The role of anatomical connection strength for interareal communication in macaque cortex

Vezoli, Julien; Vinck, Martin; Ca, Bosman; Am, Bastos; Cm, Lewis; Kennedy, Henry

doi:10.1101/2020.12.15.422902

Cited by 3 publications

(6 citation statements)

References 135 publications

(214 reference statements)

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“…Previous work has shown correlations between functional and anatomical connectivity. Consistent with SSM model predictions, anatomical connection strength is linearly correlated with LFP coherence/Granger causality across brain areas in beta and gamma bands (Vezoli et al, 2020). Feedforward and feedback Granger causality in gamma and beta frequency bands correlate with the anatomical SLN measure (% of supragranular-labeled neurons) (Bastos et al, 2015).…”

Section: Inference Of Connectivity or Communication From Coherencesupporting

confidence: 67%

“…We first analyzed data from two macaque brain areas showing clear LFP beta-coherence during a visually cued delayed grasping task. During motor holding and working memory periods, parietal cortex contains a prominent source of beta oscillations ( Scherberger et al., 2005 ; Hagan et al., 2012 ; Murthy and Fetz, 1996 ; Donoghue et al., 1998 ), with strong Granger-causality influences toward visual and frontal areas ( Brovelli et al., 2004 ; Bastos et al., 2015 ; Vezoli et al., 2020 ). These long-range interactions in the beta band are thought to play a role in working memory, attention, and predictive processing ( Salazar et al., 2012 ; Buschman and Miller, 2007 ; Bastos et al., 2015 ; Roelfsema et al., 1997 ; Brovelli et al., 2004 ).…”

Section: Resultsmentioning

confidence: 99%

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A mechanism for inter-areal coherence through communication based on connectivity and oscillatory power

Schneider

Broggini

Dann

et al. 2021

Neuron

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120

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A mechanism for inter-areal coherence through communication based on connectivity and oscillatory power Highlights d Synaptic projections from a sending to a receiving area explain long-range coherence d Inter-areal coherence can be predicted by power and connectivity d Power explains major changes in long-range coherence across behavioral states d Coherence emerges without spiking entrainment due to afferent synaptic inputs

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Section: Inference Of Connectivity or Communication From Coherencesupporting

confidence: 67%

Section: Resultsmentioning

confidence: 99%

A mechanism for inter-areal coherence through communication based on connectivity and oscillatory power

Schneider

Broggini

Dann

et al. 2021

Neuron

Self Cite

120

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show abstract

“…The laminar profile of axon terminals has been used to infer hierarchical relationships between connected areas [31][32][33][34] . To investigate this issue in our data, we classified the laminar patterns of columnar patches by hierarchical clustering (Fig.…”

Section: Columnar and Diffuse Projections Have Different Laminar Prof...mentioning

confidence: 99%

Local and long-distance organization of prefrontal cortex circuits in the marmoset brain

Watakabe

Skibbe

Nakae

et al. 2021

Preprint

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The primate prefrontal cortex (PFC) has greatly expanded to evolve specialized architecture, but its roles in top-down brain control remain enigmatic. Based on connectomics mapping of the marmoset PFC, we characterized two contrasting features of corticocortical and corticostriatal projections. One is the "focalness" of projections, exemplified by multiple columnar axonal terminations in the cortical layers and the other is the "widespreadness" of weaker projections, whose patterns consisted of several common motifs representing the framework of PFC connectivity. We clarified the topographic rules of distribution for these features, which should constrain how PFC neurons can coordinate to control the target regions as populations. These features are observed only primitively in rodents and are considered critical in understanding the roles of the PFC in neuropsychiatric disorders.

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“…First, modeled neuronal population parameters are drawn from the same distributions with activity in the gamma band range (Figure 1). The activity of cortical areas in mice occurs in multiple frequency ranges [63,64] and the relationship between structural and functional connectivity depends on the frequency [27]. A second limitation is that we do not model changes in network states, which are known to influence functional connectivity [65].…”

Section: Discussionmentioning

confidence: 99%

“…was measured as the ratio of the number of labeled neurons in a source area to the total quantity of labeled neurons in all source areas, where labeled neurons considered are extrinsic to the injected area [25,26,27]. We defined the edge measure FLN ij as the number of neurons projecting from area j to area i, divided by the number of neurons projecting to area i from all the areas except i [28,29].…”

Section: Mouse Large-scale Cortical Networkmentioning

confidence: 99%

Directed Functional and Structural Connectivity in a Large-Scale Model for the Mouse Cortex

Nunes

Reyes

Mejías

et al. 2021

Preprint

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Inferring the structural connectivity from electrophysiological measurements is a fundamental challenge in systems neuroscience. Directed functional connectivity measures, such as the Generalized Partial Directed Correlation (GPDC), provide estimates of the causal influence between areas. However, such methods have a limitation because their estimates depend on the number of brain regions simultaneously recorded. We analyzed this problem by evaluating the effectiveness of GPDC to estimate the connectivity of a ground-truth, data-constrained computational model of a large-scale mouse cortical network. The model contains 19 cortical areas modeled using spiking neural populations, and directed weights for long-range projections were obtained from a tract-tracing cortical connectome. We show that the GPDC estimates correlate positively with structural connectivity. Moreover, the correlation between structural and directed functional connectivity is comparable even when using only a few cortical areas for GPDC estimation, a typical scenario for electro-physiological recordings. Finally, GPDC measures also provided a measure of the flow of information among cortical areas.

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The role of anatomical connection strength for interareal communication in macaque cortex

Cited by 3 publications

References 135 publications

A mechanism for inter-areal coherence through communication based on connectivity and oscillatory power

A mechanism for inter-areal coherence through communication based on connectivity and oscillatory power

Local and long-distance organization of prefrontal cortex circuits in the marmoset brain

Directed Functional and Structural Connectivity in a Large-Scale Model for the Mouse Cortex

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