This title appears in the Scientific Report : 2015 
Receptor architecture of visual areas in the face and word-form recognition region of the posterior fusiform gyrus
Caspers, Julian
Palomero-Gallagher, Nicola / Caspers, Svenja / Schleicher, Axel / Amunts, Katrin / Zilles, Karl (Corresponding Author)
Strukturelle und funktionelle Organisation des Gehirns; INM-1
JARA-BRAIN; JARA-BRAIN
Brain structure & function, 220 (2015) 1, S. 205 - 219
Berlin Springer 2015
24126835
10.1007/s00429-013-0646-z
Journal Article
Helmholtz Alliance for Mental Health in an Ageing Society
The Human Brain Project
Helmholtz Alliance on Systems Biology
Connectivity and Activity
Please use the identifier: http://dx.doi.org/10.1007/s00429-013-0646-z in citations.


Recently, two extrastriate visual areas on the posterior fusiform gyrus, areas FG1 and FG2, were identified based on cytoarchitectonical criteria (Caspers et al. in Brain Struct Funct 218:511–526, 2013a). They are located within the object-related ventral visual stream at the transition between early and higher-order (category-specific) visual areas. FG2 has a topographical position which is best comparable to the face or visual word-form recognition area. However, the precise function of FG2 is presently unknown. Since transmitter receptors are key molecules of neurotransmission, we analysed the regional and laminar distribution of 15 different receptor binding sites by means of quantitative in vitro receptor autoradiography. Significant differences between receptor densities of both areas were found for NMDA, GABAB, M3, nicotinic α4/β2 and 5-HT1A receptors as well as for GABAA associated benzodiazepine binding sites. These results support the cytoarchitectonic segregation of FG1 and FG2 into two distinct cortical areas. In addition, principal component and hierarchical cluster analyses of the multireceptor data of both fusiform areas and 24 visual, auditory, somatosensory and multimodal association areas not only revealed the typical receptor architectonic characteristics of visual areas for FG1 and FG2, but also suggest their putative function as object recognition regions due to the similarity of their receptor fingerprints with those of areas of the ventral visual stream. Furthermore, FG1 and FG2 build a cluster with the multimodal association areas of the inferior parietal lobule. This underlines their hierarchically high position in the visual system of the human cerebral cortex.