Skip to main content
Key Specialties
Cardiology Diabetology Endocrinology Gastroenterology Geriatrics and Gerontology Gynecology and Obstetrics Hematology Infectious Disease Internal Medicine Nephrology Neurology Oncology Pediatrics Respiratory Medicine Rheumatology Surgery
Congress Coverage
2024 ACC Congress 2023 ESMO Congress 2023 EASD Congress 2023 ERS Congress 2023 ESC Congress
Clinical Collections
Advances in Alzheimer’s

Keynote webinar | Spotlight on medication adherence

LIVE: Thursday 27th June 2024, 18:00-19:30 (CEST)
Join our expert panel to discover why you need to understand the drivers of non-adherence in your patients, and how you can optimize medication adherence in your clinics to drastically improve patient outcomes.
ADVANCED SEARCH
Log in
Top
Journal of Translational Medicine
Published in: Journal of Translational Medicine 1/2019

Open Access 01-12-2019 | Research

Predicting drug−disease associations via sigmoid kernel-based convolutional neural networks

Authors: Han-Jing Jiang, Zhu-Hong You, Yu-An Huang

Published in: Journal of Translational Medicine | Issue 1/2019

Login to get access

Abstract

Background

In the process of drug development, computational drug repositioning is effective and resource-saving with regards to its important functions on identifying new drug–disease associations. Recent years have witnessed a great progression in the field of data mining with the advent of deep learning. An increasing number of deep learning-based techniques have been proposed to develop computational tools in bioinformatics.

Methods

Along this promising direction, we here propose a drug repositioning computational method combining the techniques of Sigmoid Kernel and Convolutional Neural Network (SKCNN) which is able to learn new features effectively representing drug–disease associations via its hidden layers. Specifically, we first construct similarity metric of drugs using drug sigmoid similarity and drug structural similarity, and that of disease using disease sigmoid similarity and disease semantic similarity. Based on the combined similarities of drugs and diseases, we then use SKCNN to learn hidden representations for each drug-disease pair whose labels are finally predicted by a classifier based on random forest.

Results

A series of experiments were implemented for performance evaluation and their results show that the proposed SKCNN improves the prediction accuracy compared with other state-of-the-art approaches. Case studies of two selected disease are also conducted through which we prove the superior performance of our method in terms of the actual discovery of potential drug indications.

Conclusion

The aim of this study was to establish an effective predictive model for finding new drug–disease associations. These experimental results show that SKCNN can effectively predict the association between drugs and diseases.
Literature
1.
Chen H, Zhang Z. Prediction of drug–disease associations for drug repositioning through drug–miRNA-disease heterogeneous network. IEEE Access. 2018;6:45281–7.CrossRef
2.
Chandrasekaran SN, Koutsoukas A, Huan J. Investigating multiview and multitask learning frameworks for predicting drug–disease associations. In: Acm International conference on bioinformatics: 2016.
3.
Huang YF, Yeh HY, Soo VW. Network-based inferring drug–disease associations from chemical, genomic and phenotype data. In: IEEE International conference on bioinformatics and biomedicine: 2012.
4.
Luo H, Li M, Wang S, Liu Q, Li Y, Wang J. Computational drug repositioning using low-rank matrix approximation and randomized algorithms. Bioinformatics. 2018;34(11):1904–12.CrossRef
5.
6.
Liang X, Zhang P, Yan L, Fu Y, Peng F, Qu L, Shao M, Chen Y, Chen Z. LRSSL: predict and interpret drug–disease associations based on data integration using sparse subspace learning. Bioinformatics. 2017;33(8):1187–96.PubMed
7.
Zhang W, Yue X, Lin W, Wu W, Liu R, Huang F, Liu F. Predicting drug–disease associations by using similarity constrained matrix factorization. BMC Bioinform. 2018;19(1):233.CrossRef
8.
Huang Y-A, You Z-H, Chen X. A systematic prediction of drug–target interactions using molecular fingerprints and protein sequences. Curr Protein Pept Sci. 2018;19(5):468–78.CrossRef
9.
Wang L, You Z-H, Chen X, Xia S-X, Liu F, Yan X, Zhou Y, Song K-J. A computational-based method for predicting drug–target interactions by using stacked autoencoder deep neural network. J Comput Biol. 2018;25(3):361–73.CrossRef
10.
Kwon S, Yoon S: DeepCCI: end-to-end deep learning for chemical–chemical interaction prediction. 2017.
11.
Seal A, Ahn YY, Wild DJ. Optimizing drug–target interaction prediction based on random walk on heterogeneous networks. J Cheminform. 2015;7(1):40.CrossRef
12.
Luo H, Wang J, Li M, Luo J, Peng X, Wu FX, Pan Y. Drug repositioning based on comprehensive similarity measures and Bi-Random walk algorithm. Bioinformatics. 2016;32(17):2664.CrossRef
13.
Martínez V, Navarro C, Cano C, Fajardo W, Blanco A. DrugNet: network-based drug–disease prioritization by integrating heterogeneous data. Artif Intell Med. 2015;63(1):41–9.CrossRef
14.
Wang W, Yang S, Li J: Drug target predictions based on heterogeneous graph inference. In: Pacific symposium on biocomputing pacific symposium on biocomputing. vol. 18. p. 53. 2013.
15.
Mehmet GN. Predicting drug–target interactions from chemical and genomic kernels using Bayesian matrix factorization. Bioinformatics. 2012;28(18):2304–10.CrossRef
16.
Ba-Alawi W, Soufan O, Essack M, Kalnis P, Bajic VB. DASPfind: new efficient method to predict drug–target interactions. J Cheminform. 2016;8(1):15.CrossRef
17.
Mattingly CJ, Rosenstein MC, Colby GT, Forrest JN, Boyer JL. The comparative toxicogenomics database (ctd): a resource for comparative toxicological studies. J Exp Zoolog Part A Ecol Genet Physiol. 2003;111(6):793–5.
18.
Wang L, You Z-H, Xia S-X, Chen X, Yan X, Zhou Y, Liu F. An improved efficient rotation forest algorithm to predict the interactions among proteins. Soft Comput. 2018;22(10):3373–81.CrossRef
19.
Gottlieb A, Stein GY, Ruppin E, Sharan R. PREDICT: a method for inferring novel drug indications with application to personalized medicine. Mol Systems Biology. 2014;7(1):496.CrossRef
20.
Hamosh A, Scott AF, Amberger JS, Bocchini CA, Mckusick VA. Online Mendelian Inheritance In Man (OMIM), a knowledgebase of human genes and genetic disorders. Nucleic Acids Res. 2005;33(1):514–7.
21.
Wishart DS, Feunang YD, Guo AC, Lo EJ, Marcu A, Grant JR, Sajed T, Johnson D, Li C, Sayeeda Z. DrugBank 5.0: a major update to the DrugBank database for 2018. Nucleic Acids Res. 2017;46(Database issue):D1074–82.PubMedCentral
22.
Weininger D. SMILES, a chemical language and information system. 1. Introduction to methodology and encoding rules. J Chem Inf Comput Sci. 1988;28(1):31–6.CrossRef
23.
Steinbeck C, Han Y, Kuhn S, Horlacher O, Luttmann E, Willighagen E. The chemistry development kit (cdk): an open-source java library for chemo- and bioinformatics. Cheminformatics. 2003;34(21):493–500.
24.
Nepusz T, Yu H, Paccanaro A. Detecting overlapping protein complexes in protein–protein interaction networks. Nat Methods. 2012;9(5):471–2.CrossRef
25.
van Driel MA, Bruggeman J, Vriend G, Brunner HG, Leunissen JAM. A text-mining analysis of the human phenome. Eur J Hum Genet. 2006;14(5):535–42.CrossRef
26.
Chen Z-H, You Z-H, Li L-P, Wang Y-B, Li X. RP-FIRF: prediction of self-interacting proteins using random projection classifier combining with finite impulse response filter. In: International conference on intelligent computing. Springer: 2018: p. 232-240.
27.
28.
Cortes C, Vapnik V. Support-vector networks. Mach Learn. 1995;20(3):273–97.
29.
He T, Heidemeyer M, Ban F, Cherkasov A, Ester M. SimBoost: a read-across approach for predicting drug–target binding affinities using gradient boosting machines. J Cheminform. 2017;9(1):24.CrossRef
30.
Sch C, Laptev I, Caputo B. Recognizing human actions: a local SVM approach. In: International conference on pattern recognition: 2004.
Metadata
Title
Predicting drug−disease associations via sigmoid kernel-based convolutional neural networks
Authors
Han-Jing Jiang
Zhu-Hong You
Yu-An Huang
Publication date
01-12-2019
Publisher
BioMed Central
Published in
Journal of Translational Medicine / Issue 1/2019
Electronic ISSN: 1479-5876
DOI
https://doi.org/10.1186/s12967-019-2127-5

Other articles of this Issue 1/2019

Journal of Translational Medicine 1/2019 Go to the issue

Research

Identification of a serum-based miRNA signature for response of esophageal squamous cell carcinoma to neoadjuvant chemotherapy

Research

A 105 kb interstitial insertion in the Xq27.1 palindrome from pseudoautosomal region PAR1 causes a novel X-linked recessive compound phenotype

Research

Testosterone induces renal tubular epithelial cell death through the HIF-1α/BNIP3 pathway

Research

Emerging trends and research foci in gastrointestinal microbiome

Research

Neutrophil-to-lymphocyte ratio and incident end-stage renal disease in Chinese patients with chronic kidney disease: results from the Chinese Cohort Study of Chronic Kidney Disease (C-STRIDE)

Research

Akt-activated endothelium promotes ovarian cancer proliferation through notch activation
Live Webinar | 27-06-2024 | 18:00 (CEST)

Keynote webinar | Spotlight on medication adherence

Reserve your place

Live: Thursday 27th June 2024, 18:00-19:30 (CEST)

WHO estimates that half of all patients worldwide are non-adherent to their prescribed medication. The consequences of poor adherence can be catastrophic, on both the individual and population level.

Join our expert panel to discover why you need to understand the drivers of non-adherence in your patients, and how you can optimize medication adherence in your clinics to drastically improve patient outcomes.

Prof. Kevin Dolgin
Prof. Florian Limbourg
Prof. Anoop Chauhan
Developed by: Springer Medicine
Obesity Clinical Trial Summary

At a glance: The STEP trials

Read more

A round-up of the STEP phase 3 clinical trials evaluating semaglutide for weight loss in people with overweight or obesity.

Developed by: Springer Medicine

Highlights from the ACC 2024 Congress

Year in Review: Pediatric cardiology

Pediatric Cardiology Video

Watch Dr. Anne Marie Valente present the last year's highlights in pediatric and congenital heart disease in the official ACC.24 Year in Review session.

Year in Review: Pulmonary vascular disease

Cardiopulmonary Comorbidity Video

The last year's highlights in pulmonary vascular disease are presented by Dr. Jane Leopold in this official video from ACC.24.

Year in Review: Valvular heart disease

Valvular Heart Disease Video

Watch Prof. William Zoghbi present the last year's highlights in valvular heart disease from the official ACC.24 Year in Review session.

Year in Review: Heart failure and cardiomyopathies

Heart Failure Video

Watch this official video from ACC.24. Dr. Biykem Bozkurt discusses last year's major advances in heart failure and cardiomyopathies.

ACC 2024 Congress Coverage

Year in Review: Heart failure and cardiomyopathies

Heart Failure Video

Watch this official video from ACC.24. Dr. Biykem Bozkurt discusses last year's major advances in heart failure and cardiomyopathies.

Watch now

Semaglutide benefits people with type 2 diabetes and obesity-related heart failure

16-04-2024 Type 2 Diabetes News

Incentivised to exercise

11-04-2024 Lifestyle Modifications News

New intervention for STEMI-related cardiogenic shock

10-04-2024 Myocardial Infarction News

» View more highlights on the ACC 2024 congress hub page

Image Credits