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INPP5K and Atlastin-1 maintain the nonuniform distribution of ER–plasma membrane contacts in neurons

Jingbo Sun, Raihanah Harion, Tomoki Naito, Yasunori Saheki

2021Life Science Alliance15 citationsDOIOpen Access PDF

Abstract

In neurons, the ER extends throughout all cellular processes, forming multiple contacts with the plasma membrane (PM) to fine-tune neuronal physiology. However, the mechanisms that regulate the distribution of neuronal ER-PM contacts are not known. Here, we used the Caenorhabditis elegans DA9 motor neuron as our model system and found that neuronal ER-PM contacts are enriched in soma and dendrite and mostly absent in axons. Using forward genetic screen, we identified that the inositol 5-phosphatase, CIL-1 (human INPP5K), and the dynamin-like GTPase, ATLN-1 (human Atlastin-1), help to maintain the non-uniform, somatodendritic enrichment of neuronal ER-PM contacts. Mechanistically, CIL-1 acts upstream of ATLN-1 to maintain the balance between ER tubules and sheets. In mutants of CIL-1 or ATLN-1, ER sheets expand and invade into the axon. This is accompanied by the ectopic formation of axonal ER-PM contacts and defects in axon regeneration following laser-induced axotomy. As INPP5K and Atlastin-1 have been linked to neurological disorders, the unique distribution of neuronal ER-PM contacts maintained by these proteins may support neuronal resilience during the onset and progression of these diseases.

Topics & Concepts

SomaAxonCell biologyBiologyGTPaseGrowth coneAxotomyNeuroscienceAxon terminalRegeneration (biology)Genetics, Aging, and Longevity in Model OrganismsCellular transport and secretionEndoplasmic Reticulum Stress and Disease
INPP5K and Atlastin-1 maintain the nonuniform distribution of ER–plasma membrane contacts in neurons | Litcius