CHO-K1 Human P2Y2 Stable Cell

CHO-K1/Human P2Y2 Stable Cell

Item	Cat#	Price
Stable Cell Line	SNB-G-0181A	$19,800
Compound Testing Services	CT-001	$1,850 per 384w plate *(Up To 16 cpds Dose)*

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Product Description

The P2Y2 receptor is a Gq protein-coupled receptor activated by nucleotides such as ATP and UTP. It is widely expressed on airway epithelial cells, vascular endothelium, immune cells (e.g., macrophages, neutrophils), and various tumor cell surfaces. Its core function involves activating phospholipase C and mobilizing intracellular calcium to regulate transepithelial chloride and fluid secretion, promote mucociliary clearance, and mediate inflammatory cell chemotaxis. It plays a pivotal role in airway defense, vascular remodeling, inflammatory responses, and tumor metastasis, representing a potential therapeutic target for cystic fibrosis, dry eye disease, and atherosclerosis.

Screeningbio’s CHO-K1/Human P2Y2 cell line overexpress P2RY2 receptor and is designed to detect increases in intracellular IP-1 levels in response to agonist stimulation of the receptor. Cisbio HTRF IP-1 kit can be used to detect the signal.

Product Specifications

Target Type	GPCR
Species	Human
HGNC Symbol	P2RY2
Accession Number	SNB-G-0181A
Parental Line	CHO-K1
Lot#	See Vial
Storage	Liquid Nitrogen

Data

CHO-K1/Human P2Y2 Agonist Assay. CHO-K1/Human P2Y2 cells were treated with the reference agonist. The assay was run based on Revvity IP-one HTRF protocol. Non-linear regression was used to plot activity changes vs. [Compound, M], and EC50 /IC50 values were determined, using GraphPad Prism software. — **CHO-K1/Human P2Y2 Agonist Assay.** CHO-K1/Human P2Y2 cells were treated with the reference agonist. The assay was run based on Revvity IP-one HTRF protocol. Non-linear regression was used to plot activity changes vs. [Compound, M], and EC50 /IC50 values were determined, using GraphPad Prism software.

Target Background

The P2Y2 receptor is a Gq protein-coupled receptor activated by nucleotides such as ATP and UTP. It is widely expressed on airway epithelial cells, vascular endothelium, immune cells (e.g., macrophages, neutrophils), and various tumor cell surfaces.

Its core function involves activating phospholipase C and mobilizing intracellular calcium to regulate transepithelial chloride and fluid secretion, promote mucociliary clearance, and mediate inflammatory cell chemotaxis.

It plays a pivotal role in airway defense, vascular remodeling, inflammatory responses, and tumor metastasis, representing a potential therapeutic target for cystic fibrosis, dry eye disease, and atherosclerosis.