1. Reelin differentially shapes dendrite morphology of medial entorhinal cortical ocean and island cells.
- Author
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Hamad MIK, Daoud S, Petrova P, Rabaya O, Jbara A, Al Houqani S, BaniYas S, Alblooshi M, Almheiri A, Nakhal MM, Ali BR, Shehab S, Allouh MZ, Emerald BS, Schneider-Lódi M, Bataineh MF, Herz J, and Förster E
- Subjects
- Animals, Mice, Interneurons metabolism, Neurons metabolism, Calcium Signaling, Reelin Protein, Entorhinal Cortex metabolism, Dendrites metabolism, Cell Adhesion Molecules, Neuronal metabolism, Cell Adhesion Molecules, Neuronal genetics, Serine Endopeptidases metabolism, Serine Endopeptidases genetics, Nerve Tissue Proteins metabolism, Nerve Tissue Proteins genetics, Extracellular Matrix Proteins metabolism, Extracellular Matrix Proteins genetics, Mice, Knockout
- Abstract
The function of medial entorhinal cortex layer II (MECII) excitatory neurons has been recently explored. MECII dysfunction underlies deficits in spatial navigation and working memory. MECII neurons comprise two major excitatory neuronal populations, pyramidal island and stellate ocean cells, in addition to the inhibitory interneurons. Ocean cells express reelin and surround clusters of island cells that lack reelin expression. The influence of reelin expression by ocean cells and interneurons on their own morphological differentiation and that of MECII island cells has remained unknown. To address this, we used a conditional reelin knockout (RelncKO) mouse to induce reelin deficiency postnatally in vitro and in vivo. Reelin deficiency caused dendritic hypertrophy of ocean cells, interneurons and only proximal dendritic compartments of island cells. Ca2+ recording showed that both cell types exhibited an elevation of calcium frequencies in RelncKO, indicating that the hypertrophic effect is related to excessive Ca2+ signalling. Moreover, pharmacological receptor blockade in RelncKO mouse revealed malfunctioning of GABAB, NMDA and AMPA receptors. Collectively, this study emphasizes the significance of reelin in neuronal growth, and its absence results in dendrite hypertrophy of MECII neurons., Competing Interests: Competing interests The authors declare no competing or financial interests., (© 2024. Published by The Company of Biologists Ltd.)
- Published
- 2024
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