SWEET: a single-sample network inference method for deciphering individual features in disease

Author:

Chen Hsin-Hua1,Hsueh Chun-Wei1,Lee Chia-Hwa234,Hao Ting-Yi1,Tu Tzu-Ying1,Chang Lan-Yun1,Lee Jih-Chin5,Lin Chun-Yu16789ORCID

Affiliation:

1. National Yang Ming Chiao Tung University Institute of Bioinformatics and Systems Biology, , Hsinchu 300, Taiwan

2. Taipei Medical University School of Medical Laboratory Science and Biotechnology, College of Medical Science and Technology, , Taipei 110, Taiwan

3. Taipei Medical University TMU Research Center of Cancer Translational Medicine, , Taipei 110, Taiwan

4. Taipei Medical University Ph.D. Program in Medical Biotechnology, College of Medical Science and Technology, , Taipei, Taiwan

5. Tri-Service General Hospital, National Defense Medical Center Department of Otolaryngology-Head and Neck Surgery, , Taipei 110, Taiwan

6. National Yang Ming Chiao Tung University Department of Biological Science and Technology, , Hsinchu 300, Taiwan

7. National Yang Ming Chiao Tung University Institute of Data Science and Engineering, , Hsinchu 300, Taiwan

8. National Yang Ming Chiao Tung University Center for Intelligent Drug Systems and Smart Bio-devices, , Hsinchu 300, Taiwan

9. Kaohsiung Medical University School of Dentistry, , Kaohsiung 807, Taiwan

Abstract

AbstractRecently, extracting inherent biological system information (e.g. cellular networks) from genome-wide expression profiles for developing personalized diagnostic and therapeutic strategies has become increasingly important. However, accurately constructing single-sample networks (SINs) to capture individual characteristics and heterogeneity in disease remains challenging. Here, we propose a sample-specific-weighted correlation network (SWEET) method to model SINs by integrating the genome-wide sample-to-sample correlation (i.e. sample weights) with the differential network between perturbed and aggregate networks. For a group of samples, the genome-wide sample weights can be assessed without prior knowledge of intrinsic subpopulations to address the network edge number bias caused by sample size differences. Compared with the state-of-the-art SIN inference methods, the SWEET SINs in 16 cancers more likely fit the scale-free property, display higher overlap with the human interactomes and perform better in identifying three types of cancer-related genes. Moreover, integrating SWEET SINs with a network proximity measure facilitates characterizing individual features and therapy in diseases, such as somatic mutation, mut-driver and essential genes. Biological experiments further validated two candidate repurposable drugs, albendazole for head and neck squamous cell carcinoma (HNSCC) and lung adenocarcinoma (LUAD) and encorafenib for HNSCC. By applying SWEET, we also identified two possible LUAD subtypes that exhibit distinct clinical features and molecular mechanisms. Overall, the SWEET method complements current SIN inference and analysis methods and presents a view of biological systems at the network level to offer numerous clues for further investigation and clinical translation in network medicine and precision medicine.

Funder

Young Scholar Fellowship Program by the Ministry of Science and Technology (MOST) in Taiwan

Publisher

Oxford University Press (OUP)

Subject

Molecular Biology,Information Systems

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