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In utero exposure to transient ischemia-hypoxemia promotes long-term neurodevelopmental abnormalities in male rat offspring
Arvind Palanisamy, Tusar Giri, Jia Jiang, Annie Bice, James D. Quirk, Sara B. Conyers, Susan E. Maloney, Nandini Raghuraman, Adam Q. Bauer, Joel R. Garbow, David F. Wozniak
Arvind Palanisamy, Tusar Giri, Jia Jiang, Annie Bice, James D. Quirk, Sara B. Conyers, Susan E. Maloney, Nandini Raghuraman, Adam Q. Bauer, Joel R. Garbow, David F. Wozniak
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Research Article Development Neuroscience

In utero exposure to transient ischemia-hypoxemia promotes long-term neurodevelopmental abnormalities in male rat offspring

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Abstract

The impact of transient ischemic-hypoxemic insults on the developing fetal brain is poorly understood despite evidence suggesting an association with neurodevelopmental disorders such as schizophrenia and autism. To address this, we designed an aberrant uterine hypercontractility paradigm with oxytocin to better assess the consequences of acute, but transient, placental ischemia-hypoxemia in term pregnant rats. Using MRI, we confirmed that oxytocin-induced aberrant uterine hypercontractility substantially compromised uteroplacental perfusion. This was supported by the observation of oxidative stress and increased lactate concentration in the fetal brain. Genes related to oxidative stress pathways were significantly upregulated in male, but not female, offspring 1 hour after oxytocin-induced placental ischemia-hypoxemia. Persistent upregulation of select mitochondrial electron transport chain complex proteins in the anterior cingulate cortex of adolescent male offspring suggested that this sex-specific effect was enduring. Functionally, offspring exposed to oxytocin-induced uterine hypercontractility showed male-specific abnormalities in social behavior with associated region-specific changes in gene expression and functional cortical connectivity. Our findings, therefore, indicate that even transient but severe placental ischemia-hypoxemia could be detrimental to the developing brain and point to a possible mitochondrial link between intrauterine asphyxia and neurodevelopmental disorders.

Authors

Arvind Palanisamy, Tusar Giri, Jia Jiang, Annie Bice, James D. Quirk, Sara B. Conyers, Susan E. Maloney, Nandini Raghuraman, Adam Q. Bauer, Joel R. Garbow, David F. Wozniak

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Figure 6

In utero OXT exposure affects functional brain organization in juvenile male offspring.

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In utero OXT exposure affects functional brain organization in juvenile ...
fcOISI imaging was performed in P23 male offspring exposed to either saline or OXT in utero. (A) fcOIS field of view. Seeds for functional connectivity analysis (black dots on representative white light image of the rat skull) were placed in cortical areas corresponding to cingulate, motor, somatosensory (SS), retrosplenial, and visual networks. (B) Top row: Saline-treated rats exhibited patterns of functional connectivity with strong positive (reds) ipsilateral correlation adjacent to and contralateral from each seed and strong anticorrelations (blues) between opposed functional networks (e.g., between sensorimotor and retrosplenial cortices). Qualitatively, these general features of healthy patterns of functional connectivity were reduced in OXT-treated rats (bottom row). (C) Functional connectivity difference maps in select networks. Substantial reduction in ipsilateral connectivity was observed in cingulate, visual, and retrosplenial regions. Anticorrelated activity (blues) was also significantly reduced between somatomotor areas and visual regions, along with lateral sensory and retrosplenial regions. (D) Maps of node degree for each group were calculated by thresholding each pixel’s functional connectivity map at Z(r) > 0.3 and counting all pixels above this threshold. Saline-treated animals exhibited high connection number (yellows, whites) in retrosplenial, visual, and motor regions. OXT-treated rats exhibited more global reductions in node degree. Marked regional differences in node degree were observed in portions of motor, somatosensory, parietal, cingulate, and visual cortices (difference map). Significance determined by 2-tailed Student’s t test assuming unequal group variance at each pixel and corrected for multiple comparisons using FDR correction on a cluster-wise basis (n = 7 saline and 5 OXT).

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