AI Article Synopsis
- * One region studied (the thalamic anterior nucleus) is linked to brain areas affected by schizophrenia, while the other is not, allowing us to reduce variability by comparing regions within the same individuals.
- * Our findings highlighted altered gene expressions associated with microRNAs and several key genes (like ELAVL1 and BDNF) linked to schizophrenia, suggesting potential transcriptional repression as a factor in the disorder.
Article Abstract
We used whole human genome microarray screening of highly enriched neuronal populations from two thalamic regions in postmortem samples from subjects with schizophrenia and controls to identify brain region-specific gene expression changes and possible transcriptional targets. The thalamic anterior nucleus is reciprocally connected to anterior cingulate, a schizophrenia-affected cortical region, and is also thought to be schizophrenia affected; the other thalamic region is not. Using two regions in the same subject to identify disease-relevant gene expression differences was novel and reduced intersubject heterogeneity of findings. We found gene expression differences related to miRNA-137 and other SZ-associated microRNAs, ELAVL1, BDNF, DISC-1, MECP2 and YWHAG associated findings, synapses, and receptors. Manual curation of our data may support transcription repression.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7285254 | PMC |
| http://dx.doi.org/10.1155/2020/5176834 | DOI Listing |
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