SLU-PP-332 vs Vesilute
Side-by-side comparison of key properties, dosing, and research.
Recovery & RepairFat Loss & Metabolic
SLU-PP-332Anti-Aging & Longevity
Vesilute- Summary
- SLU-PP-332 is a small molecule exercise mimetic that activates estrogen-related receptors ERRalpha and ERRdelta (ERRa/d), transcription factors that drive oxidative metabolism programs. In animal studies it significantly enhanced endurance capacity and metabolic fitness without exercise, mimicking many of the cardiovascular and metabolic adaptations of aerobic training.
- Vesilute is a tetrapeptide bioregulator (Lys-Glu-Asp-Leu) developed by Professor Vladimir Khavinson, tissue-specific for the retina and visual system. It supports retinal cell function, promotes normalization of photoreceptor protein synthesis, and is studied for age-related macular degeneration (AMD), retinal aging, and vision preservation in the elderly.
- Half-Life
- Not established in humans; rodent pharmacokinetics suggest hours
- Short (minutes); sustained gene-regulatory effects
- Admin Route
- Oral (research), Subcutaneous (research)
- SubQ, Oral
- Research
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- Typical Dose
- Not established for humans; rodent studies used ~100 mg/kg/day
- 10 mg per day
- Frequency
- Once daily in rodent studies
- Daily for 10–30 days
- Key Benefits
- Significant enhancement of aerobic endurance capacity
- Increases mitochondrial density and oxidative metabolism in muscle
- Promotes beneficial shift toward oxidative muscle fiber phenotype
- Improves cardiac efficiency and cardiovascular fitness markers
- Potential for obesity, metabolic syndrome, and heart failure treatment
- Exercise mimetic for populations unable to exercise (disability, frailty, disease)
- Supports retinal photoreceptor cell function and survival
- May slow progression of age-related macular degeneration
- Reduces retinal cell apoptosis from oxidative stress and aging
- Anti-aging effects on retinal pigment epithelium
- Potential support in diabetic retinopathy management
- Preserves visual acuity with aging
- Complementary to lutein, zeaxanthin, and NAD+ in ocular health protocols
- Side Effects
- Limited human data; all studies are preclinical (rodent)
- Unknown cardiovascular effects with long-term or high-dose use in humans
- Potential hormonal interactions via ERR pathway (ERRs modulate estrogen-related signaling)
- Off-target effects not fully characterized
- Generally well tolerated
- Mild injection site reactions
- No significant ocular adverse events reported at standard doses
- Stacks With
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