Imagine your body has its own recycling facility ♻️. 

Every cell sends in its old parts — broken engines (mitochondria), bent tools (proteins), and dusty junk — to be cleaned and reused. 

This amazing process is called autophagy, which is a mechanism whereby cells digest and recycle themselves.

But as you age, this facility starts to shut down. 

Old cell parts pile up. 

Mitochondria get tired and leaky. 

That’s called disabled macroautophagy, and it’s one reason aging cells lose energy and become toxic.

How AmCELL Restores Cellular Recycling:

✅ Ellagic Acid and its superstar metabolite Urolithin A turn the recycling machines back on, especially for damaged mitochondria.

✅ Gallic Acid supports this cleanup by lowering oxidative stress and activating self-repair signals.

Together, they help your cells clear out the clutter and stay fresh, like a recycling plant humming back to life.

AmCELL acts like a maintenance team that restarts the conveyor belts and keeps your cells clean and efficient.

🔍 Coming up: What happens when your body’s sugar sensors go haywire? 

In Part 7, we explore how AmCELL helps fix the energy dashboard. Stay tuned!

References:

Brimson, J. M., Prasanth, M. I., Malar, D. S., Thitilertdecha, P., Kabra, A., Tencomnao, T., & Prasansuklab, A. (2021). Plant polyphenols for aging health: implication from their autophagy modulating properties in age-associated diseases. Pharmaceuticals, 14(10), 982.

Gao, J., Hu, J., Hu, D., & Yang, X. (2019). A role of gallic acid in oxidative damage diseases: A comprehensive review. Natural Product Communications, 14(8), 1934578X19874174.

Salimi, A., Roudkenar, M. H., Sadeghi, L., Mohseni, A., Seydi, E., Pirahmadi, N., & Pourahmad, J. (2015). Ellagic acid, a polyphenolic compound, selectively induces ROS-mediated apoptosis in cancerous B-lymphocytes of CLL patients by directly targeting mitochondria. Redox biology, 6, 461-471.