Assessment of community efforts to advance network-based prediction of protein–protein interactions

Xu Wen Wang; Lorenzo Madeddu; Kerstin Spirohn; Leonardo Martini; Adriano Fazzone; Luca Becchetti; Thomas P. Wytock; István A. Kovács; Olivér M. Balogh; Bettina Benczik; Mátyás Pétervári; Bence Ágg; Péter Ferdinandy; Loan Vulliard; Jörg Menche; Stefania Colonnese; Manuela Petti; Gaetano Scarano; Francesca Cuomo; Tong Hao; Florent Laval; Luc Willems; Jean Claude Twizere; Marc Vidal; Michael A. Calderwood; Enrico Petrillo; Albert László Barabási; Edwin K. Silverman; Joseph Loscalzo; Paola Velardi; Yang Yu Liu

doi:10.1038/s41467-023-37079-7

Assessment of community efforts to advance network-based prediction of protein–protein interactions

Xu Wen Wang
, Lorenzo Madeddu
, Kerstin Spirohn
, Leonardo Martini
, Adriano Fazzone
, Luca Becchetti
, Thomas P. Wytock
, István A. Kovács
, Olivér M. Balogh
, Bettina Benczik
, Mátyás Pétervári
, Bence Ágg
, Péter Ferdinandy
, Loan Vulliard
, Jörg Menche
, Stefania Colonnese
, Manuela Petti
, Gaetano Scarano
, Francesca Cuomo
, Tong Hao

Florent Laval, Luc Willems, Jean Claude Twizere, Marc Vidal, Michael A. Calderwood, Enrico Petrillo, Albert László Barabási, Edwin K. Silverman, Joseph Loscalzo, Paola Velardi^*, Yang Yu Liu^*

^*Corresponding author for this work

Department of Network and Data Science

Brigham and Women’s Hospital
University of Rome La Sapienza
Dana-Farber Cancer Institute
Harvard University
CENTAI Institute
Northwestern University
Semmelweis University
Pharmahungary Group
Austrian Academy of Sciences
Max Perutz Labs
University of Vienna
University of Liege
Northeastern University
University of Illinois at Urbana-Champaign

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

Abstract (may include machine translation)

Comprehensive understanding of the human protein-protein interaction (PPI) network, aka the human interactome, can provide important insights into the molecular mechanisms of complex biological processes and diseases. Despite the remarkable experimental efforts undertaken to date to determine the structure of the human interactome, many PPIs remain unmapped. Computational approaches, especially network-based methods, can facilitate the identification of previously uncharacterized PPIs. Many such methods have been proposed. Yet, a systematic evaluation of existing network-based methods in predicting PPIs is still lacking. Here, we report community efforts initiated by the International Network Medicine Consortium to benchmark the ability of 26 representative network-based methods to predict PPIs across six different interactomes of four different organisms: A. thaliana, C. elegans, S. cerevisiae, and H. sapiens. Through extensive computational and experimental validations, we found that advanced similarity-based methods, which leverage the underlying network characteristics of PPIs, show superior performance over other general link prediction methods in the interactomes we considered.

Original language	English
Article number	1582
Journal	Nature Communications
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41467-023-37079-7
State	Published - 22 Mar 2023

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

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Barabasi-Albert-Laszlo3_2023Publisher version, 1.53 MBLicense: CC BY

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Wang, X. W., Madeddu, L., Spirohn, K., Martini, L., Fazzone, A., Becchetti, L., Wytock, T. P., Kovács, I. A., Balogh, O. M., Benczik, B., Pétervári, M., Ágg, B., Ferdinandy, P., Vulliard, L., Menche, J., Colonnese, S., Petti, M., Scarano, G., Cuomo, F., ... Liu, Y. Y. (2023). Assessment of community efforts to advance network-based prediction of protein–protein interactions. Nature Communications, 14(1), Article 1582. https://doi.org/10.1038/s41467-023-37079-7

@article{4b27496c986d422eb0b4043f696570f5,

title = "Assessment of community efforts to advance network-based prediction of protein–protein interactions",

abstract = "Comprehensive understanding of the human protein-protein interaction (PPI) network, aka the human interactome, can provide important insights into the molecular mechanisms of complex biological processes and diseases. Despite the remarkable experimental efforts undertaken to date to determine the structure of the human interactome, many PPIs remain unmapped. Computational approaches, especially network-based methods, can facilitate the identification of previously uncharacterized PPIs. Many such methods have been proposed. Yet, a systematic evaluation of existing network-based methods in predicting PPIs is still lacking. Here, we report community efforts initiated by the International Network Medicine Consortium to benchmark the ability of 26 representative network-based methods to predict PPIs across six different interactomes of four different organisms: A. thaliana, C. elegans, S. cerevisiae, and H. sapiens. Through extensive computational and experimental validations, we found that advanced similarity-based methods, which leverage the underlying network characteristics of PPIs, show superior performance over other general link prediction methods in the interactomes we considered.",

author = "Wang, \{Xu Wen\} and Lorenzo Madeddu and Kerstin Spirohn and Leonardo Martini and Adriano Fazzone and Luca Becchetti and Wytock, \{Thomas P.\} and Kov{\'a}cs, \{Istv{\'a}n A.\} and Balogh, \{Oliv{\'e}r M.\} and Bettina Benczik and M{\'a}ty{\'a}s P{\'e}terv{\'a}ri and Bence {\'A}gg and P{\'e}ter Ferdinandy and Loan Vulliard and J{\"o}rg Menche and Stefania Colonnese and Manuela Petti and Gaetano Scarano and Francesca Cuomo and Tong Hao and Florent Laval and Luc Willems and Twizere, \{Jean Claude\} and Marc Vidal and Calderwood, \{Michael A.\} and Enrico Petrillo and Barab{\'a}si, \{Albert L{\'a}szl{\'o}\} and Silverman, \{Edwin K.\} and Joseph Loscalzo and Paola Velardi and Liu, \{Yang Yu\}",

note = "{\textcopyright} 2023. The Author(s).",

year = "2023",

month = mar,

day = "22",

doi = "10.1038/s41467-023-37079-7",

language = "English",

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journal = "Nature Communications",

issn = "2041-1723",

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Wang, XW, Madeddu, L, Spirohn, K, Martini, L, Fazzone, A, Becchetti, L, Wytock, TP, Kovács, IA, Balogh, OM, Benczik, B, Pétervári, M, Ágg, B, Ferdinandy, P, Vulliard, L, Menche, J, Colonnese, S, Petti, M, Scarano, G, Cuomo, F, Hao, T, Laval, F, Willems, L, Twizere, JC, Vidal, M, Calderwood, MA, Petrillo, E, Barabási, AL, Silverman, EK, Loscalzo, J, Velardi, P & Liu, YY 2023, 'Assessment of community efforts to advance network-based prediction of protein–protein interactions', Nature Communications, vol. 14, no. 1, 1582. https://doi.org/10.1038/s41467-023-37079-7

TY - JOUR

T1 - Assessment of community efforts to advance network-based prediction of protein–protein interactions

AU - Wang, Xu Wen

AU - Madeddu, Lorenzo

AU - Spirohn, Kerstin

AU - Martini, Leonardo

AU - Fazzone, Adriano

AU - Becchetti, Luca

AU - Wytock, Thomas P.

AU - Kovács, István A.

AU - Balogh, Olivér M.

AU - Benczik, Bettina

AU - Pétervári, Mátyás

AU - Ágg, Bence

AU - Ferdinandy, Péter

AU - Vulliard, Loan

AU - Menche, Jörg

AU - Colonnese, Stefania

AU - Petti, Manuela

AU - Scarano, Gaetano

AU - Cuomo, Francesca

AU - Hao, Tong

AU - Laval, Florent

AU - Willems, Luc

AU - Twizere, Jean Claude

AU - Vidal, Marc

AU - Calderwood, Michael A.

AU - Petrillo, Enrico

AU - Barabási, Albert László

AU - Silverman, Edwin K.

AU - Loscalzo, Joseph

AU - Velardi, Paola

AU - Liu, Yang Yu

PY - 2023/3/22

Y1 - 2023/3/22

N2 - Comprehensive understanding of the human protein-protein interaction (PPI) network, aka the human interactome, can provide important insights into the molecular mechanisms of complex biological processes and diseases. Despite the remarkable experimental efforts undertaken to date to determine the structure of the human interactome, many PPIs remain unmapped. Computational approaches, especially network-based methods, can facilitate the identification of previously uncharacterized PPIs. Many such methods have been proposed. Yet, a systematic evaluation of existing network-based methods in predicting PPIs is still lacking. Here, we report community efforts initiated by the International Network Medicine Consortium to benchmark the ability of 26 representative network-based methods to predict PPIs across six different interactomes of four different organisms: A. thaliana, C. elegans, S. cerevisiae, and H. sapiens. Through extensive computational and experimental validations, we found that advanced similarity-based methods, which leverage the underlying network characteristics of PPIs, show superior performance over other general link prediction methods in the interactomes we considered.

AB - Comprehensive understanding of the human protein-protein interaction (PPI) network, aka the human interactome, can provide important insights into the molecular mechanisms of complex biological processes and diseases. Despite the remarkable experimental efforts undertaken to date to determine the structure of the human interactome, many PPIs remain unmapped. Computational approaches, especially network-based methods, can facilitate the identification of previously uncharacterized PPIs. Many such methods have been proposed. Yet, a systematic evaluation of existing network-based methods in predicting PPIs is still lacking. Here, we report community efforts initiated by the International Network Medicine Consortium to benchmark the ability of 26 representative network-based methods to predict PPIs across six different interactomes of four different organisms: A. thaliana, C. elegans, S. cerevisiae, and H. sapiens. Through extensive computational and experimental validations, we found that advanced similarity-based methods, which leverage the underlying network characteristics of PPIs, show superior performance over other general link prediction methods in the interactomes we considered.

UR - https://www.scopus.com/pages/publications/85150798089

U2 - 10.1038/s41467-023-37079-7

DO - 10.1038/s41467-023-37079-7

M3 - Article

C2 - 36949045

AN - SCOPUS:85150798089

SN - 2041-1723

VL - 14

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 1582

ER -

Assessment of community efforts to advance network-based prediction of protein–protein interactions

Abstract (may include machine translation)

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