SLU-PP-332 – High-Purity Research Compound

SLU-PP-332 – High-Purity Research Compound

SLU-PP-332 is a synthetic small-molecule compound studied in controlled laboratory environments for its activity as an estrogen-related receptor (ERR) agonist, particularly ERRα and ERRγ. In preclinical research, it has been explored for its interaction with mitochondrial biogenesis, oxidative metabolism and cellular energy regulation pathways.

Elevr’s SLU-PP-332 solution is manufactured under strict quality standards and supplied with batch-specific quality control documentation to ensure consistency and reproducibility across research applications.

What is SLU-PP-332?

SLU-PP-332, chemically known as (E)-4-Hydroxy-N′-(naphthalen-2-ylmethylene)benzohydrazide, is a non-hormonal ERR agonist investigated in laboratory models examining mitochondrial function, energy expenditure and metabolic signalling.

Research interest in SLU-PP-332 centres around its ability to activate estrogen-related receptors involved in regulating oxidative metabolism and cellular energy production, making it a compound of significant interest in metabolic and exercise physiology research.

Concentration

• 40,000mcg per 30ml
• Approx. 1,330mcg per 1ml serving

Suggested Research Protocols

Standard Research Dose

• Volume: 1ml
• Approximate Concentration: 1,330mcg
• Frequency: Once daily (pre-exercise research models)

Micro Research Dose

• Volume: 0.5ml
• Approximate Concentration: 665mcg
• Frequency: Once daily (pre-exercise research models)

Usage & Storage

SLU-PP-332 is supplied as a ready-to-use research solution. Store in a sealed container in a cool, dark environment, protected from direct sunlight and excessive heat. Once opened, use within 12 weeks to maintain product integrity and consistency.

For laboratory research use only. Not for human consumption.

Research Benefits

Preclinical and laboratory investigations have explored SLU-PP-332 in relation to several biological pathways, including:

Mitochondrial Biogenesis Research
Studied for its influence on mitochondrial gene expression and cellular energy production pathways.

Fat Oxidation & Metabolic Research
Explored for its interaction with pathways involved in lipid metabolism and oxidative energy utilisation.

Endurance & Exercise Performance Models
Investigated in laboratory settings examining endurance-related metabolic adaptations and aerobic capacity.

Lean Tissue Preservation Research
Studied for its potential role in energy regulation pathways associated with muscle metabolism during caloric restriction models.

ERRα & ERRγ Signalling Studies
Used to investigate transcriptional pathways linked to estrogen-related receptor activation and mitochondrial function.

Cardiovascular Energy Metabolism Research
Examined for its interaction with cellular energy pathways involved in cardiac and skeletal muscle metabolism.

This product is supplied strictly for laboratory research purposes only. Not for human consumption.