Frontiers in Cellular and Infection Microbiology (Mar 2022)

Biological Membrane-Penetrating Peptides: Computational Prediction and Applications

  • Ewerton Cristhian Lima de Oliveira,
  • Kauê Santana da Costa,
  • Paulo Sérgio Taube,
  • Anderson H. Lima,
  • Claudomiro de Souza de Sales Junior

DOI
https://doi.org/10.3389/fcimb.2022.838259
Journal volume & issue
Vol. 12

Abstract

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Peptides comprise a versatile class of biomolecules that present a unique chemical space with diverse physicochemical and structural properties. Some classes of peptides are able to naturally cross the biological membranes, such as cell membrane and blood-brain barrier (BBB). Cell-penetrating peptides (CPPs) and blood-brain barrier-penetrating peptides (B3PPs) have been explored by the biotechnological and pharmaceutical industries to develop new therapeutic molecules and carrier systems. The computational prediction of peptides’ penetration into biological membranes has been emerged as an interesting strategy due to their high throughput and low-cost screening of large chemical libraries. Structure- and sequence-based information of peptides, as well as atomistic biophysical models, have been explored in computer-assisted discovery strategies to classify and identify new structures with pharmacokinetic properties related to the translocation through biomembranes. Computational strategies to predict the permeability into biomembranes include cheminformatic filters, molecular dynamics simulations, artificial intelligence algorithms, and statistical models, and the choice of the most adequate method depends on the purposes of the computational investigation. Here, we exhibit and discuss some principles and applications of these computational methods widely used to predict the permeability of peptides into biomembranes, exhibiting some of their pharmaceutical and biotechnological applications.

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