MIPUP: minimum perfect unmixed phylogenies for multi-sampled tumors via branchings and ILP

被引:9
作者
Husic, Edin [1 ]
Li, Xinyue [2 ]
Hujdurovic, Ademir [3 ,4 ]
Mehine, Miika [5 ]
Rizzi, Romeo [6 ]
Maekinen, Veli [2 ]
Milanic, Martin [3 ,4 ]
Tomescu, Alexandru I. [2 ]
机构
[1] London Sch Econ & Polit Sci, Dept Math, London, England
[2] Univ Helsinki, HIIT, Dept Comp Sci, Helsinki, Finland
[3] Univ Primorska, UP IAM, SI-6000 Koper, Slovenia
[4] Univ Primorska, UP FAMNIT, SI-6000 Koper, Slovenia
[5] Univ Helsinki, Genome Scale Biol Res Program, Res Programs Unit, Dept Med & Clin Genet,Fac Med,Medicum, Helsinki, Finland
[6] Univ Verona, Dept Comp Sci, Verona, Italy
来源
BIOINFORMATICS | 2019年 / 35卷 / 05期
基金
芬兰科学院;
关键词
SOMATIC MUTATION; INFERENCE; CANCER; HETEROGENEITY; EVOLUTION; HISTORY;
D O I
10.1093/bioinformatics/bty683
中图分类号
Q5 [生物化学];
学科分类号
071010 ; 081704 ;
摘要
Motivation Discovering the evolution of a tumor may help identify driver mutations and provide a more comprehensive view on the history of the tumor. Recent studies have tackled this problem using multiple samples sequenced from a tumor, and due to clinical implications, this has attracted great interest. However, such samples usually mix several distinct tumor subclones, which confounds the discovery of the tumor phylogeny. Results We study a natural problem formulation requiring to decompose the tumor samples into several subclones with the objective of forming a minimum perfect phylogeny. We propose an Integer Linear Programming formulation for it, and implement it into a method called MIPUP. We tested the ability of MIPUP and of four popular tools LICHeE, AncesTree, CITUP, Treeomics to reconstruct the tumor phylogeny. On simulated data, MIPUP shows up to a 34% improvement under the ancestor-descendant relations metric. On four real datasets, MIPUP's reconstructions proved to be generally more faithful than those of LICHeE.
引用
收藏
页码:769 / 777
页数:9
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