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Selank

Selank is a synthetic heptapeptide with the amino acid sequence Thr-Lys-Pro-Arg-Pro-Gly-Pro, designed as an analog of the naturally occurring immunomodulatory peptide tuftsin. Developed at the Institute of Molecular Genetics of the Russian Academy of Sciences and the Zakusov Scientific Research Institute of Pharmacology, it serves as a regulatory peptide drug characterized by anxiolytic, nootropic, and neuroprotective effects with minimal toxicity due to its composition of natural amino acids. Approved in Russia in 2009 for the treatment of generalized anxiety disorder (GAD), Selank is administered intranasally at doses such as 2700 μg per day and demonstrates both rapid (within 1–3 days) and conventional (by day 14) symptom reduction, as measured by significant decreases in Hamilton Anxiety Rating Scale (HARS) scores (e.g., from 20.3 to 7.0 in rapid responders, p < 0.01). Pharmacologically, Selank exhibits anxiolytic effects comparable to benzodiazepines while also providing stimulatory and cognitive-enhancing benefits, such as improved learning in animals with initially poor performance after a single dose. It prolongs anti-anxiety action and supports nootropic outcomes, including enhanced memory processes potentially linked to modulation of serotonin levels and its metabolites in the brain. In clinical settings, Selank has shown efficacy in preventing and treating GAD and neurasthenia, with additional benefits in reducing anxiety under chronic stress when combined with agents like diazepam, outperforming either alone in unpredictable chronic mild stress models. Selank's mechanism involves allosteric modulation of GABA_A receptors, influencing binding and potentially altering related to without direct toxicity. Electroencephalographic studies indicate it increases beta-rhythm activity and decreases /low alpha-rhythms in rapid responders after a single 900 μg dose (p < 0.05), supporting its cognitive and profile. Overall, Selank represents a peptide-based therapeutic with a favorable safety profile, avoiding the side effects common to traditional .

Development

Discovery

Selank was developed in the early 1990s at the of the , in collaboration with the V.V. Zakusov Research Institute of Pharmacology of the Russian Academy of Medical Sciences. The project was led by prominent researchers including I.P. Ashmarin and N.F. Myasoedov, who focused on creating novel regulatory peptides for therapeutic applications. The emerged as a synthetic heptapeptide analogue of tuftsin, a natural immunomodulatory (Thr-Lys-Pro-Arg) derived from the heavy chain of human immunoglobulin G, which plays a key role in enhancing phagocytic activity and immune responses. To address tuftsin's limitations, such as rapid enzymatic degradation, the original sequence was extended at the with the Pro-Gly-Pro, resulting in the structure Thr-Lys-Pro-Arg-Pro-Gly-Pro (TKPRPGP); this modification was intended to improve metabolic stability and prolong the duration of action. The core aim of Selank's design was to produce a compound with integrated and effects, avoiding the side effects typical of benzodiazepines, while leveraging tuftsin's foundational immunomodulatory influences to potentially support broader neuroprotective outcomes. Early synthesis of Selank employed solid-phase techniques, a standard approach for assembling short peptides during that period to ensure precise control over sequence and purity.

Approval

Selank underwent preclinical testing in the following its initial synthesis around 1990-1995 as an analogue of tetrapeptide tuftsin. This phase established its potential as an agent, paving the way for clinical evaluation. In the 2000s, the peptide advanced through clinical trials in , culminating in its registration as intranasal drops for therapeutic use. The Russian Ministry of Health approved Selank as a pharmaceutical in 2009 specifically for the treatment of (GAD), marking its formal entry into clinical practice. It has shown in treating GAD and . As of 2025, Selank remains approved in for these indications and is also used for adjustment disorders. First studies, including trials demonstrating comparable to benzodiazepines, began in the early 2000s and supported this regulatory pathway. Commercialization ensued shortly after approval, with Russian pharmaceutical company Peptogen (JSC "Peptogen") taking the lead in production and distribution of Selank nasal drops. The product became available by prescription in pharmacies across and , facilitating its integration into routine medical treatment for approved conditions.

Chemistry

Structure

Selank is a synthetic linear heptapeptide composed of seven with the sequence Thr-Lys-Pro-Arg-Pro-Gly-Pro (TKPRPGP). Its molecular formula is C₃₃H₅₇N₁₁O₉, and the is 751.88 g/mol. Selank is structurally derived from the tuftsin (Thr-Lys-Pro-Arg) through the addition of a Pro-Gly-Pro at the , which is designed to improve metabolic stability compared to tuftsin. The molecule lacks bonds or cyclic elements, maintaining a straightforward linear backbone.

Properties

Selank is supplied as a sterile filtered lyophilized (freeze-dried) powder, which is highly soluble in and aqueous buffers such as (). The form facilitates long-term storage and handling in settings, with reaching approximately 10 mg/mL in at 7.2. The of Selank is influenced by its storage conditions to minimize degradation. The lyophilized remains stable at for up to 3 weeks but is recommended to be stored desiccated below -18°C for extended periods. Once reconstituted in , it requires at 2–8°C and maintains for 2–7 days under aseptic conditions, though some protocols advise limiting solution storage to one day to preserve integrity. Chemically, Selank is hydrophilic, attributed to its sequence rich in polar such as , , and . Its calculated (pI) is approximately 11.5, indicating a character under neutral conditions. Compared to tuftsin, Selank demonstrates enhanced metabolic stability due to C-terminal extensions.

Pharmacology

Mechanism of Action

Selank modulates primarily through allosteric enhancement of activity and in key brain regions. Selank affects the expression of some genes involved in in the rat frontal cortex following administration, thereby promoting synthesis and receptor function without cumulative effects when combined with benzodiazepines. Selank elevates levels of (BDNF) in the rat following intranasal administration. This upregulation supports and enhances via TrkB receptor activation, contributing to . By inhibiting enkephalin-degrading enzymes in human and animal plasma, Selank (with an of 15–20 µM) prolongs the half-life of endogenous enkephalins, thereby increasing activity and exerting effects comparable to classical agents but without associated risk or withdrawal. Selank influences balance by reducing pro-inflammatory markers such as IL-6, IL-1β, and TNF-α in stressed rats, restoring levels toward baseline and modulating Th1/Th2 equilibrium to mitigate . It also affects monoamine systems, altering serotonin (5-HT) and metabolism in the and frontal of mice, with decreases in 5-HT and its metabolite 5-HIAA observed in certain strains. These changes correlate with antidepressant-like effects, including reduced immobility time in the forced swim test among mice at doses of 100–300 µg/kg. Unlike , Selank exhibits no direct binding to benzodiazepine receptors on -A complexes, as evidenced by its distinct modulation of [3H]GABA binding sites and lack of overlap in action profiles, which accounts for its absence of or muscle-relaxant side effects. As a synthetic analogue of the immunomodulatory tuftsin, Selank retains partial influence on immune responses.

Pharmacokinetics

Selank is primarily administered via the intranasal route, which allows for rapid absorption through the , with intravenous administration used in research settings. The intranasal method provides efficient delivery to the , bypassing first-pass metabolism. Following intranasal administration, Selank is absorbed quickly and has a short due to rapid enzymatic breakdown. Selank crosses the blood-brain barrier efficiently, particularly when administered intranasally, achieving higher concentrations in brain regions such as the and compared to peripheral tissues. This distribution pattern supports its targeted effects in the . The peptide's contributes to its ability to penetrate the blood-brain barrier effectively. Metabolism of Selank occurs primarily through degradation by peptidases, yielding shorter fragments such as pentapeptides, tripeptides, and dipeptides; no active metabolites have been identified. Excretion is mainly renal, with metabolic fragments cleared from the body within hours, and the short prevents accumulation even with repeated dosing.

Medical Use

Indications

Selank is approved in for the treatment of (GAD) and in adults, particularly for mild-to-moderate cases where non-sedating effects are preferred over traditional benzodiazepines. Beyond its primary approval, Selank has been investigated for off-label uses including anxiety-asthenic disorders, where it demonstrates efficacy in alleviating asthenic symptoms without impairing cognitive function. It is also researched for adjustment disorders, showing potential in maintaining psychoemotional stability during stressful life transitions. Additionally, Selank serves as an adjunct therapy in , particularly in stress-related depressive states, by enhancing mood regulation alongside standard antidepressants. In terms of cognitive enhancement, Selank is explored for improving , , and learning in individuals with stress-induced cognitive impairments, leveraging its properties to support mental clarity without sedation. Potential neuroprotective applications include its investigation for (PTSD), where it may aid in reducing hyperarousal and . Furthermore, Selank shows promise in alleviating symptoms of , particularly in reducing anxiety during acute abstinence phases. These uses target patient populations experiencing or neurological insult, emphasizing its role in non-sedative, immunomodulatory support.

Administration

Selank is primarily administered intranasally as a 0.15% aqueous solution in the form of nasal drops, supplied in 3 ml bottles with a dropper for precise delivery. The drug is instilled in a sitting position with the head slightly tilted back, after clearing the nasal passages if necessary; following instillation, each is gently pinched for a short time to facilitate . The recommended dosage is 2-3 drops per , equivalent to 200-300 μg per administration, given 2-3 times daily, resulting in a total daily dose of 600-900 μg for anxiety-related applications. Treatment courses typically last 10-14 days, with the option to repeat after a 1-3 month break under medical guidance to prevent development. In or non-commercial settings, lyophilized Selank powder is reconstituted by dissolving it in sterile or saline to prepare the 0.15% solution, after which it must be stored refrigerated at 2-8°C to maintain . The intranasal route enhances brain targeting by bypassing the -brain barrier through olfactory pathways. No routine is required due to Selank's favorable profile, and self-administration is possible with initial medical supervision to ensure proper technique and dosing adherence.

Clinical Studies

Preclinical Research

Preclinical studies have established Selank's potential through behavioral assays in . In rats subjected to the elevated plus-maze test, intranasal administration of Selank at 300 μg/kg increased the time spent in open arms and reduced anxiety-like behaviors, with efficacy comparable to oral (1 mg/kg) but without impairing locomotor activity, indicating an absence of . Regarding , Selank mitigated -induced cognitive impairments in aged rats. Chronic exposure (10% solution for 30 weeks) led to and deficits during , which Selank (0.3 mg/kg/day, intraperitoneal for 7 days) reversed, improving performance in tasks. Additionally, intranasal Selank (250–500 μg/kg) upregulated (BDNF) expression in the rat , increasing BDNF mRNA levels by 1.5–2-fold at 3 hours and protein levels by 30% at 24 hours post-administration, supporting its role in countering stress-related neuronal damage. Selank exhibited immunomodulatory effects in rodent models of and stress. In rats under conditions, intraperitoneal Selank (100 μg/kg/day for 20 days) downregulated pro-inflammatory cytokines, including IL-6, IL-1β, and TNF-α, while restoring anti-inflammatory IL-4 levels to baseline, thereby attenuating the inflammatory response. In spleen tissue, Selank (100 μg/kg, intraperitoneal) altered the expression of multiple inflammation-related genes, including those encoding cytokines and , demonstrating broad regulatory influence on immune signaling pathways. Toxicity assessments in preclinical models revealed a favorable profile for Selank. Selank's effects may involve brief modulation of GABA-related in the .

Human Trials

Human clinical trials on Selank have primarily evaluated its efficacy in patients with (GAD) and related anxiety-spectrum conditions, often using standardized scales such as the (HAM-A). These studies, conducted mainly in , have demonstrated Selank's potential to reduce anxiety symptoms comparably to traditional benzodiazepines while offering additional cognitive benefits. A seminal 2008 randomized controlled trial enrolled 62 patients diagnosed with GAD or neurasthenia, assigning 30 to intranasal Selank (2700 μg/day for 14 days) and 32 to medazepam (30 mg/day orally). Both treatments significantly reduced anxiety scores on the HAM-A, with Selank achieving similar anxiolytic effects to medazepam but exhibiting superior psychostimulant properties that enhanced attention and cognitive performance in stressed participants, as measured by the Clinical Global Impression (CGI) scale and Zung Self-Rating Anxiety Scale. No significant differences in overall response were noted between groups, but Selank was better tolerated without sedation or withdrawal issues. In a 2015 comparative trial involving 70 patients with anxiety-phobic, hypochondriac, and somatoform disorders ( codes F40.2–F40.9, F41.1–F41.9, F45.0–F45.2), researchers assessed monotherapy (n=30) against combined Selank (2700 μg/day intranasally) plus reduced-dose (n=40) over 21 days. The combination therapy yielded superior outcomes, including faster reductions in depressive symptoms on the Hamilton Depression Rating Scale (HDRS) and improved on the scale, alongside fewer cognitive side effects like memory and attention deficits (evaluated via Stroop test and verbal fluency tasks). Patients on the combination reported 70–80% greater tolerability during , highlighting Selank's role in mitigating benzodiazepine-related impairments. Subsequent investigations have explored responder variability and correlates. A analysis of 20 GAD patients treated with Selank identified rapid responders (40% of cohort) who showed symptom relief within 3 days on HAM-A, contrasted with slower responders requiring 7–14 days, accompanied by distinct EEG changes indicating enhanced neural synchronization. A 2020 resting-state fMRI study in healthy subjects (n=20 per group) demonstrated that acute Selank administration altered functional connectivity in the and limbic regions, patterns linked to reduced anxiety processing. Across these trials, stressed cohorts exhibited consistent cognitive enhancements, including improved and attentional focus, without the dulling effects of sedatives. However, most research originates from institutions with sample sizes of 20–100, lacking large-scale, multinational III validation to confirm generalizability.

Safety and Regulation

Adverse Effects

Selank exhibits a favorable profile in clinical studies, characterized by high tolerability and the absence of typical adverse effects associated with traditional s. Unlike tranquilizers, its effects occur without accompanying , myorelaxation, , dependence, or symptoms. In comparative clinical trials involving patients with anxiety disorders, Selank demonstrated pronounced efficacy alongside excellent tolerability, with no significant side effects reported relative to . Similarly, in a study of patients with adjustment and posttraumatic disorders treated with intranasal Selank for 14 days, no adverse reactions were observed, underscoring its good clinical tolerability and in stress-related conditions. No serious risks, such as cardiovascular events, have been documented in clinical use; while risks have been raised by regulatory bodies like the FDA, none have been observed in approved trials, attributable to its synthetic structure and targeted mechanism. Long-term safety data remain limited, but available evidence from short- to medium-term trials shows no evidence of development or , even in elderly patients with disorders. Overdose cases have not been reported, with preclinical data suggesting only transient, mild symptoms like at supratherapeutic doses exceeding 5 mg.

Legal Status

In , Selank has been approved as a prescription for the of since 2009, with certain formulations available over-the-counter for anxiety management. In the United States, Selank is not approved by the (FDA) for any medical use. It was placed on the agency's Category 2 list of bulk drug substances that may present significant safety risks for in 2023 but was removed in September 2024 following additional from the nominator. As of 2025, it remains available solely as a for non-human use or potentially through accredited pharmacies, subject to ongoing evaluation. In the and various other countries, Selank is unscheduled and lacks regulatory approval for human therapeutic applications, rendering it unregulated for clinical or consumer use beyond research purposes. In jurisdictions such as , it is classified as an unscheduled with imports subject to monitoring by Medsafe due to unverified therapeutic claims. Internationally, Selank is not included on the World Health Organization's list of or prohibited substances, permitting its use in research settings worldwide while prohibiting unsubstantiated therapeutic marketing outside of . As of 2025, countries including and maintain border controls on imports, often requiring prescriptions or approvals that Selank does not meet for personal importation.