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Literature DB >> 24507510

Schizophrenia as a disorder of molecular pathways.

Abstract

Over the last decade, transcriptome studies of postmortem tissue from subjects with schizophrenia revealed that synaptic, mitochondrial, immune system, gamma-aminobutyric acidergic, and oligodendrocytic changes are all integral parts of the disease process. The combined genetic and transcriptomic studies argue that the molecular underpinnings of the disease are even more varied than the symptomatic diversity of schizophrenia. Ultimately, to decipher the pathophysiology of human disorders in general, we will need to understand the function of hundreds of genes and regulatory elements in our genome and the consequences of their overexpression and reduced expression in a developmental context. Furthermore, integration of knowledge from various data sources remains a monumental challenge that has to be systematically addressed in the upcoming decades. In the end, our success in interpreting the molecular changes in schizophrenia will depend on our ability to understand the biology using innovative ideas and cannot depend on the hope of developing novel, more powerful technologies.

Entities: Chemical Disease Gene Species

Keywords: Convergence; Gene Expression; Gene Network; Genetics; Postmortem; Schizophrenia

Mesh：

Year: 2014 PMID： 24507510 PMCID： PMC4092052 DOI： 10.1016/j.biopsych.2014.01.001

Source DB: PubMed Journal: Biol Psychiatry ISSN： 0006-3223 Impact factor: 13.382

68 in total

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37 in total

Review 1. MicroRNAs in Schizophrenia: Implications for Synaptic Plasticity and Dopamine-Glutamate Interaction at the Postsynaptic Density. New Avenues for Antipsychotic Treatment Under a Theranostic Perspective.

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Journal: Psychopharmacology (Berl) Date: 2021-06-05 Impact factor: 4.530

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Authors: F Wang; K L Eagleson; P Levitt
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9. A Single-Cell Transcriptomic Atlas of Human Neocortical Development during Mid-gestation.

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10. Developmental Connectivity and Molecular Phenotypes of Unique Cortical Projection Neurons that Express a Synapse-Associated Receptor Tyrosine Kinase.

Authors: Ryan J Kast; Hsiao-Huei Wu; Pat Levitt
Journal: Cereb Cortex Date: 2019-01-01 Impact factor: 5.357