Side-by-side · Research reference

DermorphinvsHumanin

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

AAnimal-StrongHUMAN-REVIEWED20/47 cited

BAnimal-StrongHUMAN-REVIEWED14/52 cited

Dermorphin

Opioid Peptide · μ-Receptor Agonist · Research Only

~30×Morphine potency

μ-selectiveReceptor typeNegri 1992

D-Ala²Unique featureAmiche 1998

Research only · ICV / SC (animal models)

Humanin

Mitochondrial-Derived Peptide · Cytoprotective

24-AAPeptide lengthZhu 2022

mtDNAEncoded originZhu 2022 Shahzaib 2026

Bax/BimPrimary targetZhu 2022 Morris 2021

SQ · Experimental

01Mechanism of Action

Parameter

Dermorphin

Humanin

Primary target

μ-opioid receptors (central and peripheral)Negri 1992 Steel 2014

Intracellular: Bax, Bim, tBid (pro-apoptotic Bcl-2 family). Extracellular: FPRL1/2 G-protein-coupled receptorsZhu 2022 Lue 2021

Pathway

μ-receptor activation → G-protein coupling → adenylyl cyclase inhibition → neuronal hyperpolarization

Humanin binds Bax/Bim → inhibits mitochondrial outer membrane permeabilization (MOMP) → blocks cytochrome c release → prevents caspase activation → cell survival

Downstream effect

Potent analgesia, reduced nociceptive signaling, opioid-mediated CNS and peripheral effects

Suppression of apoptosis, mitochondrial stabilization, reduced oxidative stress, preservation of germ cells and neurons under stressZhu 2022 Lue 2021 Velentza 2024

Feedback intact?

N/A — exogenous opioid agonist

Not applicable — peptide acts as anti-apoptotic signal, not hormonal axis

Origin

Phyllomedusa sauvagei and P. bicolor frog skin — gene-encoded with natural D-amino acid incorporationAmiche 1998 Mignogna 1992

Encoded by short open reading frame in mitochondrial 16S rRNA gene (MTRNR2). 24-28 amino acids. 13 homologous variants (MTRNR2L1-L13) identified.Zhu 2022 Shahzaib 2026

Antibody development

Site-directed antibodies produced for detection and purificationCucumel 1996

Not reported in animal models

02Dosage Protocols

Parameter

Dermorphin

Humanin

Legal status

Controlled substance in many jurisdictions · Research only

Not approved for human use.

—

Animal research (ICV)

Low nanomolar to picomolar range

Intracerebroventricular administration in rodent models.

—

Detection limit (doping)

5 pg/mL in equine plasma/urineSteel 2014

High-throughput LC-MS/MS screen developed for racing industry.

—

Duration of action

10–120 minutes (dose-dependent, intrathecal)

—

Evidence basis

Animal studies · In vitro assays

Animal models (rat, mouse)Huang 2025 El 2022 Velentza 2024

Human toxicity

Kambô ritual (P. bicolor skin) — violent emesis, vasodilation, fluid shifts, ADH dysregulationTran 2025

—

Standard experimental dose (HNG)

—

4 mg/kg IP (rat)

Most common dose in rodent models.

Ex vivo bone culture

—

1 µg/mL

Protective against venetoclax-induced bone growth retardation.

Frequency

—

Daily (IP)

Duration

—

8–12 weeks in animal studies

Human data

—

None — no clinical trials reported

Analog (HNG)

—

Gly[14]-humanin — more potent variant

Substitution at position 14 enhances cytoprotective activity.

03Metabolic / Fat Loss Evidence

Parameter

Dermorphin

Humanin

Direct fat loss evidence

—

None

Mechanism overlap

—

Mitochondrial health may indirectly influence metabolic efficiency, but no quantified effect

04Side Effects & Safety

Parameter

Dermorphin

Humanin

Opioid effects

Respiratory depression, sedation, euphoria, tolerance, dependence risk

—

CNS effects

Analgesia (high-affinity sites), catalepsy (low-affinity sites)Negri 1992

—

Kambô ritual toxicity

Violent emesis, vasodilation, profound fluid shifts, hyponatremia, ADH dysregulation, brain death (case report)Tran 2025

—

Peripheral effects

GI motility inhibition (ileum > vas deferens in vitro)Negri 1992

—

Receptor selectivity caveat

Two μ-receptor subtypes — differential behavioral effects (analgesia vs. catalepsy)Negri 1992

—

Proteolytic stability

Tyr³-Pro⁶ bond relatively unstable; endogenous enzymes may produce tetrapeptide fragmentsCucumel 1996

—

Animal model safety

—

Well-tolerated in rat and mouse studies at 4 mg/kg for 8–12 weeks

Human safety data

—

None — no clinical trials

Theoretical fibrillation risk

—

Induces amyloid-like fibrillation of Bax/BID. Long-term sequelae unknown.

Injection site reaction

—

Not reported in animal studies (IP route)

Reproductive safety

—

Protective in POI model (cyclophosphamide-induced), no adverse effects on fertility notedHuang 2025

Absolute Contraindications

Dermorphin

·Human use — not approved by any regulatory authority
·Controlled substance status — possession illegal in many jurisdictions
·Known opioid hypersensitivity or respiratory compromise

Humanin

·Unknown — no human data

Relative Contraindications

Dermorphin

·Any context outside approved animal research protocols
·CNS depressant co-administration

Humanin

·Active malignancy (theoretical risk of anti-apoptotic effect on tumour cells)

05Administration Protocol

Parameter

Dermorphin

Humanin

1. Legal and ethical framework

Dermorphin is a controlled substance in many jurisdictions and is not approved for human use. Possession, synthesis, or distribution may be illegal. Use is restricted to licensed research settings under institutional review.

Intraperitoneal (IP) in animal models. Subcutaneous route untested. No human protocols exist.

2. Animal research protocols

In rodent models, intracerebroventricular (ICV) or intrathecal injection is used at nanomolar to picomolar concentrations. Subcutaneous administration also documented. All protocols require IACUC approval.

Synthetic peptide reconstituted in sterile saline or PBS. No commercial formulation available.

3. Analytical detection

High-throughput LC-MS/MS screens developed for anti-doping programs detect dermorphin and 17 related peptides in equine and human urine/plasma at limits as low as 5 pg/mL.Steel 2014

Daily administration in animal studies. Optimal timing not characterized.

4. Kambô ritual (traditional use)

Application of Phyllomedusa bicolor skin secretions to superficial burns. Not recommended — associated with severe toxicity including violent emesis, hyponatremia, and documented case of brain death.Tran 2025

Lyophilised powder: -20 °C. Reconstituted: 4 °C, use within 7 days. Avoid freeze-thaw cycles.

5. Human use

—

No FDA approval, no IND, no clinical trials. Experimental research tool only.

06Stack Synergy

Dermorphin

— no documented stacks

Humanin

+ MOTS-c

Multi-pathway

View MOTS-c →

Both are mitochondrial-derived peptides. MOTS-c enhances metabolic efficiency and insulin sensitivity via AMPK activation, while humanin prevents mitochondrial apoptosis. Combined, they address mitochondrial function (MOTS-c) and survival signaling (humanin), supporting cellular resilience under metabolic and oxidative stress.

Humanin: 4 mg/kg IP · daily (animal model)
MOTS-c: 5 mg/kg IP · daily (animal model)
Frequency: Once daily
Primary benefit: Mitochondrial health, metabolic efficiency, anti-apoptotic signaling