Alterations in Retrotransposition, Synaptic Connectivity, and Myelination Implicated by Transcriptomic Changes Following Maternal Immune Activation in Nonhuman Primates

Page, Nicholas F.; Gandal, Michael J.; Estes, Myka L.; Cameron, Scott A.; Buth, Jessie E.; Parhami, Sepideh; Ramaswami, Gokul; Murray, Karl D.; Amaral, David G.; Water, Judy Van de; Schumann, Cynthia M.; Carter, Cameron S.; Bauman, Melissa D.; McAllister, A. Kimberley; Geschwind, Daniel H.

doi:10.1016/j.biopsych.2020.10.016

Cited by 25 publications

(21 citation statements)

References 113 publications

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“…MAG was under-expressed in the prefrontal cortex of MIA rats exposed to Poly(I:C) during development [44], in the prefrontal cortex and nucleus accumbens of MIA mice exposed to Poly(I:C) during development [45], and in the cerebellum of mice exposed to influenza-elicited MIA [46]. On the other hand, the over-expression of a MAG isoform in MIA pigs (albeit less extreme than the previously discussed under-expressed isoform) is in agreement with the over-expression of MAG in the hippocampus of MIA offspring of Poly(I:C)-challenged rhesus macaques [47]. Our findings provide a possible explanation of the apparent contradiction in the MAG profiles associated with MIA.…”

Section: Discussionsupporting

confidence: 77%

Disruption of Alternative Splicing in the Amygdala of Pigs Exposed to Maternal Immune Activation

Southey

Keever-Keigher

Rymut

et al. 2021

Immuno

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The inflammatory response of gestating females to infection or stress can disrupt gene expression in the offspring’s amygdala, resulting in lasting neurodevelopmental, physiological, and behavioral disorders. The effects of maternal immune activation (MIA) can be impacted by the offspring’s sex and exposure to additional stressors later in life. The objectives of this study were to investigate the disruption of alternative splicing patterns associated with MIA in the offspring’s amygdala and characterize this disruption in the context of the second stress of weaning and sex. Differential alternative splicing was tested on the RNA-seq profiles of a pig model of viral-induced MIA. Compared to controls, MIA was associated with the differential alternative splicing (FDR-adjusted p-value < 0.1) of 292 and 240 genes in weaned females and males, respectively, whereas 132 and 176 genes were differentially spliced in control nursed female and male, respectively. The majority of the differentially spliced (FDR-adjusted p-value < 0.001) genes (e.g., SHANK1, ZNF672, KCNA6) and many associated enriched pathways (e.g., Fc gamma R-mediated phagocytosis, non-alcoholic fatty liver disease, and cGMP-PKG signaling) have been reported in MIA-related disorders including autism and schizophrenia in humans. Differential alternative splicing associated with MIA was detected in the gene MAG across all sex-stress groups except for unstressed males and SLC2A11 across all groups except unstressed females. Precise understanding of the effect of MIA across second stressors and sexes necessitates the consideration of splicing isoform profiles.

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Section: Discussionsupporting

confidence: 77%

Disruption of Alternative Splicing in the Amygdala of Pigs Exposed to Maternal Immune Activation

Southey

Keever-Keigher

Rymut

et al. 2021

Immuno

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“…The corpus callosum, thalamus, striatum, and midbrain were amongst the most-affected structures across all mouse models, which reflects neurological findings in autoimmune disorders [ 69 – 72 ]. Furthermore, several genes associated with myelination are expressed in these regions, which is consistent with molecular studies conducted on MIA model primates [ 73 ]. Preferentially expressed genes were also homologous to human genes associated with MS.…”

Section: Discussionsupporting

confidence: 86%

Mouse models of immune dysfunction: their neuroanatomical differences reflect their anxiety-behavioural phenotype

et al. 2022

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Extensive evidence supports the role of the immune system in modulating brain function and behaviour. However, past studies have revealed striking heterogeneity in behavioural phenotypes produced from immune system dysfunction. Using magnetic resonance imaging, we studied the neuroanatomical differences among 11 distinct genetically modified mouse lines (n = 371), each deficient in a different element of the immune system. We found a significant and heterogeneous effect of immune dysfunction on the brains of both male and female mice. However, by imaging the whole brain and using Bayesian hierarchical modelling, we were able to identify patterns within the heterogeneous phenotype. Certain structures—such as the corpus callosum, midbrain, and thalamus—were more likely to be affected by immune dysfunction. A notable brain–behaviour relationship was identified with neuroanatomy endophenotypes across mouse models clustering according to anxiety-like behaviour phenotypes reported in literature, such as altered volume in brains regions associated with promoting fear response (e.g., the lateral septum and cerebellum). Interestingly, genes with preferential spatial expression in the most commonly affected regions are also associated with multiple sclerosis and other immune-mediated diseases. In total, our data suggest that the immune system modulates anxiety behaviour through well-established brain networks.

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“…4.3.2 1 st versus 2 nd Trimester Exposure Cohort. We then conducted a pilot comparison of NHP offspring born to dams that received three Poly ICLC injections in the late 1 st (N=6) or 2 nd (N=7) trimesters that included an evaluation of offspring behavior ( 140 , 141 ), immune ( 142 ), and brain ( 143 , 144 , 145 ) development. Although there were no consistent differences early in development, the MIA offspring exposed to MIA in either trimester displayed increased repetitive behaviors and changes in social development as they matured, with more differences specifically between first and second trimester offspring with control ones summarized in Table 2 ( 140 ).…”

Section: Nhp Models Of Maternal Infectionmentioning

confidence: 99%

“…The MIA-treated animals also exhibited alterations in immune function relevant to NDDs, characterized by elevated production of innate inflammatory cytokines both at baseline and following stimulation at one year of age, and at four years of age, elevated IL-1b paired with increased production of T-cell helper type (TH)-2 cytokines, IL-4, and IL-13 ( 142 ). Finally, RNA sequencing of prefrontal cortex, anterior cingulate, hippocampus, and primary visual cortex implicated alterations in transposable element biology, synaptic connectivity, and myelination with relative hippocampal vulnerability in the adolescent brain of MIA-exposed NHPs ( 144 ). We have also recently replicated the findings of aberrant dendritic morphology in the DLPFC ( 139 ), with both first and second trimester MIA-exposed monkeys exhibiting an increase in dendritic branching in pyramidal cells in both infra- and supragranular layers in DLPFC, paired with a significant decrease in apical dendrite diameter in the infragranular layers of the DLPFC.…”

Section: Nhp Models Of Maternal Infectionmentioning

confidence: 99%

Primate Models as a Translational Tool for Understanding Prenatal Origins of Neurodevelopmental Disorders Associated With Maternal Infection

Ryan¹,

Bauman²

2022

Biological Psychiatry: Cognitive Neuroscience and Neuroimaging

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Alterations in Retrotransposition, Synaptic Connectivity, and Myelination Implicated by Transcriptomic Changes Following Maternal Immune Activation in Nonhuman Primates

Abstract: Alterations in retrotransposition, synaptic connectivity, and myelination implicated by transcriptomic changes following maternal immune activation in non-human primates

Cited by 25 publications

References 113 publications

Disruption of Alternative Splicing in the Amygdala of Pigs Exposed to Maternal Immune Activation

Disruption of Alternative Splicing in the Amygdala of Pigs Exposed to Maternal Immune Activation

Mouse models of immune dysfunction: their neuroanatomical differences reflect their anxiety-behavioural phenotype

Primate Models as a Translational Tool for Understanding Prenatal Origins of Neurodevelopmental Disorders Associated With Maternal Infection

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