Abstract
Background and Purpose: DTNBP1 gene variation and lower dysbindin-1 protein are associated with schizophrenia. Previous evidence suggests that downregulated dysbindin-1 expression results in lower expression of copper transporters ATP7A (intracellular copper transporter) and SLC31A1 (CTR1; extracellular copper transporter), which are required for copper transport across the blood brain barrier. However, whether antipsychotic medications used for schizophrenia treatment may modulate these systems is unclear. Experimental Approach: The current study measured behavioral indices of neurological function in dysbindin-1 functional knockout (KO) mice and their wild-type (WT) littermates with or without quetiapine treatment. We assessed serum and brain copper levels, ATP7A and CTR1 mRNA, and copper transporter-expressing cellular population transcripts: TTR (transthyretin; choroid plexus epithelial cells), MBP (myelin basic protein; oligodendrocytes), and GJA1 (gap-junction protein alpha-1; astrocytes) in cortex and hippocampus. Key Results: Regardless of genotype, quetiapine significantly reduced TTR, MBP, CTR1 mRNA, and serum copper levels. Neurological function of untreated KO mice was abnormal, and ledge instability was rescued with quetiapine. KO mice were hyperactive after 10 min in the open-field assay, which was not affected by treatment. Conclusions and Implications: Dysbindin-1 KO results in hyperactivity, altered serum copper, and neurological impairment, the last of which is selectively rescued with quetiapine. Antipsychotic treatment modulates specific cellular populations, affecting myelin, the choroid plexus, and copper transport across the blood brain barrier. Together these results indicate the widespread impact of antipsychotic treatment, and that alteration of dysbindin-1 may be sufficient, but not necessary, for specific schizophrenia pathology.
Original language | English |
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Pages (from-to) | 339-349 |
Number of pages | 11 |
Journal | Brain Research Bulletin |
Volume | 164 |
DOIs | |
State | Published - Nov 2020 |
Externally published | Yes |
Funding
The current study was supported by NINDS F99NS105208 to Dr. Kirsten E Schoonover, and NIMH R21117434 to Dr. Rosalinda C Roberts. This work was also supported in part by NIH R56MH111459 to Dr. Victor Faundez. The Engineered Model Systems Core Facility was supported by awards NIH P30 CA13148 , P30 AR048311 , P30 DK074038 , P30 DK05336 , and P60 DK079626 . Behavioral studies were completed in part thanks to the Evelyn F. McKnight Brain Institute Behavioral Assessment Core at the University of Alabama at Birmingham. Also special thanks to Ivis Chapel for conducting a portion of the brain and blood copper assessment. The current study was supported by NINDSF99NS105208 to Dr. Kirsten E Schoonover, and NIMHR21117434 to Dr. Rosalinda C Roberts. This work was also supported in part by NIHR56MH111459 to Dr. Victor Faundez. The Engineered Model Systems Core Facility was supported by awards NIH P30 CA13148, P30 AR048311, P30 DK074038, P30 DK05336, and P60 DK079626. Behavioral studies were completed in part thanks to the Evelyn F. McKnight Brain Institute Behavioral Assessment Core at the University of Alabama at Birmingham. Also special thanks to Ivis Chapel for conducting a portion of the brain and blood copper assessment.
Funders | Funder number |
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NIHR56MH111459 | |
National Institutes of Health | P30 AR048311, P30 DK05336, P30 DK074038, P60 DK079626, P30 CA13148 |
National Institute of Mental Health | R56MH111459, R21117434 |
National Institute of Neurological Disorders and Stroke | F99NS105208 |
Keywords
- ATP7A
- CTR1
- Copper
- Dysbindin
- Quetiapine
- Schizophrenia
- Seroquel