4.5 Article

Kalirin as a Novel Treatment Target for Cognitive Dysfunction in Schizophrenia

Journal

CNS DRUGS
Volume 36, Issue 1, Pages 1-16

Publisher

ADIS INT LTD
DOI: 10.1007/s40263-021-00884-z

Keywords

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Funding

  1. NIHR Oxford Health Biomedical Research Centre
  2. Biogen
  3. Boehringer Ingelheim via the Psychiatry Consortium of the cines Discovery Catapult
  4. Alzheimer's Research UK
  5. National Institute for Health Research Oxford Health Biomedical Research Centre

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The study examines the role of kalirin in brain function and its therapeutic potential in schizophrenia, focusing on its regulation of synapse formation and stabilization. The need for further understanding of the diversity and function of its isoforms is highlighted, along with their changes across neurodevelopment and effects on brain function in vivo.
The cognitive dysfunction experienced by patients with schizophrenia represents a major unmet clinical need. We believe that enhancing synaptic function and plasticity by targeting kalirin may provide a novel means to remediate these symptoms. Karilin (a protein encoded by the KALRN gene) has multiple functional domains, including two Dbl homology (DH) guanine exchange factor (GEF) domains, which act to enhance the activity of the Rho family guanosine triphosphate (GTP)-ases. Here, we provide an overview of kalirin's roles in brain function and its therapeutic potential in schizophrenia. We outline how it mediates diverse effects via a suite of distinct isoforms that couple to members of the Rho GTPase family to regulate synapse formation and stabilisation, and how genomic and post-mortem data implicate it in schizophrenia. We then review the current state of knowledge about the influence of kalirin on brain function at a systems level, based largely on evidence from transgenic mouse models, which support its proposed role in regulating dendritic spine function and plasticity. We demonstrate that, whilst the GTPases are classically considered to be 'undruggable', targeting kalirin and other Rho GEFs provides a means to indirectly modulate their activity. Finally, we integrate across the information presented to assess the therapeutic potential of kalirin for schizophrenia and highlight the key outstanding questions required to advance it in this capacity; namely, the need for more information about the diversity and function of its isoforms, how these change across neurodevelopment, and how they affect brain function in vivo.

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