Large-scale Reconstructions and Independent, Unbiased Clustering Based on Morphological Metrics to Classify Neurons in Selective Populations

Bragg, Elise M.; Briggs, Farran

doi:10.3791/55133

Cited by 3 publications

(10 citation statements)

References 17 publications

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“…All the experimental methods involving the use of animals were described in detail in Section 2 and Supporting Information Appendix: Materials and Methods of Hasse and Briggs () and were approved by the Institutional Animal Care and Use Committee at Dartmouth. Detailed descriptions of the methods for stereotaxic injection of SAD‐B19 rabies virus into the LGN, tissue harvesting, sectioning, staining, and reconstruction of labeled neurons were also described in detail previously (Bragg & Briggs, ; Bragg, Fairless, Liu, & Briggs, ; Briggs et al, ).…”

Section: Methodsmentioning

confidence: 99%

“…Neurons infected with virus express fluorescent proteins throughout their dendritic arbors, enabling complete reconstruction of dendritic morphology (see Figure ). Virus‐mediated delivery of fluorescent markers causes widespread labeling of individual neurons, making it possible to reconstruct large numbers of neurons including rare neuronal types (Bragg & Briggs, ; Bragg et al, ; Briggs et al, ; Hasse & Briggs, ). This high‐throughput approach facilitates rigorous statistical analyses of distinct morphological subtypes within select neuronal populations.…”

Section: Methodsmentioning

confidence: 99%

“…We applied an independent cluster analysis algorithm using all of the independent morphological metrics exported from each of the 98 CG reconstructions as the input. Because the cluster analysis algorithm assumes each parameter is independent (Bragg & Briggs, ; Bragg et al, ; Cauli et al, ; Thorndike, ), we excluded number of endings because this metric is not independent of number of nodes. The 13 parameters included in the cluster analysis were cell body size, cell body roundness, number of nodes, proportion of basal dendrite in Layers 5, 6, and the white matter, proportion of apical dendrite in Layers 2/3, 4, 5, and 6, location of the cell body in Layer 6, height of the apical dendrite (tallest point on stellate neurons), and the angle of the apical dendrite.…”

Section: Methodsmentioning

confidence: 99%

“…We used the PCA scores as the input to the “fitgmdist” Matlab function to test each GMM using three different evaluations: negative log likelihood, Akaike information criterion, and Bayes information criterion. The GMM with the lowest criteria across the three evaluations indicates the optimal number of clusters (Bragg & Briggs, ).…”

Section: Methodsmentioning

confidence: 99%

“…Robust infection and expression of fluorescent markers cause labeling of thousands of neurons per animal and enables resolution of unusual and/or rare neuronal types, which may be missed with conventional retrograde tracing methods (Callaway & Luo, ). Additionally, fluorescent markers are expressed throughout the complete dendritic arborization of infected neurons, enabling accurate, complete, and high‐throughput reconstructions of dendritic morphology followed by rigorous statistical analysis of morphological variation (Bragg & Briggs, ; Briggs et al, ).…”

Section: Introductionmentioning

confidence: 99%

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Morphological heterogeneity among corticogeniculate neurons in ferrets: quantification and comparison with a previous report in macaque monkeys

Hasse

Bragg

Murphy

et al. 2018

J of Comparative Neurology

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The corticogeniculate (CG) pathway links the visual cortex with the lateral geniculate nucleus (LGN) of the thalamus and is the first feedback connection in the mammalian visual system. Whether functional connections between CG neurons and LGN relay neurons obey or ignore the separation of feedforward visual signals into parallel processing streams is not known. Accordingly, there is some debate about whether CG neurons are morphologically heterogeneous or homogenous. Here we characterized the morphology of CG neurons in the ferret, a visual carnivore with distinct feedforward parallel processing streams, and compared the morphology of ferret CG neurons with CG neuronal morphology previously described in macaque monkeys [Briggs et al. (2016) Neuron, 90, 388]. We used a G-deleted rabies virus as a retrograde tracer to label CG neurons in adult ferrets. We then reconstructed complete dendritic morphologies for a large sample of virus-labeled CG neurons. Quantification of CG morphology revealed three distinct CG neuronal subtypes with striking similarities to the CG neuronal subtypes observed in macaques. These findings suggest that CG neurons may be morphologically diverse in a variety of highly visual mammals in which feedforward visual pathways are organized into parallel processing streams. Accordingly, these results provide support for the notion that CG feedback is functionally parallel stream-specific in ferrets and macaques.

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Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Morphological heterogeneity among corticogeniculate neurons in ferrets: quantification and comparison with a previous report in macaque monkeys

Hasse

Bragg

Murphy

et al. 2018

J of Comparative Neurology

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Morphological evidence for multiple distinct channels of corticogeniculate feedback originating in mid-level extrastriate visual areas of the ferret

2021

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Parallel Streams of Direct Corticogeniculate Feedback from Mid-level Extrastriate Cortex in the Macaque Monkey

Adusei,

Callaway,

Usrey

et al. 2024

eNeuro

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First order thalamic nuclei receive feedforward signals from peripheral receptors and relay these signals to primary sensory cortex. Primary sensory cortex, in turn, provides reciprocal feedback to first order thalamus. Because the vast majority of sensory thalamocortical inputs target primary sensory cortex, their complementary corticothalamic neurons are assumed to be similarly restricted to primary sensory cortex. We upend this assumption by characterizing morphologically diverse neurons in multiple mid-level visual cortical areas of the primate (Macaca mulatta) brain that provide direct feedback to the primary visual thalamus, the dorsal lateral geniculate nucleus (LGN). Although the majority of geniculocortical neurons project to primary visual cortex (V1), a minority, located mainly in the koniocellular LGN layers, provide direct input to extrastriate visual cortex. These “V1-bypassing” projections may be implicated in blindsight. We hypothesized that geniculocortical inputs directly targeting extrastriate cortex should be complemented by reciprocal corticogeniculate circuits. Using virus-mediated circuit tracing, we discovered corticogeniculate neurons throughout three mid-level extrastriate areas: MT, MST, and V4. Quantitative morphological analyses revealed non-uniform distributions of unique cell types across areas. Many extrastriate corticogeniculate neurons had spiny stellate morphology, suggesting possible targeting of koniocellular LGN layers. Importantly though, multiple morphological types were observed across areas. Such morphological diversity could suggest parallel streams of V1-bypassing corticogeniculate feedback at multiple stages of the visual processing hierarchy. Furthermore, the presence of corticogeniculate neurons across visual cortex necessitates a reevaluation of the LGN as a hub for visual information rather than a simple relay.Significance StatementFirst order thalamic nuclei are most strongly connected in feedforward and feedback directions with primary sensory cortex. In the visual system, direct feedforward circuits link the visual thalamus with higher-order, extrastriate visual areas, although the function of these less-common pathways remains unknown. Here we demonstrate for the first time the presence of complementary direct feedback connections between multiple extrastriate visual cortical areas and the visual thalamus in the primate brain. Although sparse, extrastriate corticogeniculate circuits are consistently present and contain morphologically diverse neurons, suggesting parallel streams of extrastriate feedback. These findings indicate an evolutionary conservation of circuits that integrate information from throughout the visual processing hierarchy within the visual thalamus.

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Large-scale Reconstructions and Independent, Unbiased Clustering Based on Morphological Metrics to Classify Neurons in Selective Populations

Cited by 3 publications

References 17 publications

Morphological heterogeneity among corticogeniculate neurons in ferrets: quantification and comparison with a previous report in macaque monkeys

Morphological heterogeneity among corticogeniculate neurons in ferrets: quantification and comparison with a previous report in macaque monkeys

Morphological evidence for multiple distinct channels of corticogeniculate feedback originating in mid-level extrastriate visual areas of the ferret

Parallel Streams of Direct Corticogeniculate Feedback from Mid-level Extrastriate Cortex in the Macaque Monkey

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