Differential regulation of gene co-expression modules in muscles and liver of preterm newborns
Petra Janovska, Tatyana Kobets, Lenka Steiner Mrazova, Michaela Svobodova, Marketa Tesarova, Pavel Kopecky, Petr Zouhar, Martin Rossmeisl, Viktor Stranecky, Stanislav Kmoch, Jan Kopecky

TL;DR
This study explores how gene activity changes in the muscles and liver of preterm newborns, revealing key metabolic adaptations during the transition from fetal to neonatal life.
Contribution
The study provides a unique resource of tissue-specific gene co-expression modules linked to clinical traits in preterm newborns.
Findings
Muscle gene expression correlates with gestational age, while liver expression is influenced by postnatal survival duration.
Mitochondrial metabolism and oxidative phosphorylation genes show tissue-specific developmental patterns.
Liver gene activity is strongly associated with exogenous glucose and nutrition type, highlighting its role in postnatal adaptation.
Abstract
Newborns undergo rapid metabolic and organ adaptations after birth, which are compromised in premature newborns, leading to adverse health outcomes. Molecular mechanisms underlying these transitions remain poorly understood due to limited tissue availability. To address this gap, we characterized tissue transcriptomes using autopsy samples from a unique newborn cohort. We analyzed liver (LI), heart (HM), and skeletal muscle (SM) transcriptomes using RNA sequencing in 41 predominantly premature newborns who died shortly after birth. Nearly 14,000 protein-coding gene transcripts per tissue were detected. Tissues exhibited distinct expression profiles, with LI showed the highest number of tissue-specific genes. SM gene expression correlated strongly with gestational age at birth (i.e., the prenatal development), while LI was influenced by the duration of postnatal survival (i.e., the…
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Taxonomy
TopicsAdipose Tissue and Metabolism · Infant Nutrition and Health · Birth, Development, and Health
