Liam Crapper scite author profile

Major depressive disorder (MDD), is a prevalent mood disorder that associates with differential prefrontal brain expression patterns1. Treatment of MDD includes a variety of biopsychosocial approaches, but in medical practice, antidepressant drugs are the most common treatment for depressive episodes, and not surprisingly, they are among the most prescribed medications in North America2,3. While they are clearly effective, particularly for moderate to severe depressive episodes, there is important variability in how individuals respond to antidepressant treatment. Failure to respond has important individual, economic and social consequences for patients and their families4. Several lines of evidence demonstrate that genes are regulated through the activity of microRNAs (miRNAs), which act as fine–tuners and on–off switches in gene expression patterns5–7. Here we report on complementary studies using postmortem human brain samples, cellular assays and samples from clinical trials of depressed patients, and show that miR-1202, a miRNA specific to primates and enriched in the human brain, is differentially expressed in depressed individuals. Additionally, miR-1202 regulates the expression of the Metabotropic Glutamate Receptor 4 (GRM4) gene and predicts antidepressant response at baseline. These results suggest that miR-1202 is associated with the pathophysiology of depression and is a potential target for novel antidepressant treatments.

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Molecular Convergence of Neurodevelopmental Disorders

Chen

Gigek

Rosenfeld

et al. 2014

The American Journal of Human Genetics

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Neurodevelopmental disorders (NDDs) are caused by mutations in diverse genes involved in different cellular functions, although there can be crosstalk, or convergence, between molecular pathways affected by different NDDs. To assess molecular convergence, we generated human neural progenitor cell models of 9q34 deletion syndrome, caused by haploinsufficiency of EHMT1, and 18q21 deletion syndrome, caused by haploinsufficiency of TCF4. Using next-generation RNA sequencing, methylation sequencing, chromatin immunoprecipitation sequencing, and whole-genome miRNA analysis, we identified several levels of convergence. We found mRNA and miRNA expression patterns that were more characteristic of differentiating cells than of proliferating cells, and we identified CpG clusters that had similar methylation states in both models of reduced gene dosage. There was significant overlap of gene targets of TCF4 and EHMT1, whereby 8.3% of TCF4 gene targets and 4.2% of EHMT1 gene targets were identical. These data suggest that 18q21 and 9q34 deletion syndromes show significant molecular convergence but distinct expression and methylation profiles. Common intersection points might highlight the most salient features of disease and provide avenues for similar treatments for NDDs caused by different genetic mutations.

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Disruption of a Large Intergenic Noncoding RNA in Subjects with Neurodevelopmental Disabilities

Talkowski

Maussion

Crapper

et al. 2012

The American Journal of Human Genetics

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Large intergenic noncoding (linc) RNAs represent a newly described class of ribonucleic acid whose importance in human disease remains undefined. We identified a severely developmentally delayed 16-year-old female with karyotype 46,XX,t(2;11)(p25.1;p15.1)dn in the absence of clinically significant copy number variants (CNVs). DNA capture followed by next-generation sequencing of the translocation breakpoints revealed disruption of a single noncoding gene on chromosome 2, LINC00299, whose RNA product is expressed in all tissues measured, but most abundantly in brain. Among a series of additional, unrelated subjects referred for clinical diagnostic testing who showed CNV affecting this locus, we identified four with exon-crossing deletions in association with neurodevelopmental abnormalities. No disruption of the LINC00299 coding sequence was seen in almost 14,000 control subjects. Together, these subjects with disruption of LINC00299 implicate this particular noncoding RNA in brain development and raise the possibility that, as a class, abnormalities of lincRNAs may play a significant role in human developmental disorders.

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Liam Crapper

miR-1202 is a primate-specific and brain-enriched microRNA involved in major depression and antidepressant treatment

Molecular Convergence of Neurodevelopmental Disorders

Disruption of a Large Intergenic Noncoding RNA in Subjects with Neurodevelopmental Disabilities

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