MOTS-c (10 mg)
MOTS-c is a mitochondrial-derived peptide that has been the focus of exciting research in the fields of metabolism, exercise physiology, and healthy aging. Studies suggest that MOTS-c plays a key role in regulating energy balance and metabolic homeostasis by activating AMPK pathways, enhancing glucose uptake, and improving insulin sensitivity.
Preclinical and early human data indicate that MOTS-c may mimic some of the beneficial effects of exercise, making it a valuable compound for exploring exercise adaptation, metabolic health, and resilience against age-related decline. Research has also linked MOTS-c to increased endurance, fat metabolism, and mitochondrial efficiency, opening avenues for further study into obesity, type 2 diabetes, and healthy longevity.
Key Research Highlights:
Activates AMPK pathways to improve energy regulation.
Enhances glucose uptake and insulin sensitivity.
Promotes fat metabolism and supports healthy weight balance.
Shown to increase exercise capacity and endurance in studies.
Investigated for potential anti-aging and longevity benefits.
Research Use Only — Not for Human or Veterinary Use.
This compound is provided strictly for controlled laboratory research. It is not approved for consumption, supplementation, or therapeutic applications.
MOTS-c (10 mg)
MOTS-c is a mitochondrial-derived peptide that has been the focus of exciting research in the fields of metabolism, exercise physiology, and healthy aging. Studies suggest that MOTS-c plays a key role in regulating energy balance and metabolic homeostasis by activating AMPK pathways, enhancing glucose uptake, and improving insulin sensitivity.
Preclinical and early human data indicate that MOTS-c may mimic some of the beneficial effects of exercise, making it a valuable compound for exploring exercise adaptation, metabolic health, and resilience against age-related decline. Research has also linked MOTS-c to increased endurance, fat metabolism, and mitochondrial efficiency, opening avenues for further study into obesity, type 2 diabetes, and healthy longevity.
Key Research Highlights:
Activates AMPK pathways to improve energy regulation.
Enhances glucose uptake and insulin sensitivity.
Promotes fat metabolism and supports healthy weight balance.
Shown to increase exercise capacity and endurance in studies.
Investigated for potential anti-aging and longevity benefits.
Research Use Only — Not for Human or Veterinary Use.
This compound is provided strictly for controlled laboratory research. It is not approved for consumption, supplementation, or therapeutic applications.
