμM
29EC50 SDStandard deviation of EC50 meanFloat
30EC50 95%CI95% confidence interval for EC50String
31Deg FreedDegrees of freedomInteger
32R-SquaredR-squared value for sigmoidal fitFloat
33Ab Sum SquaresAbsolute sum of squares of for sigmoidal fitFloat
34BottomCalculated bottom for sigmoidal fitFloat
35TopCalculated top for sigmoidal fitFloat
36SE BottomStandard error for bottom of sigmoidal fitFloat
37SE TopStandard error for top of sigmoidal fitFloat
3895%CI Bottom95% Confidence Interval for bottom fit of sigmoidal curveString
3995%CI Top95% Confidence Interval for top fit of sigmoidal curveString

* Activity Concentration. ** Test Concentration.
Additional Information
Grant Number: MH077607-1

Data Table (Concise)
Data Table ( Complete ):     View Active Data    View All Data
Classification
PageFrom: