Colivelin 10mg vial
€200,00 EUR
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Colivelin 10mg vial
€200,00 EUR
Inkl. skatter.
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NOT FOR HUMAN CONSUMPTION
Colivelin is best viewed as an investigational hybrid neuroprotective peptide, not a proven therapeutic or consumer nootropic / anti-aging peptide. It was designed by combining ADNF-9 with a potent humanin derivative, with the goal of producing stronger neuroprotection than humanin-family peptides alone. The strongest evidence is still preclinical, especially in Alzheimer’s-disease-related models, ischemic injury, alcohol-induced neurotoxicity, and other neuronal-stress settings. Human efficacy evidence is essentially absent.
Additional benefits of colivelin under investigation
| Benefit | Take-away |
|---|---|
| 1. Alzheimer’s / amyloid-related neuroprotection | This is the clearest use case. Colivelin showed strong protection against amyloid-related toxicity and improved memory in AD-model animals, but this remains preclinical. |
| 2. Potentiated humanin-like activity | Colivelin was specifically created to be more potent than humanin derivatives alone, and early work reported activity at extremely low concentrations in vitro. |
| 3. Ischemic neuroprotection | Animal work suggests protection of neurons and axons after ischemic injury, with anti-apoptotic signaling involvement. |
| 4. Alcohol-related neurotoxicity protection | Colivelin reduced alcohol-induced apoptosis in neuronal models and in a fetal alcohol exposure model. |
| 5. JAK2/STAT3 and survival signaling | A major mechanistic theme is activation of pro-survival pathways associated with humanin-family signaling. |
| 6. CNS delivery interest via intranasal route | Intranasal administration improved memory in AD-model mice and reached the CNS in preclinical work, which is a notable translational feature. |
| 7. Broad neurotrophic / anti-apoptotic reputation | Reviews describe it as a promising neurotrophic peptide, but that reputation is driven mainly by cell and animal studies. |
| 8. Not a proven human neurodegenerative therapy | The evidence base is overwhelmingly preclinical, with no established clinical efficacy. |
2. Molecular mechanism of action
2.1 Receptor pharmacodynamics
Colivelin does not behave like a conventional small-molecule CNS drug. It is a hybrid peptide built from ADNF-9 and a potent humanin analog, intended to combine complementary neuroprotective properties. The literature ties its action mainly to humanin-related receptor/survival signaling, especially JAK2/STAT3, rather than to one clean classic drug-receptor model.
2.2 Downstream biology
| Pathway / theme | Functional outcome | Context |
|---|---|---|
| JAK2/STAT3 survival signaling | Anti-apoptotic / neuroprotective effects | AD-related and neuronal-injury models |
| Humanin-family cytoprotection | Resistance to amyloid and familial AD-gene toxicity | Neurodegeneration models |
| Anti-apoptotic signaling | Reduced neuronal death in toxic-stress settings | Alcohol, ischemia, amyloid |
| Neurotrophic support | Preservation of neurons / axons and memory-related function | Preclinical CNS research |
These mechanisms are biologically compelling, but they still do not establish strong clinical benefit in humans.
3. Pharmacokinetics
Routes studied: mostly experimental administration in animals, including intranasal delivery. The intranasal work is one of the more interesting translational aspects, because it suggests a less invasive way to reach the CNS. But this remains a preclinical delivery story, not an established clinical platform.
4. Pre-clinical and clinical evidence
4.1 Alzheimer’s disease models
This is the best-supported niche. Colivelin suppressed neuronal death induced by amyloid and familial-AD-related insults in vitro, and later animal studies found improved memory performance in AD-model mice. That is enough to explain why colivelin is often discussed as an anti-AD peptide, but it is still animal-model evidence, not human proof.
4.2 Ischemic injury
A 2019 study reported that colivelin rescued ischemic neurons and axons and was associated with elevated anti-apoptotic gene expression. This supports a broader neuroprotection story beyond amyloid models.
4.3 Alcohol-induced neurotoxicity
Colivelin also showed protection against alcohol-induced neuronal apoptosis in both primary cortical neurons and a mouse fetal alcohol exposure model. That widens its preclinical neuroprotective profile, though still without clinical validation.
4.4 Human evidence
This is the weak point. I did not find evidence of established therapeutic human clinical trials showing efficacy for colivelin. The literature is dominated by cell studies, animal studies, and reviews. That absence is a major limitation.
5. Emerging clinical interests
| Field | Rationale | Status |
|---|---|---|
| Alzheimer’s disease / cognitive impairment | Strongest historical development interest | Preclinical-heavy |
| Ischemic brain injury | Anti-apoptotic and axon-protective effects | Exploratory preclinical |
| Developmental / alcohol-related neurotoxicity | Protection against apoptosis in fetal alcohol models | Exploratory preclinical |
| Broad neurodegeneration | Humanin-family / neurotrophic rationale | Plausible, but unproven clinically |
6. Safety and tolerability
There is no mature human safety database for colivelin comparable to an approved drug. The peptide appears workable in animal studies, but that is not enough to establish human short-term or long-term safety. The best overall safety framing is therefore insufficiently characterized in humans.
7. Contraindications and cautions
Use extra caution with:
- any claim that colivelin is a proven Alzheimer’s or neuroregenerative therapy, because the evidence remains overwhelmingly preclinical.
- self-experimentation / gray-market peptide use, because formal human dosing, efficacy, and safety are not established.
- assuming intranasal animal success will translate directly to humans, because that step has not been demonstrated clinically.
- replacing standard neurologic care, because colivelin remains investigational.
8. Comparative practical matrix
| Feature | Colivelin |
|---|---|
| Main strength | Investigational hybrid neuroprotective peptide |
| Best-supported use case | Preclinical Alzheimer’s-related neuroprotection |
| Clinical evidence depth | Very limited |
| Core limitation | Mostly animal and mechanistic evidence |
| Main mechanism themes | Humanin-derived survival signaling, JAK2/STAT3, anti-apoptotic activity |
| Delivery interest | Intranasal CNS delivery in animals |
| Main safety concern | Sparse human data |
| Best practical framing | Research peptide, not a proven therapy |
9. Regulatory landscape
Colivelin is best understood as a research peptide, not an approved drug or validated supplement. The literature supports serious biologic interest, but not routine clinical use.
10. Future directions
The most useful future work would be:
- real human pharmacokinetic and safety studies,
- indication-specific trials in Alzheimer’s disease or ischemic injury,
- better confirmation of intranasal delivery in humans,
- and clearer mechanistic separation of what comes from the humanin-derived versus ADNF-9-derived portions of the peptide.
Best balanced summary
Colivelin is best viewed as a hybrid humanin/ADNF-derived investigational peptide with substantial preclinical evidence for neuroprotective and anti-apoptotic effects, especially in Alzheimer’s-related, ischemic, and toxic neuronal-injury models. Its biology is credible and in some studies highly potent, but the translation gap is large: human efficacy evidence is lacking, safety is not well characterized clinically, and there is no established approved indication.
Selected references
- Chiba T, et al. Characterization of Colivelin-Mediated Neuroprotection Against Alzheimer’s Disease-Relevant Insults. Foundational paper describing colivelin as a hybrid peptide and showing very potent neuroprotection.
- Matsuoka M, Hashimoto Y. Humanin and colivelin: neuronal-death-suppressing peptides for Alzheimer’s disease and amyotrophic lateral sclerosis. Good review-level framing for humanin-family biology and colivelin’s rationale.
- Yamada M, et al. Nasal Colivelin Treatment Ameliorates Memory Impairment Related to Alzheimer’s Disease.Best source for intranasal delivery and animal memory data.
- Wu MN, et al. Colivelin Ameliorates Amyloid β Peptide-Induced Memory Impairment in a Mouse Model of Alzheimer’s Disease. Good later in vivo AD-model source.
- Zhao H, et al. Colivelin Rescues Ischemic Neuron and Axons. Best source for ischemic neuroprotection.
- Sari Y, et al. A novel peptide, colivelin, prevents alcohol-induced apoptosis in fetal brain of C57BL/6 mice. Best source for the alcohol-neurotoxicity angle.
