Side-by-side · Research reference

GLP-1 (7-37)vsMGF

Side-by-side comparison across mechanism, dosage, evidence, side effects, administration, and stack synergies. Citations on every claim where available.

AHuman-MechanisticHUMAN-REVIEWED16/43 cited

BAnimal-StrongHUMAN-REVIEWED14/55 cited

GLP-1 (7-37)

Incretin Hormone · Native Peptide

~2 minHalf-lifeAlavi 2021 Ding 2017

3297.7 DaMolecular weightAlavi 2021

1922Discovery year

Research use only · IV/SC in experimental settings

MGF

IGF-1Ec Splice Variant · Muscle-Specific

IGF-1EcSplice variantArmakolas 2016

24-AASynthetic E-domain

Animal onlyHuman evidence

SQ · Research context only

01Mechanism of Action

Parameter

GLP-1 (7-37)

MGF

Primary target

GLP-1 receptor (class B GPCR)Koole 2015

Satellite cells (Pax7+) in skeletal muscleMoore 2018

Pathway

GLP-1R activation → cAMP production → PKA signaling → insulin secretion (pancreatic β-cells)Lu 2025 Koole 2015

Mechanical stress → IGF-1Ec mRNA upregulation → Local E-domain peptide release → Satellite cell activation

Downstream effect

Glucose-dependent insulin release, glucagon suppression, delayed gastric emptying, reduced food intakeLu 2025 Ding 2017

Satellite cell proliferation, myoblast differentiation, muscle fiber repair

Feedback intact?

Yes — physiological secretion and degradation preserved

—

Origin

Endogenous peptide cleaved from proglucagon in intestinal L cells; secreted postprandially

Alternative splicing of IGF-1 gene (exons 4-6) produces IGF-1Ec precursor; E-domain cleaved post-translationallyArmakolas 2016 Vassilakos 2017

Antibody development

—

02Dosage Protocols

Parameter

GLP-1 (7-37)

MGF

Clinical use

None — native GLP-1 not used therapeutically

Engineered analogues (semaglutide, liraglutide) used clinically.Friedman 2024

—

Research dosing

Variable — 0.1–10 nmol/kg in animal models

Used as reference standard for analogue comparison.

—

Half-life

~2 minutes (plasma)Alavi 2021 Ding 2017

Requires continuous infusion for sustained effect.

—

Modified analogues

t½ extended to 13 h (liraglutide), 165 h (semaglutide)

Via DPP-4 resistance + fatty acid acylation.

—

Synthetic peptide

—

24-amino-acid E-domain sequence

Corresponds to human IGF-1Ec exons 4-6 region.

Rodent cardiac model

—

200 μg/kg via peptide-eluting microstructures

Post-MI injection; improved ejection fraction by 8 weeks.

Acute delivery (mouse MI)

—

Single bolus within 12 hrs post-infarctionShioura 2014

Delayed decompensation; no human protocol established.

Human evidence

—

None — no published clinical trials

All dosing extrapolated from animal models.

Detection in doping

—

Full-length MGF detected via LC-MS in illicit productsThevis 2014

WADA-prohibited since 2005; no therapeutic indication.

Evidence basis

—

Animal models + in vitro only

03Metabolic / Fat Loss Evidence

Parameter

GLP-1 (7-37)

MGF

Mechanism

GLP-1R activation in hypothalamic satiety centers (arcuate nucleus) reduces food intakeLu 2025

Effect demonstrated with long-acting analogues (liraglutide).Lu 2025

—

Native GLP-1 efficacy

Minimal — rapid degradation prevents sustained appetite suppression

—

Gastric emptying

Delayed in animal models, contributing to satiety

—

Body weight impact

Not observed with native GLP-1 — requires analogue formulations

—

04Side Effects & Safety

Parameter

GLP-1 (7-37)

MGF

Native GLP-1

Well-tolerated in research settings; no prolonged exposure data

—

Hypoglycemia risk

Low — insulin secretion is glucose-dependent

—

Analogue side effects

Nausea, vomiting, diarrhea (GLP-1R agonists)

Not applicable to native GLP-1 due to non-therapeutic use.

—

GLP-1 resistance

High glucose-induced PKCβ overexpression may reduce GLP-1 responsiveness in endothelial cellsPujadas 2016

—

Human safety data

—

None — no clinical trials published

Theoretical IGF-1 axis risk

—

Chronic IGF-1Ec overexpression linked to cancer progression (prostate, colorectal, breast)

Tumor promotion

—

IGF-1Ec overexpressed in osteosarcoma, colorectal polyps with dysplasia, endometrial cancer

Antibody development

—

Unknown — no longitudinal human exposure data

Local injection reaction

—

Presumed similar to other peptides (erythema, induration) — no direct evidence

Dysregulated expression with age

—

Older adults (70+ yrs) show blunted IGF-1Ec response post-exercise vs youngMoore 2018

Absolute Contraindications

GLP-1 (7-37)

—

MGF

·Active malignancy or history of IGF-1-sensitive cancers (prostate, colorectal, breast, osteosarcoma)
·No established therapeutic use — investigational only

Relative Contraindications

GLP-1 (7-37)

—

MGF

·Family history of IGF-1-axis malignancies
·Use outside research setting

05Administration Protocol

Parameter

GLP-1 (7-37)

MGF

1. Research use only

Native GLP-1(7-37) is not formulated for therapeutic use. Administered IV or SC in experimental protocols to study GLP-1R pharmacology and as reference standard for analogue development.

MGF (E-domain peptide) has no approved clinical protocol. All published data derive from animal models or in vitro experiments.

2. Storage

Lyophilised peptide stored at -20°C or below. Reconstituted solutions should be prepared fresh and used immediately due to rapid degradation.

Commercially available MGF corresponds to the 24-amino-acid human E-domain (hEc). Rodent E-domain (Eb) is structurally distinct and not interchangeable.

3. Clinical alternatives

For therapeutic GLP-1R activation, use FDA-approved long-acting analogues: semaglutide (once weekly), liraglutide (once daily), dulaglutide (once weekly), or exenatide (twice daily or once weekly).

Rodent studies used peptide-eluting polymeric microstructures (cardiac) or direct intramuscular injection. Routes and doses non-translatable to humans.Peña 2015 Shioura 2014

4. WADA prohibition

—

MGF peptides prohibited in sport since 2005. Detection via LC-MS established for full-length MGF products.Thevis 2014

5. Research context only

—

Any human use falls outside approved medical practice and regulatory frameworks. No safety or efficacy data exist.

06Stack Synergy

GLP-1 (7-37)

— no documented stacks

MGF

+ BPC-157

Multi-pathway

View BPC-157 →

MGF activates satellite cells for muscle fiber repair; BPC-157 promotes angiogenesis, collagen synthesis, and tendon healing via distinct pathways (VEGF, FAK, integrin signaling). Theoretical synergy in post-injury contexts combines myogenic (MGF) and stromal (BPC-157) repair mechanisms. Both lack human validation.

MGF: No established dose
BPC-157: 250–500 mcg SQ near injury site
Context: Animal models only
Primary benefit: Theoretical multi-tissue repair (muscle + tendon/ligament)

+ TB-500

Moderate

View TB-500 →

TB-500 (thymosin beta-4 fragment) enhances actin polymerization, cell migration, and angiogenesis—complementary to MGF satellite cell activation. Both upregulated post-injury; combined use presumed additive for muscle regeneration in preclinical models.

MGF: No established dose
TB-500: 2–5 mg SQ weekly
Context: Animal models only
Primary benefit: Satellite cell activation + enhanced migration/angiogenesis