PE-22-28
NootropicSpadin Analogue — Synthetic Peptide
Overview
PE-22-28 is a synthetic heptapeptide derived from the propeptide domain of sortilin (specifically residues 22-28), designed as an optimized analogue of spadin, a natural TREK-1 potassium channel blocker. It was developed by researchers at the Institut de Pharmacologie Moléculaire et Cellulaire (IPMC) in France as part of a program to create novel, fast-acting antidepressant candidates that bypass the slow onset of action characteristic of SSRIs and other monoamine-based antidepressants.
PE-22-28 represents a conceptually distinct approach to treating depression. Rather than modulating serotonin, norepinephrine, or dopamine reuptake, it targets TREK-1 (TWIK-related potassium channel 1), a two-pore domain potassium channel that regulates neuronal excitability in mood-related brain circuits. TREK-1 knockout mice are naturally resistant to depression-like behaviors, and pharmacological blockade of TREK-1 produces antidepressant effects within days rather than weeks in rodent models.
Mechanism of Action
PE-22-28 blocks TREK-1 potassium channels by binding to an extracellular site on the channel protein, preventing potassium efflux and increasing neuronal excitability in serotonergic and other mood-regulating neurons. TREK-1 channels are widely expressed in the brain, with high density in the prefrontal cortex, hippocampus, and dorsal raphe nucleus — regions implicated in depression. Under normal conditions, TREK-1 generates a background leak current that dampens neuronal excitability. In depression, TREK-1 overactivity may contribute to reduced serotonergic output from the raphe nucleus.
By blocking TREK-1, PE-22-28 increases firing rates in serotonergic neurons, enhancing 5-HT release in terminal fields including the hippocampus and prefrontal cortex. This produces rapid increases in hippocampal neurogenesis and synaptogenesis — processes thought to underlie the therapeutic effects of antidepressants. The speed of PE-22-28's behavioral effects (4 days vs 14-21 days for SSRIs in rodent models) may reflect the fact that TREK-1 blockade directly increases neuronal excitability rather than waiting for homeostatic adaptation to reuptake inhibition. PE-22-28 has approximately 10-fold greater potency than its parent compound spadin, with an IC50 of approximately 40nM against TREK-1.
Research Dosing
Dosing extrapolated from animal studies (IV/IP at 100-1000 mcg/kg in mice). No human pharmacokinetic data. Reconstitute with bacteriostatic water.
Nasal administration studied for direct CNS access bypassing BBB. Limited bioavailability data.
Research data only. These dosing ranges are derived from published studies, primarily in animal models. This is not medical advice. No peptide discussed on this site is approved for human therapeutic use unless otherwise noted.
Published Studies
Spadin, a sortilin-derived peptide, targeting rodent TREK-1 channels: a new concept in the antidepressant drug design
Mazella J, Pétrault O, Lucas G, et al. — PLoS Biology, 2010
Discovery paper for spadin, the parent compound of PE-22-28. Demonstrated that blocking TREK-1 potassium channels with a sortilin-derived peptide produces antidepressant effects in multiple rodent behavioral models within 4 days, compared to 2-3 weeks for SSRIs. TREK-1 knockout mice are naturally resistant to depression.
PE 22-28 is a more potent analogue of spadin with improved pharmacological profile
Djillani A, Pietri M, Mazella J, et al. — Neuropharmacology, 2017
Characterized PE-22-28 as a truncated, optimized spadin analogue with improved potency and metabolic stability. PE-22-28 blocked TREK-1 channels with an IC50 of 40nM and produced antidepressant effects in forced swim and novelty-suppressed feeding tests at lower doses than spadin.
PMID: 23630518 →TREK-1, a K+ channel involved in neuroprotection and general anesthesia
Heurteaux C, Guy N, Laigle C, et al. — EMBO Journal, 2004
Foundational paper establishing TREK-1 as a key modulator of mood, neuroprotection, and neuronal excitability. TREK-1 knockout mice showed increased resistance to depression and enhanced serotonergic neurotransmission, providing the rationale for TREK-1 antagonists as novel antidepressants.