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Mice require proprioception to establish long-term visuospatial memory.

Olivia Rutler, Serena Persaud, Stylianos Kosmidis

    Biorxiv : the Preprint Server for Biology
    |October 24, 2023
    PubMed
    Summary
    This summary is machine-generated.

    The brain transforms visual signals for accurate spatial perception. Proprioception, like the hippocampus, is crucial for mice to form gaze-independent spatial memories, essential for navigation.

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    Area of Science:

    • Neuroscience
    • Visuospatial Cognition
    • Sensory Integration

    Background:

    • The brain processes constantly shifting retinal input to create accurate spatial representations for perception and action.
    • The hippocampus is known to form gaze-independent, long-term visuospatial memories, crucial for navigation, as demonstrated by deficits in the Morris Water Maze (MWM) following hippocampal lesions.
    • Rats with hippocampal lesions struggle with MWM tasks relying on visual cues, highlighting the hippocampus's role in spatial memory.

    Approach:

    • Investigated the role of proprioception in the dysgranular zone of the primary somatosensory cortex in spatial learning in mice.
    • Utilized the Morris Water Maze (MWM) to assess spatial learning and memory formation.
    • Assessed for motor and vestibular deficits to ensure observed effects were specific to spatial memory.

    Key Points:

    • Proprioception, the sense of self-movement and body position, is critical for mice to learn the location of a hidden platform in the MWM.
    • Lesions or impairments in proprioceptive representation in the somatosensory cortex disrupt the formation of long-term, gaze-independent visuospatial memories.
    • Mice can still locate a visible platform, indicating that the deficit is specific to spatial memory formation, not general vision or motor control.

    Conclusions:

    • The primary somatosensory cortex's representation of proprioception is as vital as the hippocampus for creating gaze-independent visuospatial representations necessary for navigation.
    • This finding suggests that integrating proprioceptive information is a fundamental mechanism for building stable spatial maps of the environment.
    • Effective visuospatial cognition relies on the coordinated function of both hippocampal and somatosensory systems.