SLU-PP-332 research vial
Molecular formula
C18H14N2O2
Molecular weight
290.32 g/mol
Current batch
SLUPP202602
Metabolic · Metabolic / exercise-mimetic small molecule research

SLU-PP-332

Synthetic pan-ERR (estrogen-related receptor) agonist developed as an in vivo chemical tool

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Specifications

Molecular weight290.32 g/mol
Molecular formulaC18H14N2O2
CAS number303760-60-3
Compound classSynthetic small-molecule pan-ERR agonist (not a peptide)
Mechanism classEstrogen-related receptor (ERRα/β/γ) agonist; EC50 98 nM at ERRα, 230 nM at ERRβ, 430 nM at ERRγ
FormatOral tablets, 50mg per tablet, 60 tablets per bottle (3,000mg / 3,000,000mcg total)
AppearanceSolid oral tablet
Storage (tablets)Room temperature, in original bottle, protected from light and moisture
Half-lifeShort plasma half-life in rodent PK studies; dosed b.i.d. (twice daily) in published in vivo work
Current batch purity99.29% (HPLC) · SLUPP202602

SLU-PP-332 is a synthetic small-molecule pan-agonist of the three estrogen-related receptors (ERRα, ERRβ, and ERRγ) — it is not a peptide. Originally reported by Cyrielle Billon, Thomas P. Burris, and colleagues at Saint Louis University and the Salk Institute, SLU-PP-332 was designed as an in vivo chemical tool to activate ERR signaling, with the highest potency at ERRα (EC50 ≈ 98 nM). Its molecular formula is C18H14N2O2 with a molecular weight of 290.32 g/mol (CAS 303760-60-3). The ERRs are orphan nuclear receptors involved in transcriptional control of mitochondrial biogenesis and oxidative metabolism in skeletal muscle; SLU-PP-332 has been used in rodent studies to probe ERR-driven gene programs and exercise-related physiology. NovaWell supplies SLU-PP-332 as oral tablets — 50 mg per tablet, 60 tablets per bottle (3,000 mg total) — each batch third-party tested for identity and purity, for laboratory research use only.

Research Studies

The following studies are summarized for educational purposes only. Inclusion does not imply any human use; all referenced research was conducted in vitro or in animal models.

Research study

Synthetic ERRα/β/γ Agonist Induces an ERRα-Dependent Acute Aerobic Exercise Response and Enhances Exercise Capacity

Billon C, Sitaula S, Banerjee S, Welch R, Elgendy B, Hegazy L, Oh TG, Kazantzis M, Chatterjee A, Chrivia J, Hayes ME, Xu W, Hamilton A, Huss JM, Zhang L, Walker JK, Downes M, Evans RM, Burris TP. ACS Chemical Biology. 2023;18(4):756–771. PMID: 36988910. View source ↗

Scientific findings

This is the original report characterizing SLU-PP-332 as a synthetic pan-ERR agonist. In cotransfection assays in HEK293 cells, the compound activated ERRα, ERRβ, and ERRγ with EC50 values of 98, 230, and 430 nM respectively, with the highest potency at ERRα. In C2C12 mouse skeletal muscle cells, SLU-PP-332 induced PDK4 (pyruvate dehydrogenase kinase 4) expression, increased maximal mitochondrial respiration measured by Seahorse, and increased mitochondrial content as measured by MitoTracker staining. In mice dosed at 50 mg/kg b.i.d. intraperitoneally, the compound increased succinate dehydrogenase-positive type IIa oxidative skeletal muscle fibers in quadriceps, raised OXPHOS complex protein levels, and increased running endurance compared with vehicle. RNA-seq of quadriceps and gastrocnemius muscles showed significant overlap between SLU-PP-332-induced gene programs and the acute aerobic exercise transcriptional response in both mouse and human muscle datasets. Using ERRα-floxed conditional knockout mice, the authors demonstrated that the running endurance phenotype and induction of marker genes (Ddit4, Per1, Alas2) required ERRα.

Plain English

Scientists wanted a small molecule they could use to switch on a family of cellular receptors called ERRs (estrogen-related receptors), which help regulate how muscle cells produce energy. They designed SLU-PP-332 and showed in lab dishes that it activates all three ERR family members, most strongly ERRα. In mouse muscle cells, the compound increased measurements of mitochondrial activity. When given to mice for about two weeks, it changed the muscle fiber composition toward more oxidative (endurance-type) fibers and the mice ran longer on a treadmill. By comparing the gene patterns in treated mouse muscle to gene patterns from actual aerobic exercise in mice and humans, the researchers found a significant overlap. They then used genetically modified mice missing ERRα in muscle to confirm the running effect depended specifically on ERRα. This established SLU-PP-332 as a useful chemical tool for studying ERR biology in animal models.

Research study

A Synthetic ERR Agonist Alleviates Metabolic Syndrome

Billon C, Schoepke E, Avdagic A, Chatterjee A, Butler AA, Elgendy B, Walker JK, Burris TP. Journal of Pharmacology and Experimental Therapeutics. 2024;388(2):232–240. PMID: 37739806. View source ↗

Scientific findings

Follow-up work from the Burris laboratory examined SLU-PP-332 in mouse models of metabolic dysfunction. Diet-induced obese (DIO) mice and leptin-deficient ob/ob mice were dosed with SLU-PP-332 at 50 mg/kg b.i.d. intraperitoneally for 28 days. In DIO mice, the compound reduced fat mass, lowered serum cholesterol and triglycerides, and improved measures of insulin sensitivity, without altering food intake. Indirect calorimetry indicated increased whole-body energy expenditure and a shift toward greater fatty acid oxidation. Similar metabolic changes were observed in ob/ob mice. The authors discuss these findings in the context of ERR-driven transcriptional programs in skeletal muscle and other metabolic tissues, and frame SLU-PP-332 as a chemical tool for probing whether pharmacological activation of ERR signaling can modify metabolic phenotypes in rodent models.

Plain English

After showing that SLU-PP-332 boosted endurance in normal mice, the same lab tested whether activating ERR signaling could change metabolic markers in mice with diet-induced obesity and in a leptin-deficient strain (ob/ob). Mice received the compound twice daily for four weeks. Researchers measured body composition, blood markers, and energy use in metabolic cages. Treated mice lost fat mass, had lower blood cholesterol and triglycerides, and showed better insulin response — and importantly, they were not eating less. The metabolic-cage data suggested the animals were burning more energy and using more fat as fuel. The study positions SLU-PP-332 as a research probe for asking whether targeting ERR receptors might be a useful direction for future metabolic research.

Storage & handling

Tablets (sealed bottle): Store at room temperature (15–25°C / 59–77°F) in the original bottle. Keep the bottle tightly closed, protected from light, heat, and moisture. Do not store in humid bathrooms or near sources of heat. Stable for 24+ months under correct storage when the foil seal is intact.

Tablets (after opening): Reseal the bottle promptly after each use. Continue to store at room temperature, protected from light and moisture. The included desiccant should remain inside the bottle for the life of the product.

Bottle format: 60 tablets per bottle, each tablet containing 50 mg of SLU-PP-332 (total mass per bottle: 3,000 mg / 3,000,000 mcg). HDPE bottle with induction foil seal and child-resistant cap.

Shipping: Oral tablets are shelf-stable at ambient temperature. No cold-chain shipping required.

Handling: This is a research chemical, not a consumer product. Tablets should be handled in a laboratory setting using standard chemical hygiene practices.

Frequently asked questions

What is SLU-PP-332, and is it a peptide?+

SLU-PP-332 is not a peptide. It is a synthetic small molecule with the chemical formula C18H14N2O2 and a molecular weight of approximately 290.32 g/mol (CAS 303760-60-3). It was developed by Cyrielle Billon, Thomas P. Burris, and colleagues at Saint Louis University as a pan-agonist of the three estrogen-related receptors (ERRα, ERRβ, ERRγ), with EC50 values of approximately 98, 230, and 430 nM respectively. It is used as an in vivo chemical tool to activate ERR signaling in laboratory research.

What are the ERRs (ERRα, ERRβ, ERRγ) and why does SLU-PP-332 target all three?+

The estrogen-related receptors (ERRs) are a family of three orphan nuclear receptors — ERRα, ERRβ, and ERRγ — encoded by separate genes. Despite their name they do not bind estrogen; they are transcription factors that regulate gene programs involved in mitochondrial biogenesis, oxidative metabolism, and skeletal muscle fiber composition. Designing selective ERRα agonists has historically been difficult, so the Burris lab developed SLU-PP-332 as a pan-agonist with preferential potency at ERRα. In their published mouse work, the muscle-related effects depended specifically on ERRα, validated using conditional ERRα knockout animals.

Why is SLU-PP-332 supplied as an oral tablet rather than as an injection?+

SLU-PP-332 is a small molecule with adequate pharmacokinetic properties for oral or intraperitoneal dosing in rodent studies. Unlike peptides, which are generally degraded in the gastrointestinal tract and supplied as lyophilized powders for reconstitution and parenteral administration, small molecules like SLU-PP-332 can be formulated as solid oral tablets. NovaWell supplies SLU-PP-332 as 50 mg oral tablets, 60 tablets per bottle. The published rodent studies used intraperitoneal dosing in DMSO/Tween/PBS vehicle; oral dosing is a separate research consideration.

What does NovaWell test SLU-PP-332 for?+

Every batch of SLU-PP-332 supplied by NovaWell is tested by an independent third-party analytical laboratory for: identity (mass spectrometry), purity (HPLC), and residual solvents. Tablet batches are additionally tested for content uniformity (mg of API per tablet). The Certificate of Analysis for the currently shipping batch is linked from the Certificates tab on this page. Recent batches have tested above 98% pure by HPLC, consistent with reference-standard grade SLU-PP-332.

How should SLU-PP-332 tablets be stored?+

Store the bottle at room temperature (15–25°C / 59–77°F), tightly closed, protected from light, heat, and moisture. Keep the desiccant in the bottle. Avoid storing in humid environments such as bathrooms, and avoid temperature cycling. Under these conditions, sealed bottles are stable for 24+ months. After opening, reseal the bottle promptly after each use.

Where does NovaWell source SLU-PP-332?+

NovaWell sources SLU-PP-332 from contract manufacturers experienced with small-molecule synthesis to research-reagent grade specifications. SLU-PP-332 is structurally a hydrazide-linked naphthalene/benzamide small molecule (IUPAC: 4-hydroxy-N-[(Z)-naphthalen-2-ylmethylideneamino]benzamide), CAS 303760-60-3. Each lot is third-party tested for identity, purity, and tablet content uniformity before release, and a batch-specific Certificate of Analysis is published on this page. SLU-PP-332 is supplied strictly for in vitro and animal research use.