HBP researchers shed new light on human brain organisation

Surface of a human brain with analyses areas highlighted in different colors: visual system (purple line), auditory (orange) and motor area (dark grey), and the somatosensory area (green line)

Specific cellular, molecular and gene expression patterns in brain areas are linked to function, but their precise relationships remain largely unknown. New research by scientists at INM-, which was carried out within the Human Brain Project (HBP), shed light on these relationships and enable a more comprehensive understanding of human brain organisation.

The team of researchers conducted a study that targeted three levels of cortical organisation: cytoarchitecture, neurotransmitter receptor architecture and neurotransmitter receptor gene expression. The study elucidates principles of human brain organisation across the visual, auditory, somatosensory and motor functional systems, going beyond the simplified view of a ‘mosaic’ of areas forming the neocortex. The results were published in the journal Neuroimage.

To reveal the different properties of functional systems and how brain areas within a functional system differ with respect to the processing hierarchy, from primary to higher associative, the team analysed cytoarchitectonic and receptorarchitectonic data of the Julich Brain Atlas – a three-dimensional multimodal atlas of the human brain available on the EBRAINS research infrastructure – and compared the data with transcriptomic data from the Allen Human Brain Atlas.

An overview of the different aspects of microanatomy that were compared (from left to right): Maps of Gene expression, cellular architecture and distribution of receptor molecules

“Bridging the gaps between different levels of brain organisation is one of the biggest challenges in neuroscience today. In the Julich Brain Atlas we can do it systematically. It integrates the data and is an invaluable tool,” says Daniel Zachlod, first author of the study.

The researchers investigated the relationship of neurotransmitter receptor densities with their corresponding genes in 15 cytoarchitectonic areas of the visual, auditory, somatosensory and motor systems. They analysed differential gene expression within brain areas of each of those functional systems.

“We found that the receptor architecture and gene expression patterns within a functional system change in a systematic way, in correspondence to increasing complexity of information processing,” explains INM-1 Director and HBP Scientific Director Katrin Amunts, who is the last author of the study.

The study demonstrates a method to unravel structure-function relationships by using the multilevel Julich-Brain Atlas to bridge the different scales of brain organisation.

Previous studies had already indicated the relevancy of receptor gene expression for the functional differentiation of the brain in rodents, but data on the human brain is much sparser and more fragmented. The authors of the present study argue that it is mandatory to extend such studies to the human brain in order to better understand the healthy brain as well as pathogenesis of brain disorders with alterations in neurotransmitter systems.

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Institute of Neuroscience and Medicine (INM-1)
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Original Publication

Daniel Zachlod, Sebastian Bludau, Sven Cichon, Nicola Palomero-Gallagher & Katrin Amunts: Combined analysis of cytoarchitectonic, molecular and transcriptomic patterns reveal differences in brain organization across human functional brain systems. Neuroimage 2022 Aug 15;257:119286.