scholarly journals Preliminary evidence that maternal immune activation specifically increases diagonal domain volume in the rat brain during early postnatal development

2018 ◽  
Author(s):  
Tobias C. Wood ◽  
Michelle E. Edye ◽  
Michael K. Harte ◽  
Joanna C. Neill ◽  
Eric P. Prinssen ◽  
...  
Keyword(s):  
Rat Brain ◽  
Immune Activation ◽  
Diffusion Tensor ◽  
Ex Vivo ◽  
Morphological Changes ◽  
Female Offspring ◽  
Preliminary Evidence ◽  
Poly I:C ◽  
Maternal Immune Activation ◽  
The Impact

AbstractMaternal immune activation (MIA) is consistently associated with elevated risk for multiple psychiatric disorders in the affected offspring. Related to this, an important goal of our work is to explore the impact of MIA effects across the lifespan. In this context, we recently reported the effects of poly (I:C)-induced MIA at gestational day (GD)15, immediately prior to birth, at GD21 and again at post-natal day (PD)21, providing a systematic assessment of plasma IL-6, body temperature and weight alterations in pregnant rats following poly (I:C) exposure and preliminary evidence for gross morphological changes and microglial neuropathology in both male and female offspring at GD21 and PD21. Here, we sought to complement and extend these data by characterising in more detail the meso-scale impact of gestational poly (I:C) exposure at GD15 on the neuroanatomy of the juvenile (PD21) rat brain using high-resolution, ex vivo anatomical magnetic resonance imaging (MRI) in combination with atlas-based segmentation. Our preliminary data suggest subtle neuroanatomical effects of gestational poly (I:C) exposure (n=10) relative to saline controls (n=10) at this time-point. Specifically, we report here preliminary evidence for a significant increase in the relative volume of the diagonal domain in poly (I:C) offspring (p<0.01; q<0.1), particularly in female offspring. This occurred in the absence of any microstructural alterations as detectable using diffusion tensor imaging (DTI). Longitudinal in vivo studies, informed by the effect sizes from this dataset are now required to establish both the functional relevance and cellular mechanisms of the apparent DD volume increase.

scholarly journals Mapping the impact of exposure to maternal immune activation on juvenile Wistar rat brain macro- and microstructure during early post-natal development

2019 ◽  
Vol 3 ◽  
pp. 239821281988308
Author(s):  
Tobias C. Wood ◽  
Michelle E. Edye ◽  
Michael K. Harte ◽  
Joanna C. Neill ◽  
Eric P. Prinssen ◽  
...  
Keyword(s):  
Rat Brain ◽  
Immune Activation ◽  
Diffusion Tensor ◽  
Ex Vivo ◽  
Morphological Changes ◽  
Relative Volume ◽  
Acid Exposure ◽  
Pregnant Rats ◽  
Maternal Immune Activation ◽  
The Impact

Maternal immune activation is consistently associated with elevated risk for multiple psychiatric disorders in the affected offspring. Related to this, an important goal of our work is to explore the impact of maternal immune activation effects across the lifespan. In this context, we recently reported the effects of polyriboinosinic-polyribocytidylic acid–induced maternal immune activation at gestational day 15, immediately prior to birth, at gestational day 21 and again at post-natal day 21, providing a systematic assessment of plasma interleukin 6, body temperature and weight alterations in pregnant rats and preliminary evidence for gross morphological changes and microglial neuropathology in both male and female offsprings at these time points. Here, we sought to complement and extend these data by characterising in more detail the mesoscale impact of gestational polyriboinosinic-polyribocytidylic acid exposure at gestational day 15 on the neuroanatomy of the juvenile (post-natal day 21) rat brain using high-resolution, ex vivo anatomical magnetic resonance imaging in combination with atlas-based segmentation. Our preliminary data suggest subtle neuroanatomical effects of gestational polyriboinosinic-polyribocytidylic acid exposure (n = 10) relative to saline controls (n = 10) at this time-point. Specifically, we found an increase in the relative volume of the diagonal domain in polyriboinosinic-polyribocytidylic acid offspring (p < 0.01 uncorrected), which just failed to pass stringent multiple comparisons correction (actual q = 0.07). No statistically significant microstructural alterations were detectable using diffusion tensor imaging. Further studies are required to map the proximal effects of maternal immune activation on the developing rodent brain from foetal to early post-natal life and confirm our findings herein.

scholarly journals The Effect of Maternal Immune Activation on Social Play-Induced Ultrasonic Vocalization in Rats

2021 ◽  
Vol 11 (3) ◽  
pp. 344
Author(s):  
Kinga Gzielo ◽  
Agnieszka Potasiewicz ◽  
Ewa Litwa ◽  
Diana Piotrowska ◽  
Piotr Popik ◽  
...  
Keyword(s):  
Immune Activation ◽  
Social Play ◽  
Autism Spectrum ◽  
Repetitive Behaviors ◽  
Male Rats ◽  
Poly I:C ◽  
Maternal Immune Activation ◽  
Increased Risk ◽  
Adolescent Rats ◽  
The Impact

Prenatal maternal infection is associated with an increased risk of various neurodevelopmental disorders, including autism spectrum disorders (ASD). Maternal immune activation (MIA) can be experimentally induced by prenatal administration of polyinosinic:polycytidylic acid (poly I:C), a synthetic viral-like double-stranded RNA. Although this MIA model is adopted in many studies, social and communicative deficits, included in the first diagnostic criterion of ASD, are poorly described in the offspring of poly(I:C)-exposed dams. This study aimed to characterize the impact of prenatal poly(I:C) exposure on socio-communicative behaviors in adolescent rats. For this purpose, social play behavior was assessed in both males and females. We also analyzed quantitative and structural changes in ultrasonic vocalizations (USVs) emitted by rats during the play test. Deficits of social play behaviors were evident only in male rats. Males also emitted a significantly decreased number of USVs during social encounters. Prenatal poly(I:C) exposure also affected acoustic call parameters, as reflected by the increased peak frequencies. Additionally, repetitive behaviors were demonstrated in autistic-like animals regardless of sex. This study demonstrates that prenatal poly(I:C) exposure impairs socio-communicative functioning in adolescent rats. USVs may be a useful tool for identifying early autistic-like abnormalities.

scholarly journals Subtle alterations in neonatal neurodevelopment following early or late exposure to prenatal maternal immune activation

2021 ◽  
Author(s):  
Elisa Guma ◽  
Emily Snook ◽  
Shoshana Spring ◽  
Jason P Lerch ◽  
Brian J Nieman ◽  
...  
Keyword(s):  
Immune Activation ◽  
Neonatal Period ◽  
Ex Vivo ◽  
Brain Anatomy ◽  
Cross Sectional ◽  
Maternal Immune Activation ◽  
Communicative Ability ◽  
Late Exposure ◽  
Magnetic Resonance Imaging Mri ◽  
The Impact

Prenatal exposure to maternal immune activation (MIA) is a risk factor for a variety of neurodevelopmental and psychiatric disorders. The timing of MIA-exposure has been shown to affect adolescent and adult offspring neurodevelopment, however, less is known about these effects in the neonatal period. To better understand the impact of MIA-exposure on neonatal brain development, we first assess neonate communicative abilities with the ultrasonic vocalization task, followed by high-resolution ex vivo magnetic resonance imaging (MRI) on the neonatal (postnatal day 8) brain. Early exposed offspring displayed decreased communicative ability, while brain anatomy appeared largely unaffected, apart from some subtle alterations. By integrating MRI and behavioural assays to investigate the effects of MIA-exposure on neonatal neurodevelopment we show that offspring neuroanatomy and behaviour are only subtly affected by both early and late exposure. This suggests that the deficits often observed in later stages of life may be dormant, not yet developed in the neonatal period, or not as easily detectable using a cross-sectional approach.

scholarly journals Investigating the Effect of Reduced Serotonin Transporter Expression in a Maternal Immune Activation Model of Neurodevelopmental Disorders

2021 ◽  
Author(s):  
◽  
Alexandra Lister
Keyword(s):  
Serotonin Transporter ◽  
Immune Activation ◽  
Neurodevelopmental Disorders ◽  
Allelic Variation ◽  
Autism Spectrum ◽  
Poly I:C ◽  
Supporting Evidence ◽  
Maternal Immune Activation ◽  
Behavioural Effects ◽  
The Impact

<p>Maternal Immune Activation (MIA) during early pregnancy is an established risk factor for the occurrence of neurodevelopmental disorders such as Autism Spectrum Disorder (ASD) and schizophrenia (SCZ) in offspring. Serotonin signalling is also implicated in both ASD and SCZ, in conjunction with a known and extensive influence in neural development. Using a Wistar serotonin transporter (SERT) knockout model to mimic allelic variation in the human serotonin transporter promoter (5‐HTTLPR), this research investigates the impact of full or reduced SERT function on the effect of poly I:C-induced MIA in offspring. Experimental design focuses on ultrasonic vocalisation communication in postnatal day (PND) 7 offspring, followed by genetic expression of the Rac1/Kal7/Disc1 signalosome pathway at PND21 previously implicated in SCZ pathology. Results from behavioural analysis of pups indicate a statistically significant increase in calling and call complexity in pups heterozygous for the SERT (SERT HET) compared to wildtype (WT). When separated by sex, this trend remains consistent however only reaches significance in male offspring. Male SERT HET pups also a significant treatment effect in call complexity, and a significant genotype/treatment interaction which suggests an increased susceptibility to MIA-induced behavioural effects. Additionally, poly I:C exposed pups show increased expression of Disc1, supporting evidence that this pathway may be affected in neurodevelopmental disorders. No genotype and sex effects were observed in signalosome expression; however, this study may be too underpowered to detect these effects. These results suggest that differences between sex and SERT genotype in offspring may modulate the behavioural effects of MIA in rodent models of NDD, with more study required to assess these differences in a molecular context. Furthermore, this study aims to address the overall inconsistency and misrepresentation of statistical methods in MIA models by employing MIA validation tests and linear mixed modelling to account for litter variation. In summary, the research presented in this thesis reports initial evidence suggesting SERT genotype may influence the effect of MIA, however further research is necessary to characterise the effect of genotype on MIA challenge during gestation.</p>

scholarly journals Investigating the Effect of Reduced Serotonin Transporter Expression in a Maternal Immune Activation Model of Neurodevelopmental Disorders

2021 ◽  
Author(s):  
◽  
Alexandra Lister
Keyword(s):  
Serotonin Transporter ◽  
Immune Activation ◽  
Neurodevelopmental Disorders ◽  
Allelic Variation ◽  
Autism Spectrum ◽  
Poly I:C ◽  
Supporting Evidence ◽  
Maternal Immune Activation ◽  
Behavioural Effects ◽  
The Impact

<p>Maternal Immune Activation (MIA) during early pregnancy is an established risk factor for the occurrence of neurodevelopmental disorders such as Autism Spectrum Disorder (ASD) and schizophrenia (SCZ) in offspring. Serotonin signalling is also implicated in both ASD and SCZ, in conjunction with a known and extensive influence in neural development. Using a Wistar serotonin transporter (SERT) knockout model to mimic allelic variation in the human serotonin transporter promoter (5‐HTTLPR), this research investigates the impact of full or reduced SERT function on the effect of poly I:C-induced MIA in offspring. Experimental design focuses on ultrasonic vocalisation communication in postnatal day (PND) 7 offspring, followed by genetic expression of the Rac1/Kal7/Disc1 signalosome pathway at PND21 previously implicated in SCZ pathology. Results from behavioural analysis of pups indicate a statistically significant increase in calling and call complexity in pups heterozygous for the SERT (SERT HET) compared to wildtype (WT). When separated by sex, this trend remains consistent however only reaches significance in male offspring. Male SERT HET pups also a significant treatment effect in call complexity, and a significant genotype/treatment interaction which suggests an increased susceptibility to MIA-induced behavioural effects. Additionally, poly I:C exposed pups show increased expression of Disc1, supporting evidence that this pathway may be affected in neurodevelopmental disorders. No genotype and sex effects were observed in signalosome expression; however, this study may be too underpowered to detect these effects. These results suggest that differences between sex and SERT genotype in offspring may modulate the behavioural effects of MIA in rodent models of NDD, with more study required to assess these differences in a molecular context. Furthermore, this study aims to address the overall inconsistency and misrepresentation of statistical methods in MIA models by employing MIA validation tests and linear mixed modelling to account for litter variation. In summary, the research presented in this thesis reports initial evidence suggesting SERT genotype may influence the effect of MIA, however further research is necessary to characterise the effect of genotype on MIA challenge during gestation.</p>

scholarly journals Long-Lasting Impact of Maternal Immune Activation and Interaction With a Second Immune Challenge on Pig Behavior

2020 ◽  
Vol 7 ◽  
Author(s):  
Haley E. Rymut ◽  
Courtni R. Bolt ◽  
Megan P. Caputo ◽  
Alexandra K. Houser ◽  
Adrienne M. Antonson ◽  
...  
Keyword(s):  
Immune Activation ◽  
Social Behaviors ◽  
Combined Effect ◽  
Poly I:C ◽  
Immune Challenge ◽  
Mixed Effect ◽  
Maternal Immune Activation ◽  
Polycytidylic Acid ◽  
Behavioral Disruptions ◽  
The Impact

The combined effects on pig behavior of maternal immune challenge during gestation followed by a second immune challenge later in life have not been studied. Porcine reproductive and respiratory syndrome virus (PRRSV) infection during gestation can elicit maternal immune activation (MIA) yet the interactions with the offspring response to a second immune challenge after birth remains unexplored. Knowledge on the response to viral challenges in rodents has been gained through the use of the viral mimetic polyinosinic-polycytidylic acid (Poly(I:C)), yet the effects of this immune stimulant on pig behavior have not been assessed. This study advances the understanding of the combined effect of MIA and a second immune challenge later in life on female and male pig behavior. Three complementary experiments enabled the development of an effective Poly(I:C) challenge in pigs, and testing the interaction between PRRSV-elicited MIA, Poly(I:C) challenge at 60 days of age, and sex on behaviors. Individual-level observations on sickness, locomotor, and social behaviors were measured 1–3 h after Poly(I:C) challenge. Vomiting, panting, lethargy, walking, laying, playing, and touching behaviors were analyzed using generalized linear mixed effect models. Results indicated that a Poly(I:C) dose of 1 mg/kg within 1 h after injection increased the incidence of laying and sickness behavior. The Poly(I:C) challenge decreased the incidence of locomotor behaviors and activity levels. Pigs exposed to MIA had lower rates of social behaviors such as playing. The combined effect of PRRSV-elicited MIA and Poly(I:C) immune challenge further sensitized the pigs to behavior disruption across sexes including changes in sternal and lateral laying, walking, lethargy, and touching incidence. Notably, the effects of Poly(I:C) immune challenge alone on behaviors tended to be more extreme in males, whereas the effects of Poly(I:C) following MIA tended to be more extreme in females. Our findings demonstrate that MIA and Poly(I:C) affected behaviors, and the viral mimetic effects shortly after injection can offer insights into the prolonged effect of postnatal viral infections on feeding, social interactions and health status. Management practices that reduce the likelihood of gestational diseases and accommodate for behavioral disruptions in the offspring can minimize the impact of MIA.

scholarly journals Behavioral, neuroanatomical, and molecular correlates of resilience and susceptibility to maternal immune activation

2020 ◽  
Author(s):  
Flavia S. Mueller ◽  
Joseph Scarborough ◽  
Sina M. Schalbetter ◽  
Juliet Richetto ◽  
Eugene Kim ◽  
...  
Keyword(s):  
Immune Activation ◽  
Ex Vivo ◽  
Sensorimotor Gating ◽  
Brain Regions ◽  
Brain Network ◽  
Poly I:C ◽  
Psychiatric Research ◽  
Maternal Immune Activation ◽  
Peripheral Production ◽  
And Control

AbstractInfectious or noninfectious maternal immune activation (MIA) is an environmental risk factor for psychiatric and neurological disorders with neurodevelopmental etiologies. Whilst there is increasing evidence for significant health consequences, the effects of MIA on the offspring appear to be variable. Here, we aimed to identify and characterize subgroups of isogenic mouse offspring exposed to identical MIA, which was induced in C57BL6/N mice by administration of the viral mimetic, poly(I:C), on gestation day 12. Cluster analysis of behavioral data obtained from a first cohort containing >150 MIA and control offspring revealed that MIA offspring could be stratified into distinct subgroups that were characterized by the presence or absence of multiple behavioral dysfunctions. The two subgroups also differed in terms of their transcriptional profiles in cortical and subcortical brain regions and brain networks of structural covariance, as measured by ex vivo structural magnetic resonance imaging (MRI). In a second, independent cohort containing 50 MIA and control offspring, we identified a subgroup of MIA offspring that displayed elevated peripheral production of innate inflammatory cytokines, including IL-1β, IL-6, and TNF-α, in adulthood. This subgroup also showed significant impairments in social approach behavior and sensorimotor gating, whereas MIA offspring with a low inflammatory cytokine status did not. Taken together, our results highlight the existence of subgroups of MIA-exposed offspring that show dissociable behavioral, transcriptional, brain network, and immunological profiles even under conditions of genetic homogeneity. These data have relevance for advancing our understanding of the variable neurodevelopmental effects induced by MIA and for biomarker-guided approaches in preclinical psychiatric research.

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