Cognitive & Longevity Research

Semax
ACTH-Derived Neuroprotective Peptide

Semax is an ACTH(4-10) analogue developed in Russia, where it has been used clinically for stroke recovery, cognitive enhancement, and neuroprotection for decades. In Western research contexts it is primarily studied as a nootropic and neuroprotective compound with a particularly well-characterized BDNF-upregulation mechanism.

NeuroprotectiveCognitiveBDNFNootropicStroke ResearchAnxiety

At a Glance

CAS Number
80714-61-0
Molecular Weight
708.84 Da
Class
7 Amino Acids (heptapeptide)
Published Studies
Substantial — Eastern European clinical
Stability
High — lyophilized stable
Research Status
Clinical use in Russia; preclinical in West
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Overview

Despite being derived from adrenocorticotropic hormone (ACTH), Semax has no meaningful effect on cortisol or steroid pathways. Instead, it was engineered to retain and amplify the neuroprotective fragment of ACTH while eliminating the hormonal cascade — making it a cleaner cognitive research tool than its parent compound.

Its primary mechanism involves upregulation of BDNF (brain-derived neurotrophic factor) — the primary growth factor supporting neuronal survival, plasticity, and new neuron formation. This places Semax at the intersection of neuroprotection, learning, and mood regulation research.

"Semax is one of the most studied nootropic peptides with actual clinical application — its use in Russian stroke medicine gives it a body of human data that most Western research peptides simply don't have."

Its nasal spray formulation — used clinically in Russia — has also made it one of the few research peptides with a well-established intranasal administration model, providing data on CNS delivery via olfactory and nasal routes.

Mechanism of Action

This compound operates through several converging biological pathways, which helps explain the breadth of effects observed across different tissue and metabolic models.

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BDNF Upregulation

Stimulates expression of brain-derived neurotrophic factor, supporting neuronal survival, synaptic plasticity, and neurogenesis in preclinical cognitive models.

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ACTH Analogue — No Steroid Effect

Derived from ACTH(4-10) but engineered to eliminate steroid pathway activation — retaining neuroprotective effects without hormonal side effects.

Dopamine & Serotonin Modulation

Influences dopaminergic and serotonergic signaling, contributing to studied effects on motivation, focus, and mood regulation.

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Neuroprotection

Demonstrated protective effects in ischemic injury models — reducing neuronal death and improving functional recovery in stroke animal models.

Key Research Areas

Preclinical and clinical models have investigated this compound across a wide range of physiological contexts and tissue types.

  • Stroke recovery and neuroprotection — primary clinical application in Russia; preclinical models widely studied
  • Cognitive function and learning — BDNF-mediated neuroplasticity enhancement in rodent models
  • Anxiety and stress response — anxiolytic properties in animal studies without sedation
  • ADHD and attention research — dopamine modulation and focus studies
  • Depression models — BDNF pathway connection to antidepressant mechanisms
  • Neuroinflammation research — anti-inflammatory effects in CNS injury models
  • Intranasal CNS delivery models — well-established route from clinical use

Semax occupies a unique position as a compound with substantial Eastern European clinical history but limited Western regulatory review — providing an unusually rich human dataset relative to most research peptides.

Compound Comparison

Semax and Selank are the most commonly compared cognitive peptides from Russian research — they're often studied together due to complementary mechanisms.

Aspect Semax Selank Cerebrolysin
Primary Mechanism BDNF upregulation, ACTH analogue Anxiety reduction, immune modulation Neurotrophic factor mixture
Main Research Use Cognition, stroke recovery Anxiety, PTSD, cognition Neuroprotection, dementia
Administration Intranasal or SC Intranasal or SC IV or IM injection
Human Clinical Data Substantial (Russia) Growing (Russia) Substantial (Eastern Europe)
Stimulating Effect Mild stimulating Calming/anxiolytic Neutral
Safety Profile in Research Studies

The following reflects findings from published preclinical and clinical safety assessments where available.


Human clinical data available — decades of stroke and cognitive research in Russia provides unusual human evidence base


Well-characterized BDNF mechanism — one of the more clearly understood nootropic peptides at the mechanistic level


Intranasal route established — clinical formulation history provides delivery model data


Western regulatory status limited — not FDA approved; most Western researchers rely on translated or limited-access Russian clinical literature

Frequently Asked Questions
How does Semax enhance cognitive function?
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Primarily through BDNF upregulation — increased brain-derived neurotrophic factor supports neuronal survival, synaptic plasticity, and neurogenesis. It also modulates dopaminergic signaling, which may contribute to focus and motivation effects observed in research.
Is Semax stimulating or calming?
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Semax tends toward mild stimulation — improved focus and alertness without sedation. This contrasts with Selank, which is anxiolytic and calming. The two are sometimes combined to balance stimulating and anxiolytic effects in research designs.
What makes Semax different from other nootropics?
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Its clinical history in Russia gives it human data that most Western research peptides lack. Its BDNF mechanism is also more directly neuroprotective than most nootropic compounds, which typically focus on neurotransmitter modulation rather than neuronal survival and growth.
Can Semax be administered intranasally?
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Yes — intranasal is the primary clinical route. The nasal mucosa and olfactory epithelium provide a pathway to bypass the blood-brain barrier, and this route has been studied extensively in both clinical and preclinical contexts.

This overview is strictly educational and based on publicly available scientific literature as of 2026. It does not constitute medical advice. All Helixera Labs products are for laboratory research use only. Not for human or veterinary use. · Helixera Labs LLC © 2026