Ali Cüvitoğlu scite author profile

Ali Cüvitoğlu

5Publications

12Citation Statements Received

0Citation Statements Given

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114

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Dokuz Eylül University

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Predicting drug synergy for precision medicine using network biology and machine learning

Cüvitoğlu

Zhou

Huang

et al. 2019

J. Bioinform. Comput. Biol.

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Identification of effective drug combinations for patients is an expensive and time-consuming procedure, especially for in vitro experiments. To accelerate the synergistic drug discovery process, we present a new classification model to identify more effective anti-cancer drug pairs using in silico network biology approach. Based on the hypotheses that the drug synergy comes from the collective effects on the biological network, therefore, we developed six network biology features, including overlap and distance of drug perturbation network, that were derived by using individual drug-perturbed transcriptome profiles and the relevant biological network analysis. Using publicly available drug synergy databases and three machine-learning (ML) methods, the model was trained to discriminate the positive (synergistic) and negative (nonsynergistic) drug combinations. The proposed models were evaluated on the test cases to predict the most promising network biology feature, which is the network degree activity, i.e. the synergistic effect between drug pairs is mainly accounted by the complementary signaling pathways or molecular networks from two drugs.

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Classification of CAD dataset by using principal component analysis and machine learning approaches

Cüvitoğlu

Işık

2018

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Network neighborhood operates as a drug repositioning method for cancer treatment

Cüvitoğlu

Işık

2023

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Computational drug repositioning approaches are important, as they cost less compared to the traditional drug development processes. This study proposes a novel network-based drug repositioning approach, which computes similarities between disease-causing genes and drug-affected genes in a network topology to suggest candidate drugs with highest similarity scores. This new method aims to identify better treatment options by integrating systems biology approaches. It uses a protein-protein interaction network that is the main topology to compute a similarity score between candidate drugs and disease-causing genes. The disease-causing genes were mapped on this network structure. Transcriptome profiles of drug candidates were taken from the LINCS project and mapped individually on the network structure. The similarity of these two networks was calculated by different network neighborhood metrics, including Adamic-Adar, PageRank and neighborhood scoring. The proposed approach identifies the best candidates by choosing the drugs with significant similarity scores. The method was experimented on melanoma, colorectal, and prostate cancers. Several candidate drugs were predicted by applying AUC values of 0.6 or higher. Some of the predictions were approved by clinical phase trials or other in-vivo studies found in literature. The proposed drug repositioning approach would suggest better treatment options with integration of functional information between genes and transcriptome level effects of drug perturbations and diseases.

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Classification of effects of drug combinations with support vector machines

Cüvitoğlu

Işık

2017

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Evaluation Machine-Learning Approaches for Classification of Cryotherapy and Immunotherapy Datasets

Cüvitoğlu¹,

Işık²

2018

IJMLC

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Ali Cüvitoğlu

Predicting drug synergy for precision medicine using network biology and machine learning

Classification of CAD dataset by using principal component analysis and machine learning approaches

Network neighborhood operates as a drug repositioning method for cancer treatment

Classification of effects of drug combinations with support vector machines

Evaluation Machine-Learning Approaches for Classification of Cryotherapy and Immunotherapy Datasets

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