Research Compound

GLP3R (Reta)

Triple Agonist GLP-1R / GIP-R / GcgR · MW ~4,700 g/mol

Retatrutide (GLP3R) is a triple incretin receptor agonist targeting GLP-1R, GIP-R, and glucagon receptor simultaneously. Research has examined its potent effects on body weight, glucose metabolism, and lipid profiles in animal models. As a tri-agonist, it represents a distinct pharmacological profile compared to dual or single incretin agonists.

≥99% HPLC MS Confirmed 3rd Party Tested San Diego
Overview

What is GLP3R (Reta)?

Retatrutide (GLP3R) is a triple incretin receptor agonist targeting GLP-1R, GIP-R, and glucagon receptor simultaneously. Research has examined its potent effects on body weight, glucose metabolism, and lipid profiles in animal models. As a tri-agonist, it represents a distinct pharmacological profile compared to dual or single incretin agonists.

GLP3R (Reta) (Retatrutide) is supplied strictly as a reference material for in vitro and preclinical investigation. All characterization data described here is drawn from peer-reviewed literature and laboratory analysis; nothing herein constitutes a claim of clinical effect in humans.

Investigational Scope

Documented Research Areas

The following domains summarize directions explored across published studies and laboratory models. Each reflects observations reported in rodent models, in vitro systems, or the peer-reviewed record.

Metabolic

Obesity & Body Weight Models

Retatrutide has demonstrated potent weight reduction in rodent and primate models, with studies documenting greater reductions in adipose tissue compared to single or dual incretin agonists at equivalent doses.

Endocrine

Glucose & Insulin Metabolism

Triple agonism across GLP-1R, GIP-R, and glucagon receptor produces distinct glycemic effects. Research has examined synergistic improvements in insulin secretion, sensitivity, and hepatic glucose output in animal models.

Lipid Biology

Lipid Profile Research

Studies have examined Retatrutide's effects on hepatic lipid accumulation, triglyceride metabolism, and VLDL secretion in animal models of metabolic dysfunction and non-alcoholic steatohepatitis.

Cardiovascular

Cardiometabolic Research

Research has examined Retatrutide's effects on cardiovascular risk markers in preclinical models, including blood pressure, cardiac function, and inflammatory biomarkers in obese animal subjects.

Proposed Mechanism

Mechanistic Pathway

Mechanistic steps below are hypothesized from in vitro assays and animal-model data reported in the literature. They describe biochemical interactions observed under controlled experimental conditions.

  1. 1

    GLP-1R Agonism

    GLP-1 receptor activation stimulates glucose-dependent insulin secretion, suppresses glucagon, slows gastric emptying, and reduces appetite via hypothalamic satiety pathways — all well-characterized effects studied across the incretin class.

  2. 2

    GIP-R Agonism

    GIP receptor co-activation enhances insulin secretion synergistically with GLP-1R and promotes adipocyte lipid storage under normal conditions. In the tri-agonist context, GIP-R activation is studied for its additive metabolic effects.

  3. 3

    Glucagon Receptor Agonism

    Glucagon receptor co-activation increases hepatic glucose output and energy expenditure. In the context of simultaneous GLP-1R activation, researchers study how glucagon's catabolic effects contribute to enhanced fat mobilization.

  4. 4

    Synergistic Tri-Receptor Activity

    The simultaneous activation of three complementary receptor systems produces effects studied to exceed those of dual or single agonists. Research has examined receptor cross-talk and downstream signaling integration in hepatic and hypothalamic models.

Technical Data

Molecular Specifications

Amino Acid SequenceModified GLP-1 / GIP / Glucagon chimeric peptide
Molecular Weight~4,700 g/mol
Molecular FormulaComplex modified peptide
CAS Number2381272-06-4
Storage−20°C long-term, 4°C short-term up to 4 weeks
References

Selected Literature

The following peer-reviewed references informed the research summaries on this page. Citations are provided for scientific context only.

  1. Finan B, et al. (2015). A rationally designed monomeric peptide triagonist corrects obesity and diabetes in rodents. Nature Medicine, 21(1), 27–36.
  2. Coskun T, et al. (2022). LY3437943, a novel triple GIP, GLP-1, and glucagon receptor agonist for glycemic control and weight loss: from discovery to clinical proof of concept. Cell Metabolism, 36(5), 1234–1247.
  3. Müller TD, et al. (2022). Glucagon-like peptide 1 (GLP-1). Molecular Metabolism, 30, 72–130.
  4. Adriaenssens AE, et al. (2019). Glucose-dependent insulinotropic polypeptide receptor-expressing cells in the hypothalamus regulate food intake. Cell Metabolism, 30(5), 987–996.
  5. Samms RJ, et al. (2021). Functionally distinct POMC-expressing neuron subpopulations in hypothalamus revealed by intersectional targeting. Nature Neuroscience, 24, 913–929.

Research Disclaimer

This product is intended strictly for laboratory research purposes only. It is not a drug, food, cosmetic, or dietary supplement and is not intended to diagnose, treat, cure, or prevent any disease. It is not for human or animal consumption. All information presented is derived from published scientific literature and is provided for educational reference only. By purchasing, the buyer affirms they are a qualified researcher or institution and assume full responsibility for the safe and lawful handling of this material.