Chijioke N. Egbujo scite author profile

Chijioke N. Egbujo

3Publications

96Citation Statements Received

275Citation Statements Given

How they've been cited

136

How they cite others

221

266

Affiliations

University of Pennsylvania

Publications

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Src kinase as a mediator of convergent molecular abnormalities leading to NMDAR hypoactivity in schizophrenia

Banerjee

et al. 2014

Mol Psychiatry

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Numerous investigations support decreased glutamatergic signaling as a pathogenic mechanism of schizophrenia: yet molecular underpinnings for such dysregulation are largely unknown. In the postmortem dorsolateral prefrontal cortex, we found striking decreases in tyrosine phosphorylation of N-methyl-D aspartate (NMDA) receptor subunit 2 (GluN2), which is critical for neuroplasticity. The decreased GluN2 activity in schizophrenia may not be due to downregulation of NMDA receptors since MK-801 binding and NMDA receptor complexes in the PSD were in fact increased in schizophrenia cases. At the post-receptor level, however, we found striking reductions in the protein kinase C, Pyk 2 and Src kinase activity, which in tandem can decrease GluN2 activation. Given that Src serves as a hub of various signaling mechanisms impacting GluN2 phosphorylation, we postulated that Src hypoactivity may result from convergent alterations of various schizophrenia susceptibility pathways and thus mediate their impacts on NMDA receptor signaling. Indeed, the DLPFC of schizophrenia cases exhibit increased PSD-95 and erbB4 and decreased RPTPa and dysbindin-1, each of which reduces Src activity via protein interaction with Src. To test genomic underpinnings for Src hypoactivity, we examined genome wide association study results, incorporating 13,394 cases and 34,676 controls, which yielded no significant association of individual variants of Src and its direct regulators with schizophrenia. However, a wider protein-protein interaction based network centered on Src, showed significant enrichment of gene-level associations with schizophrenia compared to other psychiatric illnesses. Our results together demonstrate striking decreases in NMDA receptor signaling at the post-receptor level and propose Src as a nodal point of convergent dysregulations impacting NMDA receptor pathway via protein-protein associations.

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Dysregulations of Synaptic Vesicle Trafficking in Schizophrenia

Egbujo

Sinclair

Hahn

2016

Curr Psychiatry Rep

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Schizophrenia is a serious psychiatric illness which is experienced by about 1% of individuals worldwide and has a debilitating impact on perception, cognition and social function. Over the years, several models/hypotheses have been developed which link schizophrenia to dysregulations of the dopamine, glutamate and serotonin receptor pathways. An important segment of these pathways that have been extensively studied for the pathophysiology of schizophrenia is the presynaptic neurotransmitter release mechanism. This set of molecular events is an evolutionarily well-conserved process that involves vesicle recruitment, docking, membrane fusion and recycling, leading to efficient neurotransmitter delivery at the synapse. Accumulated evidence indicate dysregulation of this mechanism impacting post-synaptic signal transduction via different neurotransmitters in key brain regions implicated in schizophrenia. In recent years, after ground-breaking work that elucidated the operations of this mechanism, research efforts have focused on the alterations in the mRNA and protein expression of pre-synaptic neurotransmitter release molecules in schizophrenia and other neuropsychiatric conditions. In this review article, we present recent evidence from schizophrenia human post-mortem studies that key proteins involved in the pre-synaptic release mechanism are dysregulated in the disorder. We also discuss the potential impact of dysfunctional pre-synaptic neurotransmitter release on the various neurotransmitter systems implicated in schizophrenia.

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Molecular evidence for decreased synaptic efficacy in the postmortem olfactory bulb of individuals with schizophrenia

Egbujo

Sinclair

Borgmann‐Winter

et al. 2015

Schizophrenia Research

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Multiple lines of evidence suggest altered synaptic plasticity/connectivity as a pathophysiologic mechanism for various symptom domains of schizophrenia. Olfactory dysfunction, an endophenotype of schizophrenia, reflects altered activity of the olfactory circuitry, which conveys signals from olfactory receptor neurons to the olfactory cortex via synaptic connections in the glomeruli of the olfactory bulb. The olfactory system begins with intranasal olfactory receptor neuron axons synapsing with mitral and tufted cells in the glomeruli of the olfactory bulb, which then convey signals directly to the olfactory cortex. We hypothesized that olfactory dysfunction in schizophrenia is associated with dysregulation of synaptic efficacy in the glomeruli of the olfactory bulb. To test this, we employed semi-quantitative immunohistochemistry to examine the olfactory bulbs of 13 postmortem samples from schizophrenia and their matched control pairs for glomerular expression of 5 pre- and postsynaptic proteins that are involved in the integrity and function of synapses. In the glomeruli of schizophrenia cases compared to their matched controls, we found significant decreases in three presynaptic proteins which play crucial roles in vesicular glutamate transport- synapsin IIa (−18.05%, p= 0.019), synaptophysin (−24.08% p=0.0016) and SNAP-25 (−23.9%, p=0.046). Two postsynaptic proteins important for spine formation and glutamatergic signaling were also decreased- spinophilin (−17.40%, p=0.042) and PSD-95 (−34.06%, p=0.015). These findings provide molecular evidence for decreased efficacy of synapses within the olfactory bulb, which may represent a synaptic mechanism underlying olfactory dysfunction in schizophrenia.

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