Kinesin-1 trans-synaptically regulates synaptic localization of SARM1 for asymmetric neuron diversification

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The study investigates how C. elegans AWC olfactory neurons stochastically diversify into AWCOFF and AWCON subtypes, focusing on trafficking of a calcium signaling complex built from the TIR-1/SARM1 adaptor system. Using mutant analyses and overexpression, the authors find that UNC-116/kinesin-1 has a non-cell-autonomous role in AWCON that promotes AWCOFF, with unc-116 mutants enhancing the 2AWCON phenotype of a hypomorphic tir-1 mutant and unc-116 overexpression producing a 2AWCOFF phenotype similar to tir-1 overexpression; UNC-116 regulates dynamic trafficking of TIR-1 along the axon. UNC-116 is reported to colocalize with UNC-104/kinesin-3 and to be generally adjacent to TIR-1, suggesting cooperative transport of presynaptic factor(s) that act trans-synaptically to position TIR-1/SARM1 signaling at postsynaptic regions. The paper does not explicitly discuss endometriosis or adenomyosis; it was included in the corpus via a keyword match in the upstream search index.

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Abstract

The Caenorhabditis elegans AWC olfactory neuron pair differentiates stochastically into two distinct subtypes, default AWC OFF and induced AWC ON . A calcium signaling complex assembled by the TIR-1/SARM1 adaptor protein is transported from the AWC cell body to the axons, where it cell autonomously specifies the AWC OFF subtype through lateral signaling. UNC-104, the C. elegans homolog of the kinesin-3 motor protein KIF1A, acts non-cell autonomously in AWC ON to control the synaptic localization of the TIR-1 signaling complex in promoting AWC OFF . Here, we identify a non-cell-autonomous role of unc-116/kinesin-1 , similar to that of unc-104/kinesin-3 , in promoting AWC OFF . unc-116 mutants, similar to unc-104 mutants, enhance the 2AWC ON phenotype of a hypomorphic tir-1 mutant. Overexpression of unc-116 in AWC causes a 2AWC OFF phenotype, the same as the tir-1 overexpression phenotype. Like UNC-104, UNC-116 plays a non-cell-autonomous role in the AWC ON cell to promote AWC OFF cell subtype by regulating the dynamic trafficking of TIR-1 along the AWC axon. UNC-116 is strikingly colocalized with UNC-104, while both are generally adjacent to TIR-1. Taken together, these results suggest a model in which UNC-116/kinesin-1 and UNC-104/kinesin-3 may work cooperatively to transport some unknown presynaptic factor(s) in the future AWC ON cell that trans-synaptically regulates the dynamic trafficking of the TIR-1/SARM1 signaling complex to postsynaptic regions of the AWC axons in promoting the AWC OFF subtype.
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Abstract The Caenorhabditis elegans AWC olfactory neuron pair differentiates stochastically into two distinct subtypes, default AWCOFF and induced AWCON. A calcium signaling complex assembled by the TIR-1/SARM1 adaptor protein is transported from the AWC cell body to the axons, where it cell autonomously specifies the AWCOFF subtype through lateral signaling. UNC-104, the C. elegans homolog of the kinesin-3 motor protein KIF1A, acts non-cell autonomously in AWCON to control the synaptic localization of the TIR-1 signaling complex in promoting AWCOFF. Here, we identify a non-cell-autonomous role of unc-116/kinesin-1, similar to that of unc-104/kinesin-3, in promoting AWCOFF. unc-116 mutants, similar to unc-104 mutants, enhance the 2AWCON phenotype of a hypomorphic tir-1 mutant. Overexpression of unc-116 in AWC causes a 2AWCOFF phenotype, the same as the tir-1 overexpression phenotype. Like UNC-104, UNC-116 plays a non-cell-autonomous role in the AWCON cell to promote AWCOFF cell subtype by regulating the dynamic trafficking of TIR-1 along the AWC axon. UNC-116 is strikingly colocalized with UNC-104, while both are generally adjacent to TIR-1. Taken together, these results suggest a model in which UNC-116/kinesin-1 and UNC-104/kinesin-3 may work cooperatively to transport some unknown presynaptic factor(s) in the future AWCON cell that trans-synaptically regulates the dynamic trafficking of the TIR-1/SARM1 signaling complex to postsynaptic regions of the AWC axons in promoting the AWCOFF subtype. Competing Interest Statement The authors have declared no competing interest.

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