Altered resonance properties of somatosensory responses in mice deficient for the schizophrenia risk gene Neuregulin 1

Barz, Claudia S; Bessaïh, Thomas; Abel, Ted; Feldmeyer, Dirk; Contreras, Diego

doi:10.1007/s00429-015-1169-6

Cited by 4 publications

(4 citation statements)

References 88 publications

(138 reference statements)

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“…Our data confirmed that the NRG1 and PLCG1 mRNA levels were significantly decreased in the right somatosensory cortex and striatum in ErbB4-KO mice, suggesting changes in ErbB4-NRG1 signaling in this schizophrenia-like mouse model. In line with this result, previous studies have also reported decreased ErbB4 protein and NRG1-related cellular activity in the somatosensory cortex in schizophrenic patients [17,44].…”

Section: Nrg1-erbb4 Signaling Gaba Transmission and Their Relationship To Brain Structuresupporting

confidence: 86%

GABAergic Abnormalities Associated with Sensorimotor Cortico-striatal Community Structural Deficits in ErbB4 Knockout Mice and First-Episode Treatment-Naïve Patients with Schizophrenia

Zhang

Liu

et al. 2019

Neurosci. Bull.

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The current study was designed to explore how disruption of specific molecular circuits in the cerebral cortex may cause sensorimotor cortico-striatal community structure deficits in both a mouse model and patients with schizophrenia. We used prepulse inhibition (PPI) and brain structural and diffusion MRI scans in 23 mice with conditional ErbB4 knockout in parvalbumin interneurons and 27 matched controls. Quantitative real-time PCR was used to assess the differential levels of GABA-related transcripts in brain regions. Concurrently, we measured structural and diffusion MRI and the cumulative contribution of risk alleles in the GABA pathway genes in first-episode treatment-naı ¨ve schizophrenic patients (n = 117) and in age-and sex-matched healthy controls (n = 86). We present the first evidence of gray and white matter impairment of right sensorimotor cortico-striatal networks and reproduced the sensorimotor gating deficit in a mouse model of schizophrenia. Significant correlations between gray matter volumes (GMVs) in the somatosensory cortex and PPI as well as glutamate decarboxylase 1 mRNA expression were found in controls but not in knockout mice. Furthermore, these findings were confirmed in a human sample in which we found significantly decreased gray and white matter in sensorimotor cortico-striatal networks in schizophrenic patients. The psychiatric risk alleles of the GABA pathway also displayed a significant negative correlation with the GMVs of the somatosensory cortex in patients. Our study identified that ErbB4 ablation in parvalbumin interneurons induced GABAergic dysregulation, providing valuable mechanistic insights into the sensorimotor cortico-striatal community structure deficits associated with schizophrenia.

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Section: Nrg1-erbb4 Signaling Gaba Transmission and Their Relationship To Brain Structuresupporting

confidence: 86%

GABAergic Abnormalities Associated with Sensorimotor Cortico-striatal Community Structural Deficits in ErbB4 Knockout Mice and First-Episode Treatment-Naïve Patients with Schizophrenia

Zhang

Liu

et al. 2019

Neurosci. Bull.

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“…Psychostimulants, such as amphetamine (Amph) and its derivatives, increase catecholaminergic neurotransmission and elicit neuroinflammatory effects that lead to neurodegeneration processes along with glial and vascular alterations (Moratalla et al ., ). Moreover, repeated Amph exposure has been associated with altered perception, similar to the sensory dysfunctions described for brain disorders that involve dopaminergic neurotransmission imbalance and neuroinflammation, such as Parkinson and schizophrenia (Govindaiah et al ., ; Jukkola et al ., ; Barz et al ., ). The primary somatosensory cortex (S1) is the main responsible area for sensory afferent inputs processing and its integration with motor responses, two essential processes for proper organism‐environment interaction (Borich et al ., ; Berman et al ., ).…”

Section: Introductionmentioning

confidence: 97%

Neurovascular unit alteration in somatosensory cortex and enhancement of thermal nociception induced by amphetamine involves central AT₁ receptor activation

Occhieppo

Marchese

Rodriguez

et al. 2017

Eur J of Neuroscience

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The use of psychostimulants, such as amphetamine (Amph), is associated with inflammatory processes, involving glia and vasculature alterations. Brain Angiotensin II (Ang II), through AT -receptors (AT -R), modulates neurotransmission and plays a crucial role in inflammatory responses in brain vasculature and glia. Our aim for the present work was to evaluate the role of AT -R in long-term alterations induced by repeated exposure to Amph. Astrocyte reactivity, neuronal survival and brain microvascular network were analysed at the somatosensory cortex. Thermal nociception was evaluated as a physiological outcome of this brain area. Male Wistar rats (250-320 g) were administered with AT -R antagonist Candesartan/vehicle (3 mg/kg p.o., days 1-5) and Amph/saline (2.5 mg/kg i.p., days 6-10). The four experimental groups were: Veh-Sal, CV-Sal, Veh-Amph, CV-Amph. On day 17, the animals were sacrificed and their brains were processed for Nissl staining and immunohistochemistry against glial fibrillary acidic protein (GFAP) and von Willebrand factor. In another group of animals, thermal nociception was evaluated using hot plate test, in the four experimental groups, on day 17. Data were analysed with two-way anova followed by Bonferroni test. Our results indicate that Amph exposure induces an increase in: neuronal apoptosis, astrocyte reactivity and microvascular network, evaluated as an augmented occupied area by vessels, branching points and their tortuosity. Moreover, Amph exposure decreased the thermal nociception threshold. Pretreatment with the AT -R blocker prevented the described alterations induced by this psychostimulant. The decreased thermal nociception and the structural changes in somatosensory cortex could be considered as extended neuroadaptative responses to Amph, involving AT -R activation.

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“…ErbB4 expression is restricted to GABAergic neurons in the cortex (Yau et al, 2003; Flames et al, 2004; Neddens et al, 2011), and this pathway plays a role in regulating GABAergic synaptic development (Fazzari et al, 2010; Del Pino et al, 2013). ErbB4 signaling is necessary for normal interneuron migration and synapse formation during development (Fazzari et al, 2010; Shamir et al, 2012), and global disruptions of the Nrg-1/ErbB4 pathway lead to decreased GABA release in the mature cerebral cortex (Woo et al, 2007; Mei and Xiong, 2008; Neddens and Buonanno, 2010; Ting et al, 2011) and impaired circuit function in mature animals (Barz et al, 2015, 2016). Disruption of the Nrg1-ErbB4 pathway specifically in PV interneurons reduces excitatory synaptic input to these cells and appears to contribute to the behavioral and neural phenotypes observed in the total ErbB4 deletion model (Chen et al, 2010; Wen et al, 2010; Shamir et al, 2012; Del Pino et al, 2013).…”

Section: Introductionmentioning

confidence: 99%

Developmental Dysfunction of VIP Interneurons Impairs Cortical Circuits

Batista-Brito

Vinck

Ferguson

et al. 2017

Neuron

126

110

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GABAergic interneurons play important roles in cortical circuit development. However, there are multiple populations of interneurons and their respective developmental contributions remain poorly explored. Neuregulin 1 (NRG1) and its interneuron-specific receptor ERBB4 are critical genes for interneuron maturation. Using a conditional ErbB4 deletion, we tested the role of vasoactive intestinal peptide (VIP)-expressing interneurons in the postnatal maturation of cortical circuits in vivo. ErbB4 removal from VIP interneurons during development leads to changes in their activity, along with severe dysregulation of cortical temporal organization and state-dependence. These alterations emerge during adolescence, and mature animals in which VIP interneurons lack ErbB4 exhibit reduced cortical responses to sensory stimuli and impaired sensory learning. Our data support a key role for VIP interneurons in cortical circuit development and suggest a possible contribution to pathophysiology in neurodevelopmental disorders. These findings provide a new perspective on the role of GABAergic interneuron diversity in cortical development.

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Altered resonance properties of somatosensory responses in mice deficient for the schizophrenia risk gene Neuregulin 1

Cited by 4 publications

References 88 publications

GABAergic Abnormalities Associated with Sensorimotor Cortico-striatal Community Structural Deficits in ErbB4 Knockout Mice and First-Episode Treatment-Naïve Patients with Schizophrenia

GABAergic Abnormalities Associated with Sensorimotor Cortico-striatal Community Structural Deficits in ErbB4 Knockout Mice and First-Episode Treatment-Naïve Patients with Schizophrenia

Neurovascular unit alteration in somatosensory cortex and enhancement of thermal nociception induced by amphetamine involves central AT₁ receptor activation

Developmental Dysfunction of VIP Interneurons Impairs Cortical Circuits

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Altered resonance properties of somatosensory responses in mice deficient for the schizophrenia risk gene Neuregulin 1

Cited by 4 publications

References 88 publications

GABAergic Abnormalities Associated with Sensorimotor Cortico-striatal Community Structural Deficits in ErbB4 Knockout Mice and First-Episode Treatment-Naïve Patients with Schizophrenia

GABAergic Abnormalities Associated with Sensorimotor Cortico-striatal Community Structural Deficits in ErbB4 Knockout Mice and First-Episode Treatment-Naïve Patients with Schizophrenia

Neurovascular unit alteration in somatosensory cortex and enhancement of thermal nociception induced by amphetamine involves central AT1 receptor activation

Developmental Dysfunction of VIP Interneurons Impairs Cortical Circuits

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Neurovascular unit alteration in somatosensory cortex and enhancement of thermal nociception induced by amphetamine involves central AT₁ receptor activation