AI Article Synopsis

  • - Precise synapse formation between retinal photoreceptors and bipolar cells is crucial for nervous system function, relying on complex molecular interactions mediated by proteins like pikachurin and components such as dystroglycan and GPR179.
  • - Mutations in these proteins can lead to serious vision disorders, highlighting the importance of this synaptic organization for healthy retinal function.
  • - The study utilized advanced techniques like x-ray crystallography and cryo-electron microscopy to reveal the structures of pikachurin and its complex with GPR179, shedding light on their role in synaptic alignment and signaling.

Article Abstract

Precise synapse formation is essential for normal functioning of the nervous system. Retinal photoreceptors establish selective contacts with bipolar cells, aligning the neurotransmitter release apparatus with postsynaptic signaling cascades. This involves transsynaptic assembly between the dystroglycan-dystrophin complex on the photoreceptor and the orphan receptor GPR179 on the bipolar cell, which is mediated by the extracellular matrix protein pikachurin (also known as EGFLAM). This complex plays a critical role in the synaptic organization of photoreceptors and signal transmission, and mutations affecting its components cause blinding disorders in humans. Here, we investigated the structural organization and molecular mechanisms by which pikachurin orchestrates transsynaptic assembly and solved structures of the human pikachurin domains by x-ray crystallography and of the GPR179-pikachurin complex by single-particle, cryo-electron microscopy. The structures reveal molecular recognition principles of pikachurin by the Cache domains of GPR179 and show how the interaction is involved in the transsynaptic alignment of the signaling machinery. Together, these data provide a structural basis for understanding the synaptic organization of photoreceptors and ocular pathology.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10561654PMC
http://dx.doi.org/10.1126/scisignal.add9539DOI Listing

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