Structural Engineering of Tyrosine-Based Neuroprotective Peptides: A New Strategy for Efficient Blood–Brain Barrier Penetration
Zehui Li, Qiyue Zhu, Yashu Qiao, Junxi Fu, Li Tao, Weihong Min

TL;DR
This study explores how changing amino acids in walnut peptides can improve their ability to cross the blood-brain barrier and protect the brain.
Contribution
A new strategy for designing tyrosine-based peptides with enhanced blood–brain barrier penetration and antioxidant activity is proposed.
Findings
EVSGPGYSPN showed the highest antioxidant capacity and BBB transport efficiency among tested peptides.
EVSGPGYSPN remained stable during digestion and reached a brain concentration of 1.25 ± 0.91 µg/g after 10 hours.
EVSGPGYSPN's structure, rich in aromatic hydrogen and low in methyl signals, likely enhances antioxidant activity and BBB permeability.
Abstract
The relationship between the structure of walnut-derived peptides and their activity of transport efficiency across the blood–brain barrier (BBB) remains unclear. In this study, a series of walnut-derived peptides were synthesized by substituting leucine (L) with tyrosine (Y), lysine (K), or arginine (R). Three outstanding peptides—EVSGPGYSPN, TWLPYPR, and YVPFPYP—were selected based on their antioxidant capacity and BBB transport efficiency, with EVSGPGYSPN exhibiting the highest activity. Reversed-phase high-performance liquid chromatography (RP-HPLC) and Transwell assay results demonstrated that EVSGPGYSPN can remain stable during gastrointestinal digestion and penetrate the BBB. Pharmacokinetic results revealed that the cumulative concentration of EVSGPGYSPN in the brain reached 1.25 ± 0.91 µg/g at 10 h, while its plasma half-life exceeded 12 h. Furthermore, it significantly reduced…
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Taxonomy
TopicsProtein Hydrolysis and Bioactive Peptides · Proteins in Food Systems · Biochemical and Structural Characterization
