Topical hidden genome: discovering latent cancer mutational topics using a Bayesian multilevel context-learning approach.

IF 1.4 4区 数学 Q3 BIOLOGY
Biometrics Pub Date : 2024-03-27 DOI:10.1093/biomtc/ujae030
Saptarshi Chakraborty, Zoe Guan, Colin B Begg, Ronglai Shen
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引用次数: 0

Abstract

Inferring the cancer-type specificities of ultra-rare, genome-wide somatic mutations is an open problem. Traditional statistical methods cannot handle such data due to their ultra-high dimensionality and extreme data sparsity. To harness information in rare mutations, we have recently proposed a formal multilevel multilogistic "hidden genome" model. Through its hierarchical layers, the model condenses information in ultra-rare mutations through meta-features embodying mutation contexts to characterize cancer types. Consistent, scalable point estimation of the model can incorporate 10s of millions of variants across thousands of tumors and permit impressive prediction and attribution. However, principled statistical inference is infeasible due to the volume, correlation, and noninterpretability of mutation contexts. In this paper, we propose a novel framework that leverages topic models from computational linguistics to effectuate dimension reduction of mutation contexts producing interpretable, decorrelated meta-feature topics. We propose an efficient MCMC algorithm for implementation that permits rigorous full Bayesian inference at a scale that is orders of magnitude beyond the capability of existing out-of-the-box inferential high-dimensional multi-class regression methods and software. Applying our model to the Pan Cancer Analysis of Whole Genomes dataset reveals interesting biological insights including somatic mutational topics associated with UV exposure in skin cancer, aging in colorectal cancer, and strong influence of epigenome organization in liver cancer. Under cross-validation, our model demonstrates highly competitive predictive performance against blackbox methods of random forest and deep learning.

主题隐藏基因组:利用贝叶斯多层次语境学习方法发现潜在的癌症突变主题。
推断超罕见的全基因组体细胞突变的癌症类型特异性是一个尚未解决的问题。由于数据的超高维度和极度稀疏性,传统的统计方法无法处理此类数据。为了利用罕见突变的信息,我们最近提出了一种正式的多层次多逻辑 "隐藏基因组 "模型。通过其分层,该模型通过体现突变背景的元特征来浓缩超罕见突变的信息,从而描述癌症类型。对模型进行一致的、可扩展的点估算,可纳入数千个肿瘤中的数千万个变异,并进行令人印象深刻的预测和归因。然而,由于突变背景的数量、相关性和不可解释性,原则性统计推断是不可行的。在本文中,我们提出了一个新颖的框架,利用计算语言学中的主题模型来实现突变上下文的降维,从而产生可解释的、装饰相关的元特征主题。我们提出了一种高效的 MCMC 算法,该算法允许在现有开箱即用的高维多类回归推理方法和软件无法实现的规模上进行严格的全贝叶斯推理。将我们的模型应用于泛癌症全基因组分析数据集揭示了有趣的生物学观点,包括皮肤癌中与紫外线暴露相关的体细胞突变主题、结直肠癌中的衰老以及肝癌中表观基因组组织的强烈影响。在交叉验证下,我们的模型与随机森林和深度学习等黑盒方法相比,显示出极具竞争力的预测性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Biometrics
Biometrics 生物-生物学
CiteScore
2.70
自引率
5.30%
发文量
178
审稿时长
4-8 weeks
期刊介绍: The International Biometric Society is an international society promoting the development and application of statistical and mathematical theory and methods in the biosciences, including agriculture, biomedical science and public health, ecology, environmental sciences, forestry, and allied disciplines. The Society welcomes as members statisticians, mathematicians, biological scientists, and others devoted to interdisciplinary efforts in advancing the collection and interpretation of information in the biosciences. The Society sponsors the biennial International Biometric Conference, held in sites throughout the world; through its National Groups and Regions, it also Society sponsors regional and local meetings.
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