Peptide hemolytic activity analysis using visual data mining of similarity-based complex networks

Kevin Castillo-Mendieta; Guillermin Agüero-Chapin; Edgar A. Marquez; Yunierkis Perez-Castillo; Stephen J. Barigye; Nelson Santiago Vispo; Cesar R. García-Jacas; Yovani Marrero-Ponce

doi:10.1038/s41540-024-00429-2

Peptide hemolytic activity analysis using visual data mining of similarity-based complex networks

Kevin Castillo-Mendieta
, Guillermin Agüero-Chapin^*
, Edgar A. Marquez
, Yunierkis Perez-Castillo
, Stephen J. Barigye
, Nelson Santiago Vispo
, Cesar R. García-Jacas
, Yovani Marrero-Ponce^*

^*Corresponding author for this work

Medicina

Universidad Yachay Tech
University of Porto
Faculdade de Ciências da Universidade do Porto
Universidad del Norte
Universidad de las Americas - Ecuador
Universidad Autónoma de Madrid
Clinical Biotec
Consejo Nacional de Ciencia y Tecnologia Mexico
Universidad Panamericana (UP)

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

Peptides are promising drug development frameworks that have been hindered by intrinsic undesired properties including hemolytic activity. We aim to get a better insight into the chemical space of hemolytic peptides using a novel approach based on network science and data mining. Metadata networks (METNs) were useful to characterize and find general patterns associated with hemolytic peptides, whereas Half-Space Proximal Networks (HSPNs), represented the hemolytic peptide space. The best candidate HSPNs were used to extract various subsets of hemolytic peptides (scaffolds) considering network centrality and peptide similarity. These scaffolds have been proved to be useful in developing robust similarity-based model classifiers. Finally, using an alignment-free approach, we reported 47 putative hemolytic motifs, which can be used as toxic signatures when developing novel peptide-based drugs. We provided evidence that the number of hemolytic motifs in a sequence might be related to the likelihood of being hemolytic.

Original language	English
Article number	115
Journal	npj Systems Biology and Applications
Volume	10
Issue number	1
DOIs	https://doi.org/10.1038/s41540-024-00429-2
State	Published - Dec 2024

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title = "Peptide hemolytic activity analysis using visual data mining of similarity-based complex networks",

abstract = "Peptides are promising drug development frameworks that have been hindered by intrinsic undesired properties including hemolytic activity. We aim to get a better insight into the chemical space of hemolytic peptides using a novel approach based on network science and data mining. Metadata networks (METNs) were useful to characterize and find general patterns associated with hemolytic peptides, whereas Half-Space Proximal Networks (HSPNs), represented the hemolytic peptide space. The best candidate HSPNs were used to extract various subsets of hemolytic peptides (scaffolds) considering network centrality and peptide similarity. These scaffolds have been proved to be useful in developing robust similarity-based model classifiers. Finally, using an alignment-free approach, we reported 47 putative hemolytic motifs, which can be used as toxic signatures when developing novel peptide-based drugs. We provided evidence that the number of hemolytic motifs in a sequence might be related to the likelihood of being hemolytic.",

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month = dec,

doi = "10.1038/s41540-024-00429-2",

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T1 - Peptide hemolytic activity analysis using visual data mining of similarity-based complex networks

AU - Castillo-Mendieta, Kevin

AU - Agüero-Chapin, Guillermin

AU - Marquez, Edgar A.

AU - Perez-Castillo, Yunierkis

AU - Barigye, Stephen J.

AU - Vispo, Nelson Santiago

AU - García-Jacas, Cesar R.

AU - Marrero-Ponce, Yovani

PY - 2024/12

Y1 - 2024/12

N2 - Peptides are promising drug development frameworks that have been hindered by intrinsic undesired properties including hemolytic activity. We aim to get a better insight into the chemical space of hemolytic peptides using a novel approach based on network science and data mining. Metadata networks (METNs) were useful to characterize and find general patterns associated with hemolytic peptides, whereas Half-Space Proximal Networks (HSPNs), represented the hemolytic peptide space. The best candidate HSPNs were used to extract various subsets of hemolytic peptides (scaffolds) considering network centrality and peptide similarity. These scaffolds have been proved to be useful in developing robust similarity-based model classifiers. Finally, using an alignment-free approach, we reported 47 putative hemolytic motifs, which can be used as toxic signatures when developing novel peptide-based drugs. We provided evidence that the number of hemolytic motifs in a sequence might be related to the likelihood of being hemolytic.

AB - Peptides are promising drug development frameworks that have been hindered by intrinsic undesired properties including hemolytic activity. We aim to get a better insight into the chemical space of hemolytic peptides using a novel approach based on network science and data mining. Metadata networks (METNs) were useful to characterize and find general patterns associated with hemolytic peptides, whereas Half-Space Proximal Networks (HSPNs), represented the hemolytic peptide space. The best candidate HSPNs were used to extract various subsets of hemolytic peptides (scaffolds) considering network centrality and peptide similarity. These scaffolds have been proved to be useful in developing robust similarity-based model classifiers. Finally, using an alignment-free approach, we reported 47 putative hemolytic motifs, which can be used as toxic signatures when developing novel peptide-based drugs. We provided evidence that the number of hemolytic motifs in a sequence might be related to the likelihood of being hemolytic.

UR - https://www.scopus.com/pages/publications/85205807219

U2 - 10.1038/s41540-024-00429-2

DO - 10.1038/s41540-024-00429-2

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SN - 2056-7189

VL - 10

JO - npj Systems Biology and Applications

JF - npj Systems Biology and Applications

IS - 1

M1 - 115

ER -

Peptide hemolytic activity analysis using visual data mining of similarity-based complex networks

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