Early Development of Parvalbumin-, Somatostatin-, and Cholecystokinin-Expressing Neurons in Rat Brain following Prenatal Immune Activation and Maternal Iron Deficiency

Boksa, Patricia; Zhang, Ying; Nouel, Dominique; Wong, Anson; Wong, Tak Pan

doi:10.1159/000454677

Cited by 20 publications

(10 citation statements)

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“…Reductions in both regions, however, are contrary to our hypothesis that postulated that the cortex is more susceptible to MIA than the striatum. Given that our previous behavioural study showed working memory impairments in GD19 polyI:C offspring, but not GD10 polyI:C offspring 50 , and multiple studies show a central role of somatostatinergic signalling in cognitive function [76][77][78][79] , our present findings suggest that the combined SSTR2 mRNA deficits in cortex and striatum (found only at GD19), in combination with the SST mRNA deficits in cortex and striatum, may contribute to the working memory deficits apparent in late gestation MIA offspring.…”

Section: Discussionsupporting

confidence: 51%

Effect of Immune Activation during Early Gestation or Late Gestation on Inhibitory Markers in Adult Male Rats

Rahman

Weickert

Harms

et al. 2020

Sci Rep

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People with schizophrenia exhibit deficits in inhibitory neurons and cognition. The timing of maternal immune activation (MIA) may present distinct schizophrenia-like phenotypes in progeny. We investigated whether early gestation [gestational day (GD) 10] or late gestation (GD19) MIA, via viral mimetic polyI:C, produces deficits in inhibitory neuron indices (GAD1, PVALB, SST, SSTR2 mRNAs) within cortical, striatal, and hippocampal subregions of male adult rat offspring. In situ hybridisation revealed that polyI:C offspring had: (1) SST mRNA reductions in the cingulate cortex and nucleus accumbens shell, regardless of MIA timing; (2) SSTR2 mRNA reductions in the cortex and striatum of GD19, but not GD10, MIA; (3) no alterations in cortical or striatal GAD1 mRNA of polyI:C offspring, but an expected reduction of PVALB mRNA in the infralimbic cortex, and; (4) no alterations in inhibitory markers in hippocampus. Maternal IL-6 response negatively correlated with adult offspring SST mRNA in cortex and striatum, but not hippocampus. These results show lasting inhibitory-related deficits in cortex and striatum in adult offspring from MIA. SST downregulation in specific cortical and striatal subregions, with additional deficits in somatostatin-related signalling through SSTR2, may contribute to some of the adult behavioural changes resulting from MIA and its timing. Neural activity between the cortex and striatum regulates motor, cognitive, and limbic function, and aspects of these modalities are perturbed in people with schizophrenia 1,2. This neural activity is influenced by local inhibitory neurons, and the dysregulation of inhibition is postulated as a central contributor in the development of schizophrenia. Inhibitory tone is mainly established during early neurodevelopment to coordinate efficient neurotransmission 3,4. Inhibitory interneurons migrate from the ganglionic eminence and the subventricular zone through the white matter to reach their destination in the cortical grey matter (see 5 for review) and hippocampus (see 6 for review). Striatal neurons are largely generated from the ganglionic eminences 7. Perturbations during this neurodevelopmental epoch is therefore postulated to dysregulate inhibitory tone in the brain 8 and contribute to the behavioural phenotypes in schizophrenia (see 9,10 for review). Glutamate decarboxylase-1 (GAD1) is one of the enzymes that catalyses the main inhibitory neurotransmitter in the brain, gamma-aminobutyric acid (GABA) 11. There are two main subsets of GABAergic neurons that are distinguished based on their expression of the calcium-binding protein, parvalbumin (PVALB), or the neuropeptide hormone, somatostatin (SST) (see 12 for review). Studies in post-mortem human brain show that schizophrenia cases have reduced cortical 13 , hippocampal 14,15 , and striatal 16,17 GABAergic indices that suggest that these regions may contribute to the cognitive deficits exhibited by people with schizophrenia. The most consistently reported inhibitory deficits in the cortex of people with s...

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Section: Discussionsupporting

confidence: 51%

Effect of Immune Activation during Early Gestation or Late Gestation on Inhibitory Markers in Adult Male Rats

Rahman

Weickert

Harms

et al. 2020

Sci Rep

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“…Overall, the changes in PV interneurons bear high resemblance to the observations in established animal models of maternal inflammation [ 26 , 27 , 29 ]. As previously discussed, we were unable to detect maternal inflammation 11 and 28–29 days after exposure, but we cannot rule out that inflammation was present at earlier time points.…”

Section: Discussionmentioning

confidence: 55%

Maternal inhalation of carbon black nanoparticles induces neurodevelopmental changes in mouse offspring

et al. 2018

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BackgroundEngineered nanoparticles are smaller than 100 nm and designed to improve or creating even new physico-chemical properties. Consequently, toxicological properties of materials may change as size reaches the nm size-range. We examined outcomes related to the central nervous system in the offspring following maternal inhalation exposure to nanosized carbon black particles (Printex 90).MethodsTime-mated mice (NMRI) were exposed by inhalation, for 45 min/day to 0, 4.6 or 37 mg/m3 aerosolized carbon black on gestation days 4–18, i.e. for a total of 15 days. Outcomes included maternal lung inflammation (differential cell count in bronchoalveolar lavage fluid and Saa3 mRNA expression in lung tissue), offspring neurohistopathology and behaviour in the open field test.ResultsCarbon black exposure did not cause lung inflammation in the exposed females, measured 11 or 28–29 days post-exposure. Glial fibrillary acidic protein (GFAP) expression levels were dose-dependently increased in astrocytes around blood vessels in the cerebral cortex and hippocampus in six weeks old offspring, indicative of reactive astrogliosis. Also enlarged lysosomal granules were observed in brain perivascular macrophages (PVMs) in the prenatally exposed offspring. The number of parvalbumin-positive interneurons and the expression levels of parvalbumin were decreased in the motor and prefrontal cortices at weaning and 120 days of age in the prenatally exposed offspring. In the open field test, behaviour was dose-dependently altered following maternal exposure to Printex 90, at 90 days of age. Prenatally exposed female offspring moved a longer total distance, and especially males spent significantly longer time in the central zone of the maze. In the offspring, the described effects were long-lasting as they were present at all time points investigated.ConclusionThe present study reports for the first time that maternal inhalation exposure to Printex 90 carbon black induced dose-dependent denaturation of PVM and reactive astrocytes, similarly to the findings observed following maternal exposure to Printex 90 by airway instillation. Of note, some of the observed effects have striking similarities with those observed in mouse models of neurodevelopmental disorders.Electronic supplementary materialThe online version of this article (10.1186/s12989-018-0272-2) contains supplementary material, which is available to authorized users.

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“…This is in contrast to a recent observation that reported an increase in the number of PV immunoreactive cells in the dlPFC of adolescent male rats from LPS-treated dams (50 mg/kg i.p. on GD15/16) (Boksa et al, 2017). Other neuronal deficiencies, including in dopaminergic and serotonergic neurons, have been described in MIA models (Meyer et al, 2009b;Boksa, 2010;Vuillermot et al, 2012;Pratt et al, 2013;Smith et al, 2014;Squarzoni et al, 2014;Depino, 2015;Reisinger et al, 2015).…”

Section: Developmental Dynamicsmentioning

confidence: 96%

“…In contrast, MIA induction in mid-gestation (GD13-15) with Poly(I:C) results in an increase in Purkinje cell numbers in juvenile and adult mice (Aavani et al, 2015). on GD15/16) (Boksa et al, 2017). Defects in the development and function of interneurons have been implicated in a number of psychiatric disorders (Mar ın, 2012).…”

Section: Effect Of Mia On Neurogenesis and Neuronal Developmentmentioning

confidence: 99%

Maternal immune activation in neurodevelopmental disorders

Solek

Farooqi

Verly

et al. 2017

Developmental Dynamics

126

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Converging lines of evidence from basic science and clinical studies suggest a relationship between maternal immune activation (MIA) and neurodevelopmental disorders such as autism spectrum disorder (ASD) and schizophrenia. The mechanisms through which MIA increases the risk of neurodevelopmental disorders have become a subject of intensive research. This review aims to describe how dysregulation of microglial function and immune mechanisms may link MIA and neurodevelopmental pathologies. We also summarize the current evidence in animal models of MIA. Developmental Dynamics 247:588-619, 2018. © 2017 Wiley Periodicals, Inc.

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Early Development of Parvalbumin-, Somatostatin-, and Cholecystokinin-Expressing Neurons in Rat Brain following Prenatal Immune Activation and Maternal Iron Deficiency

Cited by 20 publications

References 64 publications

Effect of Immune Activation during Early Gestation or Late Gestation on Inhibitory Markers in Adult Male Rats

Effect of Immune Activation during Early Gestation or Late Gestation on Inhibitory Markers in Adult Male Rats

Maternal inhalation of carbon black nanoparticles induces neurodevelopmental changes in mouse offspring

Maternal immune activation in neurodevelopmental disorders

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