AI Article Synopsis
- Autosomal recessive primary microcephaly (MCPH) is a rare disorder linked to intellectual disability and smaller head size at birth, primarily caused by mutations in the CDK5RAP2 gene.* -
- The study used two-dimensional gel electrophoresis to analyze protein changes in the cerebral cortices of Cdk5rap2 mutant mice, revealing over 30 proteins affected that are related to brain development processes.* -
- Findings highlight potential protein candidates that may contribute to the brain abnormalities seen in MCPH3, providing insight into the disorder's underlying mechanisms.*
Article Abstract
Background/aim: Autosomal recessive primary microcephaly (MCPH) is a rare and genetically heterogeneous group of disorders characterized by intellectual disability and microcephaly at birth, classically without further organ involvement. MCPH3 is caused by biallelic variants in the cyclin-dependent kinase 5 regulatory subunit-associated protein 2 gene CDK5RAP2. In the corresponding Cdk5rap2 mutant or Hertwig's anemia mouse model, congenital microcephaly as well as defects in the hematopoietic system, germ cells and eyes have been reported. The reduction in brain volume, particularly affecting gray matter, has been attributed mainly to disturbances in the proliferation and survival of early neuronal progenitors. In addition, defects in dendritic development and synaptogenesis exist that affect the excitation-inhibition balance. Here, we studied proteomic changes in cerebral cortices of Cdk5rap2 mutant mice.
Material And Methods: We used large-gel two-dimensional gel (2-DE) electrophoresis to separate cortical proteins. 2-DE gels were visualized by a trained observer on a light box. Spot changes were considered with respect to presence/absence, quantitative variation and altered mobility.
Result: We identified a reduction in more than 30 proteins that play a role in processes such as cell cytoskeleton dynamics, cell cycle progression, ciliary functions and apoptosis. These proteome changes in the MCPH3 model can be associated with various functional and morphological alterations of the developing brain.
Conclusion: Our results shed light on potential protein candidates for the disease-associated phenotype reported in MCPH3.
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| http://dx.doi.org/10.1111/ahg.12489 | DOI Listing |
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