CHO-K1 Rat NPFF2 Stable Cell

CHO-K1/Rat NPFF2 Stable Cell

Item	Cat#	Price
Stable Cell Line	SNB-G-0162C	$19,800
Compound Testing Services	CT-001	$1,850 per 384w plate *(Up To 16 cpds Dose)*

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Product Description

Neuropeptide FF receptor 2 (NPFF2) is a member of the G protein-coupled receptor family, predominantly distributed in the central nervous system with notable expression in regions associated with emotion, endocrine regulation, and pain modulation, such as the hippocampus, hypothalamus, and spinal dorsal horn. Its core functions involve modulating opioid system activity, influencing pain processing, opioid tolerance, and addiction, as well as participating in blood pressure regulation, stress responses, and energy balance. NPFF2 serves as a key receptor mediating the anti-opioid or modulatory effects of neuropeptide FF on endogenous opioid actions.

Screeningbio’s CHO-K1/Rat NPFF2 cell line overexpress NPFFR2 and is designed to detect inhibition in intracellular cAMP levels in response to agonist stimulation of the receptor. Cisbio HTRF cAMP kit can be used to detect the signal.

Product Specifications

Target Type	GPCR
Species	Rat
HGNC Symbol	NPFF2 receptor
Accession Number	SNB-G-0162C
Parental Line	CHO-K1
Lot#	See Vial
Storage	Liquid Nitrogen

Data

CHO-K1/Rat NPFF2 Agonist Assay. CHO-K1/Rat NPFF2 cells were stimulated with 2.5 μM Forskolin and treated with reference agonist. The assay was run based on Revvity cAMP HTRF protocol. Non-linear regression was used to plot activity changes vs. [Compound, M], and EC50 values were determined, using GraphPad Prism software. — **CHO-K1/Rat NPFF2 Agonist Assay.** CHO-K1/Rat NPFF2 cells were stimulated with 2.5 μM Forskolin and treated with reference agonist. The assay was run based on Revvity cAMP HTRF protocol. Non-linear regression was used to plot activity changes vs. [Compound, M], and EC50 values were determined, using GraphPad Prism software.

Target Background

Neuropeptide FF receptor 2 (NPFF2) is a member of the G protein-coupled receptor family, predominantly distributed in the central nervous system with notable expression in regions associated with emotion, endocrine regulation, and pain modulation, such as the hippocampus, hypothalamus, and spinal dorsal horn.

Its core functions involve modulating opioid system activity, influencing pain processing, opioid tolerance, and addiction, as well as participating in blood pressure regulation, stress responses, and energy balance. NPFF2 serves as a key receptor mediating the anti-opioid or modulatory effects of neuropeptide FF on endogenous opioid actions.