Selank
What Is Selank?
Selank is a synthetic heptapeptide and tuftsin analog studied in laboratory and preclinical research for its relationship with neurological signaling, stress-response pathways, neuroimmune communication, neurotransmitter regulation, and cognitive-process models.
Tuftsin is a naturally occurring immunomodulatory peptide fragment associated with IgG-related biology. Selank was designed as a more stable synthetic analog, making it useful for controlled research into peptide-mediated communication between the nervous system and immune system.
In research settings, Selank has been examined for its connection to GABAergic signaling, monoamine-related pathways, gene-expression regulation, cytokine balance, neuroplasticity markers, and adaptive stress-response models.
Because of its position between neuropeptide research and immune-signaling biology, Selank remains a compound of interest in studies focused on CNS regulation, stress biology, cognition-related pathways, and neuroimmune interaction.
Certificate of Analysis
Third-party testing documentation available for purity and analytical verification.
Selank Research Overview
Selank is most commonly discussed in research involving neuropeptide signaling, stress-response biology, neurotransmitter systems, and immune-regulatory pathways.
Laboratory and preclinical studies have examined Selank in relation to:
- GABAergic signaling and neurotransmission
- Monoamine-related pathway modulation
- Stress-response and anxiety-like behavior models
- Cytokine balance and immune-response signaling
- Gene-expression changes in nervous-system models
- Neuroplasticity and cognitive-process research
- Neuroimmune communication
In controlled research environments, Selank is often studied as a peptide tool for understanding how tuftsin-like peptides may influence central nervous system signaling and immune-response coordination.
History and Development
Selank was developed through research into short regulatory peptides and tuftsin-based analogs. The goal behind Selank research was to create a peptide with improved stability while preserving biological activity related to neuroimmune and stress-response systems.
Early studies focused on Selankβs relationship with immunomodulatory signaling and anxiety-like behavioral models. Later research expanded into neurotransmitter regulation, GABAergic system interaction, cytokine signaling, gene-expression modulation, and cognitive-process research.
Today, Selank is studied as a neuroimmune research peptide because it connects multiple biological systems, including nervous-system signaling, immune regulation, stress adaptation, and peptide-mediated communication.
Selank Profile
Selank Structure
Research Findings
Selank has been examined across neurological, immune, cellular, and systemic research models. The main research interest centers on how Selank may interact with neurotransmitter systems, immune signaling, and stress-response pathways.
Key Areas of Investigation
- Neurological Research: GABAergic signaling, monoamine-related pathways, neurotransmitter regulation, CNS communication, and neuropeptide activity.
- Stress-Response Research: Stress-adaptation models, anxiety-like behavior research, biological resilience pathways, and neuroendocrine-response signaling.
- Immune Research: Cytokine balance, immune-response modulation, inflammatory signaling, and neuroimmune communication.
- Gene-Expression Research: Expression changes in genes related to neurotransmission, inflammation, signaling proteins, and cellular response pathways.
- Cognitive Research: Learning-related models, memory-process research, attention-related signaling, and neuroplasticity markers.
- Systemic Research: Adaptive response signaling, immune-nervous system interaction, protective signaling models, and biological homeostasis.
Mechanism-Based Research Interest
Selank is studied because it may connect several important biological pathways, including:
- Tuftsin-related peptide signaling
- GABAergic neurotransmission models
- Monoamine pathway research
- Cytokine and immune-response regulation
- Neuroimmune communication
- Stress-response signaling
- Gene-expression modulation
- Cognitive-process and neuroplasticity models
This makes Selank a versatile research compound for studying how short regulatory peptides may influence nervous-system function, immune balance, and stress-related biological communication.
Investigational Research Context
Selank should be considered an investigational research compound. Available research includes laboratory, preclinical, and limited clinical-context studies. Findings should not be interpreted as approved therapeutic outcomes.
This product is supplied for laboratory research only and is not intended for human consumption, clinical use, veterinary use, or self-experimentation.
Scientific References
View References
- Kozlovskaya M.M. et al. (2003) β Selank and short peptides of the tuftsin family in the regulation of adaptive behavior in stress.
- Uchakina O.N. et al. (2008) β Immunomodulatory effects of Selank in patients with anxiety-asthenic disorders.
- Zozulya A.A. et al. (2008) β Efficacy and possible mechanisms of action of Selank in anxiety-related clinical research.
- Volkova A. et al. (2016) β Selank administration affects the expression of genes involved in neurotransmission and GABAergic signaling.
- Filatova E. et al. (2017) β GABA, Selank, and olanzapine affect gene expression related to GABAergic neurotransmission.
- Vyunova T.V. et al. (2018) β Peptide-based anxiolytics: the molecular aspects of heptapeptide Selank biological activity.
- Leonidovna Y.A. et al. (2021) β The influence of Selank on cytokine levels under social stress conditions.
- Filippenkov I.B. et al. (2021) β Antistress action of regulatory peptides and related neurobiological mechanisms.
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