AI Article Synopsis
- AcD neurons have a unique structure where the axon comes from a basal dendrite instead of the cell body, allowing for specific action potential generation in the axon initial segment (AIS).
- Research shows that this AcD morphology develops independently of synaptic connections and the surrounding environment, starting from a single precursor neurite.
- Although the AIS in AcD neurons has a similar structure and functions like that from other neurons, it displays differences in plasticity, organelle presence, and inhibitory input, highlighting the importance of axon origin in neuron function.
Article Abstract
In mammalian axon-carrying-dendrite (AcD) neurons, the axon emanates from a basal dendrite, instead of the soma, to create a privileged route for action potential generation at the axon initial segment (AIS). However, it is unclear how such unusual morphology is established and whether the structure and function of the AIS in AcD neurons are preserved. By using dissociated hippocampal cultures as a model, we show that the development of AcD morphology can occur prior to synaptogenesis and independently of the in vivo environment. A single precursor neurite first gives rise to the axon and then to the AcD. The AIS possesses a similar cytoskeletal architecture as the soma-derived AIS and similarly functions as a trafficking barrier to retain axon-specific molecular composition. However, it does not undergo homeostatic plasticity, contains lesser cisternal organelles, and receives fewer inhibitory inputs. Our findings reveal insights into AcD neuron biology and underscore AIS structural differences based on axon onset.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11536041 | PMC |
| http://dx.doi.org/10.1083/jcb.202403141 | DOI Listing |
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