Construction of a Suite of Computable Biological Network Models Focused on Mucociliary Clearance in the Respiratory Tract.

Hasmik Yepiskoposyan,Manuel Claude Peitsch,Stefano Vavassori,Sylvain Gubian,Marja Talikka,Karsta Luettich,Julia Hoeng,Florian Martin,Alain Sewer

doi:10.3389/fgene.2019.00087

Hasmik Yepiskoposyan, Manuel Claude Peitsch + Show 7 more

Open Access

https://doi.org/10.3389/fgene.2019.00087

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Abstract

Mucociliary clearance (MCC), considered as a collaboration of mucus secreted from goblet cells, the airway surface liquid layer, and the beating of cilia of ciliated cells, is the airways’ defense system against airborne contaminants. Because the process is well described at the molecular level, we gathered the available information into a suite of comprehensive causal biological network (CBN) models. The suite consists of three independent models that represent (1) cilium assembly, (2) ciliary beating, and (3) goblet cell hyperplasia/metaplasia and that were built in the Biological Expression Language, which is both human-readable and computable. The network analysis of highly connected nodes and pathways demonstrated that the relevant biology was captured in the MCC models. We also show the scoring of transcriptomic data onto these network models and demonstrate that the models capture the perturbation in each dataset accurately. This work is a continuation of our approach to use computational biological network models and mathematical algorithms that allow for the interpretation of high-throughput molecular datasets in the context of known biology. The MCC network model suite can be a valuable tool in personalized medicine to further understand heterogeneity and individual drug responses in complex respiratory diseases.

Highlights

The respiratory tract is under constant challenge to provide the body with oxygen while monitoring air quality for pollutants and microorganisms
We present a suite of causal biological models that describe important molecular events involved in Mucociliary clearance (MCC), from cilium assembly to ciliary beating, goblet cell hyperplasia/metaplasia, and mucus hypersecretion
Cilium Assembly Model The cilium assembly network model is a collection of intertwined biological entities and processes that are supported by 59 relevant peer-reviewed articles

Summary

Introduction

The respiratory tract is under constant challenge to provide the body with oxygen while monitoring air quality for pollutants and microorganisms. Particles are expelled through sneeze and cough (Wanner et al, 1996). This self-clearing mechanism, mucociliary clearance (MCC), ensures proper functioning of the respiratory tract. Cilia have attracted increasing attention because of the growing number of diseases caused by mutations in genes that impact cilium assembly, function, and turnover (Fliegauf et al, 2007; Kempeneers and Chilvers, 2018). Cilia are classified as primary or motile (Wheatley, 1995; Satir and Christensen, 2007). Primary cilia are present on almost all cell types and are involved in tissue homeostasis

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