J147

Description

 J147 is a derivative of curcumin, the active component of turmeric, but with enhanced stability and bioavailability. It was developed to address the limitations of curcumin in crossing the blood-brain barrier and exerting significant effects on brain health. J147 has been studied extensively for its potential to improve cognitive function, protect neurons from degeneration, and promote the growth of new neural connections.

J147 operates by targeting multiple pathways associated with aging and neurodegeneration. It has shown promise in enhancing mitochondrial function, which is crucial for cellular energy production and overall neuronal health. By improving mitochondrial efficiency, J147 may reduce the accumulation of toxic proteins and oxidative stress that contribute to cognitive decline.

Mechanism of Action:

1. Mitochondrial Enhancement: J 147 binds to ATP synthase, a protein involved in mitochondrial function, leading to improved energy production and reduced mitochondrial dysfunction.
2. Neurogenesis Promotion: The compound stimulates the production of new neurons and synapses, supporting learning and memory formation.
3. Reduction of Oxidative Stress: J 147 exhibits antioxidant properties by reducing the levels of reactive oxygen species (ROS), protecting neurons from oxidative damage.
4. Anti-Inflammatory Effects: It modulates inflammatory pathways, decreasing neuroinflammation that can lead to neuronal damage.
5. Amyloid Plaque Reduction: J 147 has been shown to reduce the accumulation of beta-amyloid plaques, which are associated with Alzheimer’s disease pathology.

Effects:

• Cognitive Enhancement: By improving neuronal function and promoting neurogenesis, J147 may enhance memory, learning, and overall cognitive performance.
• Neuroprotection: J147 protects neurons from oxidative stress, mitochondrial dysfunction, and inflammation, potentially slowing the progression of neurodegenerative diseases.
• Mitochondrial Support: Enhances mitochondrial efficiency, leading to improved energy production and reduced cellular aging.
• Potential Alzheimer’s Disease Treatment: By addressing multiple pathological features of Alzheimer’s, such as amyloid-beta accumulation and tau protein dysfunction, J147 is being studied as a potential therapeutic agent.

Clinical Research:

• Alzheimer’s Disease Models: Studies by Chen et al. (2011) demonstrated that J147 improved cognitive function and memory in mouse models of Alzheimer’s disease, along with reducing amyloid-beta levels and inflammation.
• Mitochondrial Function: Research by Currais et al. (2015) showed that J147 enhances mitochondrial function and protects against mitochondrial toxicity, which is linked to aging and neurodegeneration.
• Neurogenesis and Synaptic Plasticity: Studies indicate that J147 promotes the growth of new neurons and synapses, enhancing synaptic plasticity essential for learning and memory.

Additional Effects:

• Anti-Aging Properties: By targeting mechanisms of cellular aging, J147 may have broader applications in promoting longevity and reducing age-related cognitive decline.
• Mood Enhancement: Preliminary research suggests that J147 may have antidepressant effects by modulating neurotransmitter systems involved in mood regulation.
• Metabolic Regulation: J147 may influence metabolic pathways, potentially improving glucose metabolism and reducing insulin resistance in the brain.

Safety and Considerations:

• Tolerability: In preclinical studies, J147 has been generally well-tolerated with no significant toxicity observed at therapeutic doses.
• Regulatory Status: J147 is a research compound and not approved for medical use. It is primarily used in laboratory settings for studying neurodegenerative diseases.

Storage Information:

• Temperature: Store at -20°C (freezer) for long-term preservation.
• Protection: Keep in a tightly sealed container, protected from light and moisture.

For detailed lab analysis and product specifications, please refer to the next tabs.