Wellness Education
Recharge
NAD+ is the most critical coenzyme in metabolism — powering every cell's energy and essential for DNA repair. By 50, NAD+ levels drop 50%. These wellness essentials form the foundation of cellular longevity protocols.
50%
Decline in NAD+ by age 50
Sirtuin
NAD+-dependent longevity enzymes
3x
Faster liver detox with optimized glutathione
How They Work
NAD+ fuels mitochondrial ATP production and activates sirtuins. Glutathione neutralizes reactive oxygen species. Lipo-C and L-Carnitine mobilize fat stores through lipotropic and mitochondrial transport.
Key Benefits
Cellular Energy
NAD+ is rate-limiting for mitochondrial ATP
DNA Repair
Activates PARP enzymes and sirtuins
Detoxification
Glutathione is primary hepatic detox molecule
Fat Metabolism
L-Carnitine drives fatty acid transport
Recharge Category
7 compounds in this category
Browse all compounds →Educational Content. Category content is for informational purposes only. Not intended as medical advice, diagnosis, or treatment.
Compounds in Recharge
7 compoundsNAD+
Longevity Coenzyme
- Powers cellular energy, sirtuin activation, DNA repair
- ~50% decline by age 50 — restoration supports all function
Reference Codes
[NJ500]500mgGlutathione
Master Antioxidant
- Primary endogenous antioxidant involved in liver detoxification
- Essential for mitochondrial function and immune cell support
Reference Codes
[GTT]1500mgLipo-C with B12
Lipotropic Complex
- Methionine, inositol, choline + B12 for fat metabolism
- Complements any metabolic protocol
Reference Codes
[LC216]10mlB12 1mg/ml
Injectable B12
- Rapid, complete absorption — 100% bioavailability
- Essential for neurological function and energy metabolism
Reference Codes
[B12]10mlL-Carnitine
Fat-to-Energy Converter
- Transports fatty acids into mitochondria for energy production
- Supports fat metabolism, endurance, and cardiovascular health
Reference Codes
[LC600]10ml (600mg/ml)MOTS-c
Mitochondrial-Derived Signaling Peptide
- First mitochondrial-derived peptide shown to translocate to the nucleus and regulate gene expression
- Identified by the Lee Lab at USC — a leading center for mitochondrial peptide research
Reference Codes
[MS10]10mg[MS40]40mgSS-31 (Elamipretide)
Mitochondrial Membrane Protector
- One of the only peptides that targets mitochondrial membranes directly
- Reduces ROS at the source rather than scavenging downstream free radicals
Reference Codes
[2S10]10mg[2S50]50mgResearch in Recharge
SS-31: Targeting the Mitochondrial Membrane — A New Approach to Cellular Aging
How a mitochondria-targeted peptide stabilizes cardiolipin, protects electron transport, and opens a new front in longevity research.
March 31, 2026 · 12 min read
MOTS-c: The Mitochondrial Peptide Rewriting Metabolic Science
A mitochondrial-derived peptide that mimics exercise at the cellular level — the research behind MOTS-c, how it works, and what it means for metabolic health.
March 11, 2026 · 12 min read
NAD+: The Complete Guide to the Molecule at the Center of Aging Research
A comprehensive look at NAD+ biology — sirtuins, PARPs, CD38, delivery routes, the precursor debate, and an honest assessment of the human evidence.
February 11, 2026 · 15 min read
Glutathione: The Antioxidant Your Cells Actually Make
Glutathione is the body's primary antioxidant — produced in every cell, critical for detoxification. Why it declines with age and what the research shows.
January 3, 2026 · 8 min read
All compound profiles are for educational reference only. This content does not constitute medical advice, diagnosis, or treatment recommendations. Consult a qualified healthcare provider.