Side-by-side · Research reference

CortagenvsMOTS-c

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

AAnimal-MechanisticHUMAN-REVIEWED11/35 cited

BAnimal-StrongHUMAN-REVIEWED16/68 cited

Cortagen

Bioregulatory Tetrapeptide · Khavinson-School

TetrapeptideStructure

↓ LPO productsAntioxidant effectKozina 2007

AnimalEvidence level

Injectable · Animal models

MOTS-c

Mitokine · Mitochondria-Encoded

5–10 mgWeekly doseLee 2015

AnimalEvidence levelLee 2015 Reynolds 2021

Min–hrsHalf-life

SQ · Variable · 2–3×/week

01Mechanism of Action

Parameter

Cortagen

MOTS-c

Primary target

Cerebral cortex tissue — molecular targets under investigation

Mitochondrial 12S rRNA sORF → folate-AICAR-AMPK axisLee 2015

Pathway

Antioxidant pathway modulation — suppression of LPO cascade, reduction of protein oxidative modificationKozina 2007

Folate cycle inhibition → ↑AICAR → AMPK phosphorylation → PGC-1α upregulationLee 2015 Kim 2018

Downstream effect

Decreased lipid peroxidation products, reduced oxidative protein damage, altered gene expression in cardiac tissueKozina 2007 Anisimov 2004

Enhanced fatty acid oxidation, GLUT4-mediated glucose uptake, mitochondrial bioenergetics, anti-inflammationLee 2015

Feedback intact?

—

Stress-responsive, AMPK-dependent nuclear translocationKim 2018

Origin

Synthetic tetrapeptide derived from amino acid analysis of natural brain cortex peptide preparation CortexinAnisimov 2004

Endogenous 16-AA mitokine; mtDNA-encoded; declines with age; upregulated by exerciseReynolds 2021

Antibody development

—

02Dosage Protocols

Parameter

Cortagen

MOTS-c

Animal model dose (rat)

Injection protocol (dose not specified in abstracts)

Multiple injections over study period.

—

Avian model dose (chicken)

40-day injection courseKuznik 2008

Compared to epithalon in hypophysectomized and aged birds.

—

Human peripheral nerve study

Therapeutic course (protocol details not provided)

Posttraumatic recovery context — reference cited but not detailed.

—

Evidence basis

Animal mechanistic studies

Animal + anecdotalLee 2015 Reynolds 2021 A first-in-human phase 1 study 2021

Phase 1a/1b CB4211 analog trial completed 2021; no native MOTS-c RCT published.

Route

Injectable (inferred from animal protocols)

—

Standard dose

—

5–10 mg / weekLee 2015

Experimental, extrapolated from animal data. No human RCT-derived dose.

Frequency

—

2–3× per week

Short half-life may necessitate more frequent dosing for saturation.

Lower / starter dose

—

2.5–5 mg / week

Recommended due to limited human data.

Duration

—

4–12 weeks (experimental)

Optimal cycle length unknown.

Reconstitution

—

Bacteriostatic water, 1–2 mL

10 mg/mL at 1 mL.

Timing

—

Pre-workout or fasted state preferred

Activity-context amplifies AMPK response.

Half-life

—

Minutes to hours (estimated)

Systemically unstable; native MOTS-c PK in humans not fully characterised.

03Metabolic / Fat Loss Evidence

Parameter

Cortagen

MOTS-c

Primary fat target

—

Diet-induced / metabolic obesity; systemic fat utilization

Quantified reduction

—

Significant HFD fat gain ↓Lee 2015

Murine models, dose-dependent (5 & 15 mg/kg).

IGF-1 impact

—

No direct IGF-1 pathway; AMPK-mediated

Effect on lean mass

—

High dose significantly ↑ lean mass in mice

Insulin sensitivity

—

Reversed HFD insulin resistance in 7 days (mice)Lee 2015

Triglycerides

—

AMPK-driven FA oxidation suggests TG benefit (not directly measured)

Glucose metabolism

—

Improved glucose tolerance; GLUT4 upregulationLee 2015

Effect reversibility

—

Unknown — no long-term follow-up data

Context dependency

—

No effect in normal-chow mice; requires metabolic stressReynolds 2021

Key publication

—

Lee Cell Metab 2015 · Reynolds Nat Commun 2021 · Kim Cell Metab 2018Lee 2015 Reynolds 2021 Kim 2018

04Side Effects & Safety

Parameter

Cortagen

MOTS-c

Antioxidant suppression

Suppression of antioxidant activity noted alongside LPO reductionKozina 2007

Mechanism unclear — possible homeostatic adaptation.

—

Immune/hemostasis effects

No effect on immunity or hemostasis parameters in avian hypophysectomy model (unlike epithalon)Kuznik 2008

Epithalon reversed deficits; cortagen did not.

—

Human safety data

No adverse events reported in peripheral nerve recovery context

Limited detail in available abstracts.

—

Injection site reaction

—

Mild irritation (reported)

Fluid retention / Edema

—

Not reported

Glucose intolerance

—

Improves glucose toleranceLee 2015

Cardiovascular

—

Heart palpitations (anecdotal); cardiac hypertrophy reversed in diabetic rats

Cancer risk

—

Contradictory data — some models suggest pro-proliferative effects

CNS / Neurological

—

Insomnia, headache (anecdotal reports)

GI symptoms

—

Nausea, stomach discomfort (reported)

Antibody formation

—

No data (no long-term human trials)

Pregnancy / OB

—

Avoid — insufficient safety data

Evidence quality

—

Phase 1 analog (CB4211); preclinical; anecdotal humanA first-in-human phase 1 study 2021

Absolute Contraindications

Cortagen

—

MOTS-c

·Pregnancy / breastfeeding (insufficient data)

Relative Contraindications

Cortagen

—

MOTS-c

·Active cancer or cancer predisposition
·AMPK pathway deficiency (efficacy nullified)
·Use with cancer-promoting medications (theoretical)

05Administration Protocol

Parameter

Cortagen

MOTS-c

1. Preparation

Reconstitute lyophilised peptide with bacteriostatic water per supplier protocol. Exact volumes depend on concentration supplied.

Add 1–2 mL bacteriostatic water. At 10 mg/vial, 1 mL gives 10 mg/mL concentration. Roll gently to dissolve.

2. Injection site

Subcutaneous injection typical for bioregulatory peptides — abdomen or thigh. Rotate sites.

Subcutaneous — abdomen, thigh, or deltoid. Rotate sites to avoid lipohypertrophy. Pinch fat layer.

3. Timing

Animal protocols used repeated dosing over weeks. Human timing not established — evening administration common in Khavinson tradition.

Pre-workout or fasted state preferred — metabolic context amplifies AMPK response. 2–3× per week.

4. Storage

Lyophilised: refrigerate or freeze per supplier. Reconstituted: refrigerate 2–8 °C, use within guideline window.

Lyophilised: room temp, protected from light. Reconstituted: refrigerate, use within 21–30 days. Short systemic stability.

5. Needle

—

27–31G insulin syringe. Short needle (4–6 mm) for SQ delivery. Clean technique mandatory.

06Stack Synergy

Cortagen

— no documented stacks

MOTS-c

+ Ipamorelin

Moderate

View Ipamorelin →

MOTS-c activates AMPK/PGC-1α for mitochondrial efficiency and fatty acid oxidation; ipamorelin stimulates GH for anabolic recovery and sleep depth. Pathways are complementary — MOTS-c handles metabolic flexibility and glucose handling while ipamorelin drives recovery and body recomposition through GH. Theoretical synergy is high; clinical data is lacking.

MOTS-c: 5 mg SQ · pre-workout (2–3×/wk)
Ipamorelin: 200–300 mcg SQ · pre-sleep (daily)
Primary benefit: Metabolic flexibility + GH recovery + ROS reduction