A whole-brain connectivity map of mouse insular cortex

Gehrlach, Daniel August; Gaitanos, Thomas N.; Klein, Alexandra S.; Weiand, Caroline; Hennrich, Alexandru A; Conzelmann, Karl‐Klaus; Gogolla, Nadine

doi:10.1101/2020.02.10.941518

Cited by 39 publications

(65 citation statements)

References 54 publications

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“…16 , second row), ipsilateral thalamic VAL, and claustrum. Altogether, these data suggest that input sources to Cre- and target-defined MOp-ul neuron populations are similar, consistent with other recent findings that global input patterns are independent of starter cell type 47–49 . Nevertheless, axonal inputs to the MOp-ul arising from different cortical and thalamic regions display clear laminar preferences ( Extended data Fig.…”

Section: Resultssupporting

confidence: 91%

Cellular Anatomy of the Mouse Primary Motor Cortex

Muñoz-Castañeda

Zingg

Matho

et al. 2020

Preprint

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An essential step toward understanding brain function is to establish a cellular-resolution structural framework upon which multi-scale and multi-modal information spanning molecules, cells, circuits and systems can be integrated and interpreted. Here, through a collaborative effort from the Brain Initiative Cell Census Network (BICCN), we derive a comprehensive cell type-based description of one brain structure - the primary motor cortex upper limb area (MOp-ul) of the mouse. Applying state-of-the-art labeling, imaging, computational, and neuroinformatics tools, we delineated the MOp-ul within the Mouse Brain 3D Common Coordinate Framework (CCF). We defined over two dozen MOp-ul projection neuron (PN) types by their anterograde targets; the spatial distribution of their somata defines 11 cortical sublayers, a significant refinement of the classic notion of cortical laminar organization. We further combine multiple complementary tracing methods (classic tract tracing, cell type-based anterograde, retrograde, and transsynaptic viral tracing, high-throughput BARseq, and complete single cell reconstruction) to systematically chart cell type-based MOp input-output streams. As PNs link distant brain regions at synapses as well as host cellular gene expression, our construction of a PN type resolution MOp-ul wiring diagram will facilitate an integrated analysis of motor control circuitry across the molecular, cellular, and systems levels. This work further provides a roadmap towards a cellular resolution description of mammalian brain architecture.

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Section: Resultssupporting

confidence: 91%

Cellular Anatomy of the Mouse Primary Motor Cortex

Muñoz-Castañeda

Zingg

Matho

et al. 2020

Preprint

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“…We then analyzed the distribution of input cells, which were found in various brain regions: the medial orbital cortex (MO), the medial prefrontal cortex (mPFC), the insular cortex (Ai), the claustrum (Cl), the piriform cortex (Pir), the basal forebrain (BF), the cortex-amygdala transition (CxA), the midline thalamus (MT), the cortical amygdala (CoA), the entorhinal cortex (Ent), the perirhinal cortex (PRh), the ectorhinal cortex (Ect), the auditory cortex (AuC), the auditory thalamus (AuT), the ventral hippocampus (vHPC), the amygdala piriform transition (APir) and the ventral periaqueductal gray (vPAG) (Figure 5). Notably, RVdG virus infection occurs even in the absence of Cre recombinase activity due to leaky expression of TVA (Gehrlach et al, 2020;Miyamichi et al, 2013). Therefore, as a control experiment, we carried out the same experiments without injection of the retroAAV2-Cre virus to estimate the number of Cre-independent RVdG virus infections.…”

Section: Resultsmentioning

confidence: 99%

Brain‐wide mapping of presynaptic inputs to basolateral amygdala neurons

Morikawa

Katori

Takeuchi

et al. 2021

J of Comparative Neurology

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The basolateral amygdala (BLA), a region critical for emotional processing, is the limbic hub that is connected with various brain regions. BLA neurons are classified into different subtypes that exhibit differential projection patterns and mediate distinct emotional behaviors; however, little is known about their presynaptic input patterns.In this study, we employed projection-specific monosynaptic rabies virus tracing to identify the direct monosynaptic inputs to BLA subtypes. We found that each neuronal subtype receives long-range projection input from specific brain regions. In contrast to their specific axonal projection patterns, all BLA neuronal subtypes exhibited relatively similar input patterns. This anatomical organization supports the idea that the BLA is a central integrator that associates sensory information in different modalities with valence and sends associative information to behaviorally relevant brain regions.

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“…This selective role in memory consolidation of TFC is also supported by anatomical studies showing that the pIC is a candidate for the integration of viscerosensory inputs (Allen, 2020;Livneh et al, 2020) as well as for the convergence of both conditioned stimulus (CS, i.e., tone) and unconditioned Stimulus (US, i.e., footshock), resulting from multisensory afferences of thalamic nuclei, as well as from the lateral and basolateral nuclei of the amygdala (Gehrlach et al, 2020;McDonald & Jackson, 1987;Shi & Cassell, 1998a;. Although there seems to be a consensus in the literature that the IC is not necessary for the acquisition of fear conditioning -since manipulations before training have shown no effect (Brunzell & Kim, 2001;Gehrlach et al, 2019;Lanuza et al, 2004) -it is possible that the pIC is preferably recruited to consolidate and maintain the association between a discrete stimulus (i.e., tone) and the US, which would explain the selective effect observed with post-training inactivation of the pIC in our study.…”

Section: Discussionmentioning

confidence: 59%

“…Traditionally, two major IC subdivisions -an anterior (rostral, aIC) and a posterior (caudal, pIC) -have been described based on their thalamic and amygdalar connections (McDonald, 1998;McDonald et al, 1999;Nieuwenhuys, 2012;Shi & Cassell, 1998b, 1998avan der Kooy et al, 1984). Recently, a comprehensive viral tracing study in mice has also highlighted the existence of two IC clusters characterized by a markedly distinct connectivity profile along the antero-posterior IC axis (Gehrlach et al, 2020). The different cytoarchitectural and connectivity patterns of the aIC and pIC warrant further studies on a possible functional dissociation at the IC subregion level (Gehrlach et al, 2020;Gogolla, 2017).…”

Section: Introductionmentioning

confidence: 99%

“…Recently, a comprehensive viral tracing study in mice has also highlighted the existence of two IC clusters characterized by a markedly distinct connectivity profile along the antero-posterior IC axis (Gehrlach et al, 2020). The different cytoarchitectural and connectivity patterns of the aIC and pIC warrant further studies on a possible functional dissociation at the IC subregion level (Gehrlach et al, 2020;Gogolla, 2017). Some evidences suggest a functional heterogeneity of the IC regarding anxiety (Méndez-Ruette et al, 2019) and some memory processes, such as the acquisition of conditioned taste aversion and spatial memory (Nerad et al, 1996).…”

Section: Introductionmentioning

confidence: 99%

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The Posterior Insular Cortex is Necessary for the Consolidation of Tone Fear Conditioning

Paiva

Buéno

ecirca

et al. 2020

Preprint

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The insular cortex (IC) is notably implicated in emotional and cognitive processing; however, little is known regarding to what extent its two main subregions play functionally distinct roles on memory consolidation of conditioned fear tasks. Here we verified the effects of temporary functional inactivation of the anterior (aIC) and posterior IC (pIC) on contextual and tone fear memory. Rats received post-training bilateral infusions of the GABAA receptor agonist muscimol into either the aIC or pIC and were tested 48 and 72 hours after the conditioning session to assess contextual (CFC) and tone (TFC) fear conditioning, respectively. Inactivation of the aIC during memory consolidation did not affect fear memory for CFC or TFC. On the other hand, post-training inactivation of the pIC impaired TFC but not CFC. Our findings indicate that the pIC is a necessary part of the neural circuitry related to the consolidation of cued-fear memories.HighlightsWe studied the role of the anterior (aIC) and posterior (pIC) insula in fear memoryPost-training inactivation of aIC and pIC did not impact contextual fear conditioningThe pIC but not aIC is necessary for the consolidation of tone fear conditioning

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A whole-brain connectivity map of mouse insular cortex

Cited by 39 publications

References 54 publications

Cellular Anatomy of the Mouse Primary Motor Cortex

Cellular Anatomy of the Mouse Primary Motor Cortex

Brain‐wide mapping of presynaptic inputs to basolateral amygdala neurons

The Posterior Insular Cortex is Necessary for the Consolidation of Tone Fear Conditioning

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