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. 2025 Feb 25;14(1):13.
doi: 10.3390/biotech14010013.

Structure-Based Modeling of the Gut Bacteria-Host Interactome Through Statistical Analysis of Domain-Domain Associations Using Machine Learning

Despoina P Kiouri  1   2 Georgios C Batsis  1 Thomas Mavromoustakos  2 Alessandro Giuliani  3 Christos T Chasapis  1
Affiliations

Structure-Based Modeling of the Gut Bacteria-Host Interactome Through Statistical Analysis of Domain-Domain Associations Using Machine Learning

Despoina P Kiouri et al. BioTech (Basel). .

Abstract

The gut microbiome, a complex ecosystem of microorganisms, plays a pivotal role in human health and disease. The gut microbiome's influence extends beyond the digestive system to various organs, and its imbalance is linked to a wide range of diseases, including cancer and neurodevelopmental, inflammatory, metabolic, cardiovascular, autoimmune, and psychiatric diseases. Despite its significance, the interactions between gut bacteria and human proteins remain understudied, with less than 20,000 experimentally validated protein interactions between the host and any bacteria species. This study addresses this knowledge gap by predicting a protein-protein interaction network between gut bacterial and human proteins. Using statistical associations between Pfam domains, a comprehensive dataset of over one million experimentally validated pan-bacterial-human protein interactions, as well as inter- and intra-species protein interactions from various organisms, were used for the development of a machine learning-based prediction method to uncover key regulatory molecules in this dynamic system. This study's findings contribute to the understanding of the intricate gut microbiome-host relationship and pave the way for future experimental validation and therapeutic strategies targeting the gut microbiome interplay.

Keywords: domain interactions; gut microbiome; host–bacteria interactions; machine learning; protein networks.

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Conflict of interest statement

The authors declare no conflicts of interest.

Figures

Figure 1
Figure 1
Pfam-based PPI representation from adapted Word2Vec.
Figure 2
Figure 2
Visualization of the fuzzy human gut bacterial protein network. Purple nodes represent human protein clusters, and green nodes represent bacterial protein clusters.
Figure 3
Figure 3
The degree distribution plot of nodes of the clustered network (blue: human proteins, red: bacterial proteins).
Figure 4
Figure 4
(a) The average degree of connectivity of nodes with degree k plot for the clustered network; (b) the average degree of connectivity of nodes with degree k plot for the clustered network, after excluding the top 1% most connected clusters.
Figure 5
Figure 5
The correlation profile of the clustered network.
Figure 6
Figure 6
The percentage of proteins labeled as disordered in the dataset as a function of their percentage of disordered amino acids.
Figure 7
Figure 7
The mean degree–abundance association plot. Each bacterial strain is noted with a different color.
Figure 8
Figure 8
The protein degree in the human interactome (Pickle Degree)–protein degree in the human gut bacterial PPIN (Degree) association plot.
See this image and copyright information in PMC

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