Chakraborty_2024_Nat.Commun_15_8990

Reference

Title : Multimodal gradients of basal forebrain connectivity across the neocortex - Chakraborty_2024_Nat.Commun_15_8990
Author(s) : Chakraborty S , Haast RAM , Onuska KM , Kanel P , Prado MAM , Prado VF , Khan AR , Schmitz TW
Ref : Nat Commun , 15 :8990 , 2024
Abstract :

Cortical cholinergic projections originate from subregions of the basal forebrain (BF). To examine its organization in humans, we computed multimodal gradients of BF connectivity by combining 7 T diffusion and resting state functional MRI. Moving from anteromedial to posterolateral BF, we observe reduced tethering between structural and functional connectivity gradients, with the lowest tethering in the nucleus basalis of Meynert. In the neocortex, this gradient is expressed by progressively reduced tethering from unimodal sensory to transmodal cortex, with the lowest tethering in the midcingulo-insular network, and is also spatially correlated with the molecular concentration of VAChT, measured by [(18)F]fluoroethoxy-benzovesamicol (FEOBV) PET. In mice, viral tracing of BF cholinergic projections and [(18)F]FEOBV PET confirm a gradient of axonal arborization. Altogether, our findings reveal that BF cholinergic neurons vary in their branch complexity, with certain subpopulations exhibiting greater modularity and others greater diffusivity in the functional integration with their cortical targets.

PubMedSearch : Chakraborty_2024_Nat.Commun_15_8990
PubMedID: 39420185

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Citations formats

Chakraborty S, Haast RAM, Onuska KM, Kanel P, Prado MAM, Prado VF, Khan AR, Schmitz TW (2024)
Multimodal gradients of basal forebrain connectivity across the neocortex
Nat Commun 15 :8990

Chakraborty S, Haast RAM, Onuska KM, Kanel P, Prado MAM, Prado VF, Khan AR, Schmitz TW (2024)
Nat Commun 15 :8990