Contactin 4: Difference between revisions

Contactin 4 (CNTN4), also known as BIG-2, is a protein that in humans is encoded by the CNTN4 gene. This gene is a member of the contactin family, a subset of the immunoglobulin superfamily involved in the development of the nervous system. The contactins are known for their role in the formation of axonal connections and synaptic organization, making them crucial for proper brain function and neural network formation.

Function[edit]

Contactin 4 plays a significant role in the nervous system's development and function. It is involved in the mediation of cell-cell interactions, particularly in the brain, contributing to the formation of neural networks and synaptic connections. CNTN4 is thought to influence the growth and guidance of axons, the long threadlike parts of a nerve cell along which impulses are conducted. This protein's interaction with other cellular components is essential for the brain's wiring and for maintaining the plasticity of neural circuits, which allows for learning and memory.

Genetic Aspects[edit]

The CNTN4 gene is located on chromosome 3 in humans. Variations or mutations in this gene have been associated with neurodevelopmental disorders, including autism spectrum disorders (ASD) and intellectual disabilities. Studies suggest that disruptions in the normal function or expression of CNTN4 can lead to alterations in neural connectivity and brain architecture, contributing to the pathophysiology of these conditions.

Clinical Significance[edit]

Given its role in neural development and connectivity, CNTN4 is of significant interest in the study of neurodevelopmental disorders. Research indicates that abnormalities in the expression or function of contactin 4 can lead to a variety of neurological and developmental conditions. This has made CNTN4 a potential biomarker for certain disorders and a target for therapeutic interventions aimed at modulating neural connections and improving cognitive and behavioral outcomes in affected individuals.

Research Directions[edit]

Ongoing research is focused on elucidating the precise mechanisms by which CNTN4 influences neural development and connectivity. Studies are also exploring the potential of targeting CNTN4-related pathways for the treatment of neurodevelopmental disorders. This includes the development of pharmacological agents that can modulate the activity of contactin 4 or its interactions with other proteins, with the aim of restoring normal neural function and connectivity.

See Also[edit]

• Neurodevelopmental disorder
• Autism spectrum disorder
• Intellectual disability
• Axon guidance
• Synaptic plasticity

References[edit]

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