Retatrutide is a multi-receptor peptide agonist targeting GLP-1, GIP, and glucagon receptors, designed for advanced metabolic research.
It is under investigation for its effects on energy balance, glucose control, and body weight regulation, positioning it at the frontier of polypeptide-based research.
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Alias / Product Clarification
GLP-3RT – 24mg = Retatrutide 24mg
For research use only. Not for human consumption.
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Triple-Action Research Peptide
Three Receptors, One Molecule: The Science of Triple Agonism
Retatrutide represents the next generation of incretin-based research compounds. Unlike dual-agonists such as Tirzepatide, it targets three key receptors simultaneously: GLP-1, GIP, and Glucagon. This triple-agonist mechanism has been extensively documented in peer-reviewed literature for its interaction with metabolic signaling pathways and receptor cross-talk.
- Activates GLP-1, GIP, and Glucagon receptors simultaneously
- First compound designed with this triple-agonist mechanism
- Extended half-life suitable for weekly research protocols
- Well-documented in peer-reviewed scientific journals
- Stable compound suitable for in-vitro research protocols
For laboratory and in-vitro research use only. Not for human or animal use.
Triple Pathway Mechanism
What Each Receptor Does — And Why Three Creates Synergy
Each receptor in Retatrutide's mechanism has distinct signaling characteristics. GLP-1 receptors modulate incretin signaling and gastric motility. GIP receptors influence insulin secretion pathways and lipid metabolism. The third component — Glucagon receptors — activates thermogenic and lipolytic pathways. Published research indicates that simultaneous activation creates a synergistic effect distinct from mono or dual-agonism.
- GLP-1: Incretin signaling and gastric motility modulation
- GIP: Insulin secretion pathway and lipid metabolism interaction
- Glucagon: Thermogenic and lipolytic pathway activation
- Triple activation creates documented synergistic effects
- Combined signaling distinct from single or dual-receptor activation
For laboratory and in-vitro research use only. Not for human or animal use.
Research Applications
Areas of Scientific Investigation
Retatrutide has become a valuable tool for researchers exploring triple-receptor agonism and metabolic pathway interactions. Because it affects three signaling pathways simultaneously, it enables investigation of receptor cross-talk and synergistic mechanisms that were difficult to study with single or dual-target compounds. The scientific literature continues to expand with new findings.
- GLP-1, GIP, and Glucagon receptor binding kinetics
- Triple agonist mechanisms in cell-based assays
- Incretin and glucagon pathway signaling studies
- Hepatic receptor interaction and lipolytic pathway research
- Thermogenic biomarker correlation studies
- Comparative analysis of mono vs dual vs triple receptor activation
For laboratory and in-vitro research use only. Not for human or animal use.
Understanding Retatrutide: Mechanism of Action
Retatrutide represents the next generation of incretin-based research compounds. While Tirzepatide activates two receptors (GLP-1 and GIP), Retatrutide adds a third: the Glucagon receptor. This structural addition enables the study of triple-receptor agonism and opens new possibilities for investigating metabolic pathway interactions.
Each receptor contributes distinct signaling characteristics: GLP-1 receptor activation modulates incretin signaling cascades and gastric motility pathways. GIP receptor engagement influences insulin secretion mechanisms and lipid metabolism interactions. Glucagon receptor activation stimulates thermogenic and lipolytic signaling pathways. Most incretin-based compounds target only the first two — the addition of glucagon receptor agonism distinguishes this compound in research settings.
Published research indicates that when these three pathways are activated simultaneously, they create what scientists describe as a synergistic effect. The combined receptor activation produces measurable outcomes distinct from single or dual-receptor activation alone. This represents a unique pharmacological profile for studying receptor cross-talk.
The compound demonstrates extended stability with a prolonged half-life, making it suitable for weekly intervals in research protocols. For scientists investigating incretin biology, glucagon receptor pharmacology, or multi-agonist mechanisms, retatrutide offers a unique research tool for exploring how these interconnected signaling systems function together.
For laboratory and in-vitro research use only. Not for human or animal use.
Scientific Literature
- Jastreboff AM, et al. Triple-hormone-receptor agonist retatrutide for obesity. N Engl J Med. 2023;389(6):514-526.
- Rosenstock J, et al. Retatrutide, a GIP, GLP-1 and glucagon receptor agonist, for people with type 2 diabetes. Lancet. 2023;402(10401):529-544.
- Coskun T, et al. LY3437943, a novel triple glucagon, GIP, and GLP-1 receptor agonist for glycemic control and weight loss. Diabetes Obes Metab. 2022.
- Retatrutide. StatPearls Publishing; 2024.
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Retatrutide – 24mg
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Prime Lab PeptidesPeptide Sciences
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$152.00$295.00
- ≥99.877%98–99.0%
- 24mg16mg
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