Structured Output Prediction of Anti-cancer Drug Activity

被引:0
作者
Su, Hongyu [1 ]
Heinonen, Markus [1 ]
Rousu, Juho [1 ]
机构
[1] Univ Helsinki, Dept Comp Sci, FIN-00014 Helsinki, Finland
来源
PATTERN RECOGNITION IN BIOINFORMATICS | 2010年 / 6282卷
关键词
SUPPORT VECTOR MACHINE; CLASSIFICATION;
D O I
暂无
中图分类号
Q5 [生物化学];
学科分类号
071010 ; 081704 ;
摘要
We present a structured output prediction approach for classifying potential anti-cancer drugs. Our QSAR model takes as input a description of a molecule and predicts the activity against a set of cancer cell lines in one shot. Statistical dependencies between the cell lines are encoded by a Markov network that has cell lines as nodes and edges represent similarity according to an auxiliary dataset. Molecules are represented via kernels based on molecular graphs. Margin-based learning is applied to separate correct multilabels from incorrect ones. The performance of the multilabel classification method is shown in our experiments with NCI-Cancer data containing the cancer inhibition potential of drug-like molecules against 59 cancer cell lines. In the experiments, our method outperforms the state-of-the-art SVM method.
引用
收藏
页码:38 / 49
页数:12
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[21]   Network-based Biased Tree Ensembles (NetBiTE) for Drug Sensitivity Prediction and Drug Sensitivity Biomarker Identification in Cancer [J].
Oskooei, Ali ;
Manica, Matteo ;
Mathis, Roland ;
Martinez, Maria Rodriguez .
SCIENTIFIC REPORTS, 2019, 9 (1)
[22]   Open source machine-learning algorithms for the prediction of optimal cancer drug therapies [J].
Huang, Cai ;
Mezencev, Roman ;
McDonald, John F. ;
Vannberg, Fredrik .
PLOS ONE, 2017, 12 (10)
[23]   Optimized models and deep learning methods for drug response prediction in cancer treatments: a review [J].
Hajim, Wesam Ibrahim ;
Zainudin, Suhaila ;
Daud, Kauthar Mohd ;
Alheeti, Khattab .
PEERJ COMPUTER SCIENCE, 2024, 10
[24]   PLATYPUS: A Multiple-View Learning Predictive Framework for Cancer Drug Sensitivity Prediction [J].
Graim, Kiley ;
Friedl, Verena ;
Houlahan, Kathleen E. ;
Stuart, Joshua M. .
PACIFIC SYMPOSIUM ON BIOCOMPUTING 2019, 2019, :136-147
[25]   Classification of CDK2 Inhibitor as Anti-Cancer Agent by Using Simulated Annealing-Support Vector Machine Methods [J].
Ikhsanurahman, Riva Yudisa ;
Ikhsan, Nurul ;
Kurniawan, Isman .
2022 INTERNATIONAL CONFERENCE ON DATA SCIENCE AND ITS APPLICATIONS (ICODSA), 2022, :82-86
[26]   RECENT ADVANCES ON DRUG DISCOVERY FOR ANTI-INFLAMMATORY ACTIVITY DETECTION: SUPERVISED AND UNSUPERVISED ALGORITHM [J].
Tian, Shengwei ;
Gao, Shuangyin ;
Yu, Long ;
Shi, Xinyu ;
Wang, Mei ;
Li, Li .
INTERNATIONAL JOURNAL OF INNOVATIVE COMPUTING INFORMATION AND CONTROL, 2016, 12 (05) :1481-1503
[27]   The Clinical Prediction Value of the Ubiquitination Model Reflecting the Microenvironment Infiltration and Drug Sensitivity in Breast Cancer [J].
Ma, Hai-Yan ;
Cao, Jun-Ming ;
Zhang, Yuan-Yuan ;
Yang, Jin-Shuo ;
Wang, Xin ;
Yu, Yue .
JOURNAL OF CANCER, 2025, 16 (03) :784-801
[28]   Prediction of Drug Efficiency by Transferring Gene Expression Data from Cell Lines to Cancer Patients [J].
Borisov, Nicolas ;
Tkachev, Victor ;
Buzdin, Anton ;
Muchnik, Ilya .
BRAVERMAN READINGS IN MACHINE LEARNING: KEY IDEAS FROM INCEPTION TO CURRENT STATE, 2018, 11100 :201-212
[29]   Topologically inferring pathway activity for precise survival outcome prediction: breast cancer as a case [J].
Liu, Wei ;
Wang, Wei ;
Tian, Guohua ;
Xie, Wenming ;
Lei, Li ;
Liu, Jiujin ;
Huang, Wanxun ;
Xu, Liyan ;
Li, Enmin .
MOLECULAR BIOSYSTEMS, 2017, 13 (03) :537-548
[30]   Acute myeloid leukemias in Batna Epidemiological and cytological profile of acute myeloid leukemias:proposed 126 college cases at the Batna Anti-Cancer Center [J].
Afaf, Youcefi ;
Mahdia, Saidi .
EGYPTIAN JOURNAL OF HAEMATOLOGY, 2022, 47 (02) :135-145
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