GW791343 trihydrochloride

Modify Date: 2024-01-05 10:46:38

GW791343 trihydrochloride structure	Common Name	GW791343 trihydrochloride
	CAS Number	309712-55-8	Molecular Weight	483.81000
	Density	N/A	Boiling Point	N/A
	Molecular Formula	C₂₀H₂₇Cl₃F₂N₄O	Melting Point	N/A
	MSDS	N/A	Flash Point	N/A

Use of GW791343 trihydrochloride

GW791343 3Hcl is a P2X7 allosteric modulator; exhibits species-specific activity and acts as a negative allosteric modulator of human P2X7 (pIC50 = 6.9 - 7.2). IC50 value: 7 (pIC50)Target: P2X7 in vitro: In cells expressing human P2X7 receptors, GW 791343 inhibits agonist-stimulated ethidium accumulation in both sucrose and NaCl buffer. In NaCl buffer, GW 791343 reduces the maximal response to both ATP and BzATP, but there is little effect on agonist potency except for a decrease in the presence of 300–1000 nM GW 791343. GW 791343 also reduces maximal responses to ATP and BzATP in sucrose buffer, although this effect is more marked when using ATP as agonist. In sucrose buffer, GW 791343 produces a slight decrease in ATP potency at 300 nM. GW 791343 decreases BzATP potency at concentrations of 300 nM to 10 μM. A more marked increase in agonist effect is observed when using ATP as agonist in NaCl buffer with GW791343 increasing the pEC50 and maximal response to ATP at concentrations of 10 and 30 μM. In sucrose buffer, GW791343 also increases responses when using ATP as agonist [1]. GW791343 inhibits responses at the human–rat chimeric receptor in both sucrose and NaCl buffer. GW791343 increases responses to BzATP at the F95L mutant receptor [2]. GW791343 is a non-competitive antagonist and negative allosteric modulator at the human P2X7 receptor; however, GW 791343 also acts as a positive allosteric modulator at the rat P2X7 receptor [3]. At the dog P2X7 receptor, GW 791343 is an antagonist with similar potency to that determined at the human receptor [4].

Name	N2-(3,4-Difluorophenyl)-N-[2-methyl-5-(1-piperazinylmethyl)phenyl]glycinamide trihydrochloride
Synonym	More Synonyms

Description	GW791343 3Hcl is a P2X7 allosteric modulator; exhibits species-specific activity and acts as a negative allosteric modulator of human P2X7 (pIC50 = 6.9 - 7.2). IC50 value: 7 (pIC50)Target: P2X7 in vitro: In cells expressing human P2X7 receptors, GW 791343 inhibits agonist-stimulated ethidium accumulation in both sucrose and NaCl buffer. In NaCl buffer, GW 791343 reduces the maximal response to both ATP and BzATP, but there is little effect on agonist potency except for a decrease in the presence of 300–1000 nM GW 791343. GW 791343 also reduces maximal responses to ATP and BzATP in sucrose buffer, although this effect is more marked when using ATP as agonist. In sucrose buffer, GW 791343 produces a slight decrease in ATP potency at 300 nM. GW 791343 decreases BzATP potency at concentrations of 300 nM to 10 μM. A more marked increase in agonist effect is observed when using ATP as agonist in NaCl buffer with GW791343 increasing the pEC50 and maximal response to ATP at concentrations of 10 and 30 μM. In sucrose buffer, GW791343 also increases responses when using ATP as agonist [1]. GW791343 inhibits responses at the human–rat chimeric receptor in both sucrose and NaCl buffer. GW791343 increases responses to BzATP at the F95L mutant receptor [2]. GW791343 is a non-competitive antagonist and negative allosteric modulator at the human P2X7 receptor; however, GW 791343 also acts as a positive allosteric modulator at the rat P2X7 receptor [3]. At the dog P2X7 receptor, GW 791343 is an antagonist with similar potency to that determined at the human receptor [4].
Related Catalog	Signaling Pathways >> Membrane Transporter/Ion Channel >> P2X Receptor Research Areas >> Neurological Disease
References	[1]. Michel AD, et al. Negative and positive allosteric modulators of the P2X(7) receptor. Br J Pharmacol, 2008, 153(4), 737-750. [2]. Michel AD, et al. Identification of regions of the P2X(7) receptor that contribute to human and rat species differences in antagonist effects. Br J Pharmacol, 2008, 155(5), 738-751. [3]. Felix RA, et al. Development of a comprehensive set of P2 receptor pharmacological research compounds. Purinergic Signal, 2012, 8(Suppl 1), 101-112. [4]. Roman S, et al. Cloning and pharmacological characterization of the dog P2X7 receptor. Br J Pharmacol, 2009, 158(6), 1513-1526.

Description

Related Catalog

Signaling Pathways >> Membrane Transporter/Ion Channel >> P2X Receptor

Research Areas >> Neurological Disease

References

[1]. Michel AD, et al. Negative and positive allosteric modulators of the P2X(7) receptor. Br J Pharmacol, 2008, 153(4), 737-750.

[2]. Michel AD, et al. Identification of regions of the P2X(7) receptor that contribute to human and rat species differences in antagonist effects. Br J Pharmacol, 2008, 155(5), 738-751.

[3]. Felix RA, et al. Development of a comprehensive set of P2 receptor pharmacological research compounds. Purinergic Signal, 2012, 8(Suppl 1), 101-112.

[4]. Roman S, et al. Cloning and pharmacological characterization of the dog P2X7 receptor. Br J Pharmacol, 2009, 158(6), 1513-1526.