Dopamine D1-Receptor Organization Contributes to Functional Brain Architecture

Recent work has recognized a gradient-like organization in cortical function, spanning from primary sensory to transmodal cortices. It has been suggested that this axis is aligned with regional differences in neurotransmitter expression. Given the abundance of dopamine D1-receptors (D1DR), and its i...

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Veröffentlicht in:	The Journal of neuroscience 2024-03, Vol.44 (11), p.e0621232024
Hauptverfasser:	Pedersen, Robin, Johansson, Jarkko, Nordin, Kristin, Rieckmann, Anna, Wåhlin, Anders, Nyberg, Lars, Bäckman, Lars, Salami, Alireza
Format:	Artikel
Sprache:	eng
Schlagworte:	architecture Brain Brain architecture Couplings Crosstalk Dopamine Dopamine D1 receptors Female functional connectivity Functional morphology gradients Humans Magnetic Resonance Imaging - methods Male Neural networks organization Positron emission Receptors
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container_title	The Journal of neuroscience
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creator	Pedersen, Robin Johansson, Jarkko Nordin, Kristin Rieckmann, Anna Wåhlin, Anders Nyberg, Lars Bäckman, Lars Salami, Alireza
description	Recent work has recognized a gradient-like organization in cortical function, spanning from primary sensory to transmodal cortices. It has been suggested that this axis is aligned with regional differences in neurotransmitter expression. Given the abundance of dopamine D1-receptors (D1DR), and its importance for modulation and neural gain, we tested the hypothesis that D1DR organization is aligned with functional architecture, and that inter-regional relationships in D1DR co-expression modulate functional cross talk. Using the world's largest dopamine D1DR-PET and MRI database ( = 180%, 50% female), we demonstrate that D1DR organization follows a unimodal-transmodal hierarchy, expressing a high spatial correspondence to the principal gradient of functional connectivity. We also demonstrate that individual differences in D1DR density between unimodal and transmodal regions are associated with functional differentiation of the apices in the cortical hierarchy. Finally, we show that spatial co-expression of D1DR primarily modulates couplings within, but not between, functional networks. Together, our results show that D1DR co-expression provides a biomolecular layer to the functional organization of the brain.
doi_str_mv	10.1523/JNEUROSCI.0621-23.2024
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subjects	architecture Brain Brain architecture Couplings Crosstalk Dopamine Dopamine D1 receptors Female functional connectivity Functional morphology gradients Humans Magnetic Resonance Imaging - methods Male Neural networks organization Positron emission Receptors
title	Dopamine D1-Receptor Organization Contributes to Functional Brain Architecture
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