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Subclass Mapping: Identifying Common Subtypes in Independent Disease Data Sets

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  • Yujin Hoshida
  • Jean-Philippe Brunet
  • Pablo Tamayo
  • Todd R Golub
  • Jill P Mesirov

Abstract

Whole genome expression profiles are widely used to discover molecular subtypes of diseases. A remaining challenge is to identify the correspondence or commonality of subtypes found in multiple, independent data sets generated on various platforms. While model-based supervised learning is often used to make these connections, the models can be biased to the training data set and thus miss inherent, relevant substructure in the test data. Here we describe an unsupervised subclass mapping method (SubMap), which reveals common subtypes between independent data sets. The subtypes within a data set can be determined by unsupervised clustering or given by predetermined phenotypes before applying SubMap. We define a measure of correspondence for subtypes and evaluate its significance building on our previous work on gene set enrichment analysis. The strength of the SubMap method is that it does not impose the structure of one data set upon another, but rather uses a bi-directional approach to highlight the common substructures in both. We show how this method can reveal the correspondence between several cancer-related data sets. Notably, it identifies common subtypes of breast cancer associated with estrogen receptor status, and a subgroup of lymphoma patients who share similar survival patterns, thus improving the accuracy of a clinical outcome predictor.

Suggested Citation

  • Yujin Hoshida & Jean-Philippe Brunet & Pablo Tamayo & Todd R Golub & Jill P Mesirov, 2007. "Subclass Mapping: Identifying Common Subtypes in Independent Disease Data Sets," PLOS ONE, Public Library of Science, vol. 2(11), pages 1-8, November.
    • Handle: RePEc:plo:pone00:0001195
    DOI: 10.1371/journal.pone.0001195
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    Cited by:

    1. Sheng, Ying & Wang, Qihua, 2019. "Simultaneous variable selection and class fusion with penalized distance criterion based classifiers," Computational Statistics & Data Analysis, Elsevier, vol. 133(C), pages 138-152.
    2. Xianxue Yu & Guoxian Yu & Jun Wang, 2017. "Clustering cancer gene expression data by projective clustering ensemble," PLOS ONE, Public Library of Science, vol. 12(2), pages 1-21, February.
    3. Miles C. Andrews & Junna Oba & Chang-Jiun Wu & Haifeng Zhu & Tatiana Karpinets & Caitlin A. Creasy & Marie-Andrée Forget & Xiaoxing Yu & Xingzhi Song & Xizeng Mao & A. Gordon Robertson & Gabriele Roma, 2022. "Multi-modal molecular programs regulate melanoma cell state," Nature Communications, Nature, vol. 13(1), pages 1-18, December.
    4. Hui-Min Wang & Ching-Lin Hsiao & Ai-Ru Hsieh & Ying-Chao Lin & Cathy S J Fann, 2012. "Constructing Endophenotypes of Complex Diseases Using Non-Negative Matrix Factorization and Adjusted Rand Index," PLOS ONE, Public Library of Science, vol. 7(7), pages 1-12, July.
    5. Jonathon J. O’Brien & Michael T. Lawson & Devin K. Schweppe & Bahjat F. Qaqish, 2020. "Suboptimal Comparison of Partitions," Journal of Classification, Springer;The Classification Society, vol. 37(2), pages 435-461, July.
    6. Minseok Seo & Sejong Oh, 2012. "CBFS: High Performance Feature Selection Algorithm Based on Feature Clearness," PLOS ONE, Public Library of Science, vol. 7(7), pages 1-10, July.
    7. Xiaoping Su & Xiaofan Lu & Sehrish Khan Bazai & Linda Dainese & Arnauld Verschuur & Benoit Dumont & Roger Mouawad & Li Xu & Wenxuan Cheng & Fangrong Yan & Sabine Irtan & Véronique Lindner & Catherine , 2023. "Delineating the interplay between oncogenic pathways and immunity in anaplastic Wilms tumors," Nature Communications, Nature, vol. 14(1), pages 1-15, December.

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