Ribosomal dysregulation: A conserved pathophysiological mechanism in human depression and mouse chronic stress

The underlying biological mechanisms that contribute to the heterogeneity of major depressive disorder (MDD) presentation remain poorly understood, highlighting the need for a conceptual framework that can explain this variability and bridge the gap between animal models and clinical endpoints. Here, we hypothesize that comparative analysis of molecular data from different experimental systems of chronic stress and MDD has the potential to provide insight into these mechanisms and address this gap. Thus, we compared transcriptomic profiles of brain tissue from postmortem MDD subjects and from mice exposed to chronic variable stress (CVS) to identify orthologous genes. Ribosomal protein genes (RPGs) were downregulated, and associated RP-pseudogenes were upregulated in both conditions. Analysis across independent cohorts confirmed that this dysregulation was specific to the prefrontal cortex of both species. A seeded gene co-expression analysis using altered RPGs common between the MDD and CVS groups revealed that downregulated RPGs homeostatically regulated the synaptic changes in both groups through a RP-pseudogene-driven mechanism.In-vitroandin-silicoanalysis further demonstrated that the inverse RPG/RP-pseudogene association was a glucocorticoid-driven endocrine response to stress that was reversed during remission from MDD. This study provides the first evidence that ribosomal dysregulation during stress is a conserved phenotype in human MDD and CVS exposed mouse. Our results establish a foundation for the hypothesis that stress-induced alterations in RPGs and, consequently, ribosomes contribute to the synaptic dysregulation underlying MDD and chronic stress-related mood disorders. We discuss a ribosome-dependent mechanism for the variable presentations of depression and other mood disorders.Significance StatementThe presented study highlights the pressing need for a connection between animal models of depression and clinical endpoints. The lack of concordance between these two areas has hindered our understanding of MDD’s biological underpinnings. The study’s hypothesis that orthologous gene from experimental systems of chronic stress and MDD can bridge this gap is a major advance in this field. The study indicates that dysregulation of ribosomes in the synapse is a common feature in both human MDD and mice exposed to CVS. This dysregulation is a response to endocrine disturbances and is driven by mechanisms that involve pseudogenes. These findings support the hypothesis that stress-induced alterations in RPGs and, consequently, ribosomes may contribute to the variable presentations of depression.