SR9011

SR9011 is a synthetic compound often classified as a REV-ERB agonist. It is a research chemical primarily used in laboratory studies to explore its potential effects on circadian rhythm, metabolism, and various physiological processes. Here’s a breakdown of its properties and potential uses:

Mechanism of Action

SR9011 selectively binds to and activates the REV-ERBα and REV-ERBβ nuclear receptors. These receptors play a crucial role in regulating:

1. Circadian Rhythm: They influence the body’s internal biological clock by interacting with core clock genes.
2. Lipid and Glucose Metabolism: REV-ERBs are involved in lipid storage, energy expenditure, and glucose homeostasis.
3. Inflammation: They can suppress pro-inflammatory cytokines and pathways.
4. Mitochondrial Biogenesis: SR9011 has been linked to increased mitochondrial activity, suggesting potential applications in energy metabolism.

Potential Applications

1. Metabolic Disorders:
   • It may help in conditions such as obesity, diabetes, and dyslipidemia by increasing metabolic rate and improving energy balance.
2. Muscle and Endurance:
   • Preclinical studies suggest SR9011 enhances physical endurance by improving mitochondrial function in skeletal muscles.
3. Circadian Rhythm Disorders:
   • It shows promise in regulating disrupted sleep-wake cycles, such as in jet lag or shift work.
4. Neurological Studies:
   • Research suggests it may have neuroprotective effects and potential applications in mood disorders like depression and anxiety.
5. Cancer Research:
   • SR9011 has shown anti-proliferative effects on certain cancer cells, likely due to its role in metabolism and inflammation pathways.

It’s also worth noting that SR9011 is non-hormonal in the sense that it doesn’t have an effect on the natural production of Testosterone. Basically, it won’t lower the production of Testosterone in our bodies. Because of this, post cycle therapy (PCT) is not needed with this compound. This also makes it a great compound to stack with SARMs.

• Improve intake of oxgen in their body
• A significant increase in the production of mitochondria
• Suppress the fat storedd in the form of adipose tissue
• Raise the absorption of fatty acid and glucose in the muscles
• Reduce the production of cholesterol and bile acid production in the liver
• An intense decrease in the production on fat cells in the liver