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SLU-PP-332

SLU-PP-332

Research Peptide | Lyophilized Powder | Batch Tested

Tested for
Purity
Size
$86.00
Best Value
$1.72/mg
In StockLatest batch: PP332-260601
1

For laboratory research use only. Not for human or animal consumption. Insulated shipping · Styrofoam box available.

Product Overview

SLU-PP-332 is a synthetic agonist of the estrogen-related receptors (ERRα/β/γ), a family of orphan nuclear receptors that govern mitochondrial and oxidative-metabolism genes. It is studied as an exercise-mimetic tool compound because ERR activation drives many of the same transcriptional changes as endurance training.

Batch PP332-260601Tested Jun 1, 2026
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Purity98.3%Passed ✓
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Research Information

SLU-PP-332 is used to study ERR-driven transcription of mitochondrial-biogenesis and fatty-acid-oxidation genes and how activating this pathway influences endurance-type adaptations, energy expenditure and muscle-fiber metabolism in cell and rodent models. Supplied strictly for in-vitro and laboratory research use only — not for human or animal consumption.

SLU-PP-332 Research & Studies

What is SLU-PP-332?

SLU-PP-332 is a synthetic small-molecule agonist of the estrogen-related receptors ERRα, ERRβ, and ERRγ, a family of orphan nuclear receptors that regulate genes involved in mitochondrial function and oxidative metabolism. It is employed in laboratory settings as a tool compound to probe ERR-dependent transcriptional programs. Research focuses on its ability to engage the same gene networks that respond to endurance-type stimuli in cellular and rodent model systems. The compound is supplied strictly for in-vitro and laboratory research use only.

Mechanism of Action

SLU-PP-332 binds and activates ERRα/β/γ, promoting coactivator recruitment and transcription of target genes that control mitochondrial biogenesis, oxidative phosphorylation, and fatty-acid oxidation. In experimental models this activation elevates expression of PGC-1α-linked metabolic genes and shifts cellular energy handling toward greater oxidative capacity. The resulting transcriptional signature closely parallels pathways observed after endurance exercise stimuli. These mechanistic effects are characterized exclusively in cell-culture and rodent laboratory systems.

Primary Areas of Research

Investigators use SLU-PP-332 to examine how ERR agonism influences mitochondrial density, respiratory capacity, and substrate preference in skeletal-muscle and other metabolically active cell types. Studies also explore its impact on endurance-type molecular adaptations, whole-organism energy expenditure, and muscle-fiber metabolic profiles in rodent models. Additional work maps the compound’s selectivity across the ERR isoforms and its downstream effects on oxidative-metabolism gene networks. All such investigations remain confined to controlled research environments.

Key Research Findings

Published laboratory work indicates that SLU-PP-332 robustly induces ERR target genes linked to mitochondrial biogenesis and fatty-acid oxidation in cultured myocytes and related cell models. In rodent experimental systems, ERR activation by the compound has been associated with transcriptional and metabolic signatures resembling those of endurance training. These observations support its utility as an exercise-mimetic research tool for dissecting nuclear-receptor control of oxidative metabolism. Findings are derived solely from non-clinical model systems.

Research Handling & Considerations

SLU-PP-332 is intended exclusively for in-vitro assays and laboratory animal model research under appropriate institutional oversight. Standard practices include protection from light and moisture, storage at recommended temperatures, and dissolution in suitable organic solvents for stock preparation. Researchers should verify receptor engagement and off-target profiles within their specific experimental systems. The material is not for human or animal consumption and carries no approved therapeutic indications.

Frequently Asked Questions

SLU-PP-332 is a synthetic agonist of the orphan nuclear receptors ERRα, ERRβ, and ERRγ, which regulate mitochondrial and oxidative-metabolism gene programs.

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