Abstract
ABSTRACTDespite numerous studies of auditory cortical processing in the ferret (Mustela putorius), very little is known about the connections between the different regions of the auditory cortex that have been characterized cytoarchitectonically and physiologically. We examined the distribution of retrograde and anterograde labeling after injecting tracers into one or more regions of ferret auditory cortex. Injections of different tracers at frequency‐matched locations in the core areas, the primary auditory cortex (A1) and anterior auditory field (AAF), of the same animal revealed the presence of reciprocal connections with overlapping projections to and from discrete regions within the posterior pseudosylvian and suprasylvian fields (PPF and PSF), suggesting that these connections are frequency specific. In contrast, projections from the primary areas to the anterior dorsal field (ADF) on the anterior ectosylvian gyrus were scattered and non‐overlapping, consistent with the non‐tonotopic organization of this field. The relative strength of the projections originating in each of the primary fields differed, with A1 predominantly targeting the posterior bank fields PPF and PSF, which in turn project to the ventral posterior field, whereas AAF projects more heavily to the ADF, which then projects to the anteroventral field and the pseudosylvian sulcal cortex. These findings suggest that parallel anterior and posterior processing networks may exist, although the connections between different areas often overlap and interactions were present at all levels. J. Comp. Neurol. 523:2187–2210, 2015. © 2015 Wiley Periodicals, Inc.
Highlights
The ferret is one of the most widely used animal models for studying auditory cortical processing and plasticity
Because the physiologically identified areas differ in their sensitivity to spatial and nonspatial features of a sound source (Bizley and King, 2008; Bizley et al, 2009; Bizley et al, 2010), an open question is the extent to which they represent different processing pathways, and how these areas relate to cortical fields in other species
In three animals we placed multiple tracer injections into frequency-matched areas of the MEG. This allowed us to directly compare the projection patterns of the A1 and anterior auditory field (AAF) and explore to what extent projections from the MEG were frequency-specific in nature
Summary
The ferret is one of the most widely used animal models for studying auditory cortical processing and plasticity (reviewed by Nodal and King, 2014). By placing tracer deposits in the middle ectosylvian gyrus (MEG), previous studies have demonstrated the topography of the inputs from the medial geniculate nucleus (Pallas et al, 1990), and the presence of connections within and between this region and both the anterior and posterior parts of the gyrus
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