👤 Victor Gorgievski

Major Depressive Disorder (MDD) is a debilitating psychiatric disorder that is a leading cause of disability worldwide. Although treatment with antidepressants, such as Selective Serotonin Reuptake Inhibitors (SSRIs), has demonstrated clinical efficacy, the "trial and error" approach in choosing the most effective antidepressant treatment for each patient allows for only a subset of patients to achieve response to the first line of treatment. Circular RNAs (circRNAs), are highly stable and brain-enriched non-coding RNAs that are mainly derived from the backsplicing and covalent joining of exons and introns of protein-coding genes. They are known to be important for brain development and function, cross the blood-brain-barrier, and be highly sensitive to changes in both synaptic activity and neuronal receptor signaling. Here we present evidence that expression of the brain-enriched circRNA, CDR1as, is associated with symptomatic response to SSRI treatment, and regulated by serotonin and Brain-Derived Neurotrophic Factor (BDNF) receptor activity. We present data using circRNA-specific PCR in baseline whole blood samples from two independent cohorts, drawn from the Establishing moderators and biosignatures of antidepressant response in clinical care (EMBARC) and the Biomarkers of ANTidepressant RESponse (ANTARES) clinical studies, showing that before treatment CDR1as is differentially expressed between future symptomatic responders and non-responders to treatment with the SSRI sertraline. Additional data from naturalistic antidepressant response studies further highlight the association between CDR1as and antidepressant effects of SSRIs as a class. In addition, we show that CDR1as levels are altered following sertraline treatment in responders with the trajectory of change post-treatment associated with long-term remission. Furthermore, we report that levels of CDR1as in the blood can specifically predict remission with SSRI treatment, but not response/remission with Placebo or Bupropion treatments. Lastly, we provide evidence in animal mechanistic and neuronal culture studies, suggesting mouse Cdr1as is strongly regulated by 5-HT2A and BDNF receptor signaling. Taken together, our data identify a brain-enriched circRNA associated with known mechanisms of antidepressant response that can serve as a blood biomarker for predicting response and remission with SSRI treatment. Show less

The identification of new pathways governing myelination provides innovative avenues for remyelination. Liver X receptors (LXRs) α and β are nuclear receptors activated by oxysterols that originated from the oxidation of cholesterol. They are crucial for cholesterol homeostasis, a major lipid constituent of myelin sheaths that are formed by oligodendrocytes. However, the role of LXRs in myelin generation and maintenance is poorly understood. Here, we show that LXRs are involved in myelination and remyelination processes. LXRs and their ligands are present in oligodendrocytes. We found that mice invalidated for LXRs exhibit altered motor coordination and spatial learning, thinner myelin sheaths, and reduced myelin gene expression. Conversely, activation of LXRs by either 25-hydroxycholesterol or synthetic TO901317 stimulates myelin gene expression at the promoter, mRNA, and protein levels, directly implicating LXRα/β in the transcriptional control of myelin gene expression. Interestingly, activation of LXRs also promotes oligodendroglial cell maturation and remyelination after lysolecithin-induced demyelination of organotypic cerebellar slice cultures. Together, our findings represent a conceptual advance in the transcriptional control of myelin gene expression and strongly support a new role of LXRs as positive modulators in central (re)myelination processes. Show less