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    Co-expression gene network analysis reveals novel regulatory pathways involved in porto-sinusoidal vascular disease

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    [Background & Aims] Porto-sinusoidal vascular disease (PSVD) is a rare vascular liver disease of unknown etiology that causes portal hypertension. It usually affects young individuals and shortens live expectancy. The deregulated pathways involved in PSVD development are unknown and therefore we lack curative treatments. The purpose of this study was to integrate transcriptomic and clinical data by comprehensive network-based modeling in order to uncover altered biological processes in patients with PSVD.[Methods] We obtained liver tissue samples from 20 consecutive patients with PSVD and 21 sex- and age-matched patients with cirrhosis and 13 histologically normal livers (HNL) (initial cohort) and performed transcriptomic analysis. Microarray data were analyzed using weighted gene correlation network analysis to identify clusters of highly correlated genes differently expressed in patients with PSVD. We next evaluated the molecular pathways enriched in patients with PSVD and the core-related genes from the most significantly enriched pathways in patients with PSVD. Our main findings were validated using RNA sequencing in a different cohort of PSVD, cirrhosis and HNL (n = 8 for each group).[Results] Patients with PSVD have a distinctive genetic profile enriched mainly in canonical pathways involving hemostasis and coagulation but also lipid metabolism and oxidative phosphorylation. Serpin family (SERPINC1), the apolipoproteins (APOA, APOB, APOC), ATP synthases (ATP5G1, ATP5B), fibrinogen genes (FGB, FGA) and alpha-2-macroglobulin were identified as highly connective genes that may have an important role in PSVD pathogenesis.[Conclusion] PSVD has a unique transcriptomic profile and we have identified deregulation of pathways involved in vascular homeostasis as the main pathogenic event of disease development. [Lay summary] Porto-sinusoidal vascular disease is a rare but life-shortening disease that affects mainly young people. Knowledge of the disrupted pathways involved in its development will help to identify novel therapeutic targets and new treatments. Using a systems biology approach, we identify that pathways regulating endothelial function and tone may act as drivers of porto-sinusoidal vascular disease.This study was supported by the Instituto de Salud Carlos III FIS PI17/00398, the Ministry of Education and Science, Spain (SAF-2016-75767-R); Agència de Gestió d’Ajuts Universitaris i de Recerca (AGAUR-SGR2017-517) a grant from Generalitat de Catalunya, Fondo Europeo de Desarrollo Regional (FEDER) and Centro de Investigación Biomédica en Red de Enfermedades Hepáticas y Digestivas (CIBERehd), funded by Instituto de Salud Carlos III. Marta Magaz is a recipient of a Río Hortega grant from Instituto de Salud Carlos III. Pol Olivas has been funded by Contractes Clínic de Recerca ”Emili Letang-Josep Font’’ 2020, granted by Hospital Clínic de Barcelona.Peer reviewe
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