Side-by-side · Research reference
GLP-1 (7-37)vsVilon
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-REVIEWED13/49 cited
GLP-1 (7-37)
Incretin Hormone · Native Peptide
Research use only · IV/SC in experimental settings
Vilon
Khavinson Bioregulator · Dipeptide
Literature lacks standardised clinical route
01Mechanism of Action
Parameter
GLP-1 (7-37)
Vilon
Primary target
GLP-1 receptor (class B GPCR)Koole 2015
Immune cell differentiation pathways, chromatin modification
Pathway
GLP-1R activation → cAMP production → PKA signaling → insulin secretion (pancreatic β-cells)Lu 2025Koole 2015
Vilon → Thymocyte sphingomyelinase activation → T-helper & cytotoxic T-cell differentiation; epigenetic suppression of aging markers (CCL11, HMGB1)
Downstream effect
Glucose-dependent insulin release, glucagon suppression, delayed gastric emptying, reduced food intakeLu 2025Ding 2017
Enhanced T-cell differentiation (CD4+, CD8+, B-cells), thymocyte proliferation, modulated IL-1β comitogenic activity, proposed chromatin decondensation in aged lymphocytesLinkova 2011Khavinson 2002Lezhava 2023
Feedback intact?
Yes — physiological secretion and degradation preserved
Unknown — no HPA/HPG axis data
Origin
Endogenous peptide cleaved from proglucagon in intestinal L cells; secreted postprandially
Synthetic dipeptide derived from Khavinson thymic peptide extraction studies (Thymalin fraction)Morozov 1997
Antibody development
—
—
02Dosage Protocols
Parameter
GLP-1 (7-37)
Vilon
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 2021Ding 2017
Requires continuous infusion for sustained effect.
Not published — dipeptides typically <10 min plasma t½
Modified analogues
t½ extended to 13 h (liraglutide), 165 h (semaglutide)
Via DPP-4 resistance + fatty acid acylation.
—
Standard dose
—
No clinical standard — literature lacks human dosing
Russian practice: often combined with other Khavinson peptides; no FDA/EMA trials.
Animal model dose
—
In vitro: 0.01–10 μg/mL culture medium (mouse thymocytes)
Not translatable to human mg/kg without pharmacokinetic data.
Frequency
—
Unknown — literature does not specify chronic administration protocols
Evidence basis
—
Mouse / in vitro only
Duration
—
Not characterised in humans
Route
—
Likely SQ or oral (Khavinson school uses both); no published ROA validation
03Metabolic / Fat Loss Evidence
Parameter
GLP-1 (7-37)
Vilon
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)
Vilon
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
—
Absent from PubMed-indexed literature
Theoretical risk
—
Immune hyperactivation in autoimmune-prone individuals (T-cell differentiation enhancement)
Antibody formation
—
Not reported; dipeptides generally low immunogenicity
Animal models
—
No adverse effects noted in mouse thymocyte or pineal lymphoid cultures
Absolute Contraindications
GLP-1 (7-37)
—Vilon
- ·Active autoimmune disease (theoretical — no clinical data)
Relative Contraindications
GLP-1 (7-37)
—Vilon
- ·Pregnancy / lactation (no safety data)
- ·Acute infection with cytokine storm risk (immune modulation unknown)
05Administration Protocol
Parameter
GLP-1 (7-37)
Vilon
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.
No clinical protocols exist in Western peer-reviewed literature. Russian gerontological practice may use 1–10 mg ranges, but dosing is empirical.
2. Storage
Lyophilised peptide stored at -20°C or below. Reconstituted solutions should be prepared fresh and used immediately due to rapid degradation.
Subcutaneous injection (common for Khavinson peptides) or oral (some bioregulators reportedly active orally due to small size). No validated ROA.
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).
Unknown — no circadian or meal-timing data. Khavinson school often recommends morning administration.
4. Storage
—
Likely lyophilised powder, refrigerated. Reconstitution protocols not published.
06Stack Synergy
GLP-1 (7-37)
— no documented stacks
Vilon
+ Epitalon
ModerateBoth are Khavinson bioregulators targeting aging pathways. Epitalon (Ala-Glu-Asp-Gly) acts on telomerase and pineal function; Vilon on immune differentiation and chromatin decondensation. Combined in Russian gerontological protocols for multi-system aging intervention. Lezhava et al. (2023) tested both on aged lymphocyte chromatin, showing distinct epigenetic effects. Complementary, not synergistic in strict pharmacological sense.
- Vilon
- Empirical — no standard
- Epitalon
- Empirical — often 10 mg cycles
- Frequency
- Sequential or concurrent (literature ambiguous)
- Primary benefit
- Multi-system aging modulation (immune + pineal/circadian)
+ Thymalin
WeakThymalin is the parent polypeptide complex from which Vilon was isolated. Both target immune differentiation, but Thymalin is a complex mixture (multiple peptides), whereas Vilon is a purified dipeptide. Morozov & Khavinson (1997) described Vilon as a synthetic successor designed to replicate Thymalin's immunomodulatory effects with greater specificity. Redundant in practice; no published combination studies.
- Vilon
- No standard
- Thymalin
- 10–100 mg IM (polypeptide complex)
- Primary benefit
- Redundant — both target T-cell differentiation