5 research outputs found
Recommended from our members
Multispectral labeling technique to map many neighboring axonal projections in the same tissue
We describe a method to map the location of axonal arbors of many individual neurons simultaneously based on the spectral properties of retrogradely transported dyelabeled vesicles. We inject overlapping regions of an axon target area with three or more different colored retrograde tracers. Based on the combinations and intensities of the colors in the individual vesicles transported to neuronal somata we calculate the projection sites of each neuron’s axon.This neuronal positioning system (NPS) enables mapping of many axons in a simple automated way. NPS combined with spectral (Brainbow) labeling of the input to autonomic ganglion cells show that the locations of ganglion cell projections to a mouse salivary gland relate to the identities of their preganglionic axonal innervation. We also show that NPS can delineate projections of many axons simultaneously in the mouse CNS.Molecular and Cellular Biolog
Recommended from our members
Activity-dependent silencing reveals functionally distinct itch-generating sensory neurons
The peripheral terminals of primary sensory neurons detect histamine and non-histamine itch-provoking ligands through molecularly distinct transduction mechanisms. It remains unclear, however, whether these distinct pruritogens activate the same or different afferent fibers. We utilized a strategy of reversibly silencing specific subsets of murine pruritogen-sensitive sensory axons by targeted delivery of a charged sodium-channel blocker and found that functional blockade of histamine itch did not affect the itch evoked by chloroquine or SLIGRL-NH2, and vice versa. Notably, blocking itch-generating fibers did not reduce pain-associated behavior. However, silencing TRPV1+ or TRPA1+ neurons allowed AITC or capsaicin respectively to evoke itch, implying that certain peripheral afferents may normally indirectly inhibit algogens from eliciting itch. These findings support the presence of functionally distinct sets of itch-generating neurons and suggest that targeted silencing of activated sensory fibers may represent a clinically useful anti-pruritic therapeutic approach for histaminergic and non-histaminergic pruritus