Gregory Rompala scite author profile

Background Our previous studies indicated that NMDA receptor (NMDAR) deletion from a subset of corticolimbic interneurons in the mouse brain during early postnatal development is sufficient to trigger several behavioral and pathophysiological features resembling the symptoms of human schizophrenia. Interestingly, many of these behavioral phenotypes are exacerbated by social isolation stress. However, the mechanisms underlying the exacerbating effects of social isolation are unclear. Methods Using GABAergic interneuron-specific NMDAR hypofunction mouse model (Ppp1r2-cre/fGluN1 KO mice), we investigated whether oxidative stress is implicated in the social isolation-induced exacerbation of schizophrenia-like phenotypes and further explored the underlying mechanism of elevated oxidative stress in KO mice. Results The reactive oxygen species (ROS) level in the cortex of group-housed KO mice was normal at eight weeks although increased at 16 weeks old. Post-weaning social isolation (PWSI) augmented the ROS levels in KO mice at both ages, which was accompanied by the onset of behavioral phenotype. Chronic treatment with apocynin, an ROS scavenger, abolished markers of oxidative stress and partially alleviated schizophrenia-like behavioral phenotypes in KO mice. Markers of oxidative stress following PWSI were especially prominent in cortical parvalbumin (PV)-positive interneurons. The vulnerability of PV interneurons to oxidative stress was associated with down-regulation of peroxisome proliferator-activated receptor α coactivator-13 (PGC-1α), a master regulator of mitochondrial energy metabolism and antioxidation. Conclusions These results suggest that a PWSI-mediated impairment in antioxidant defense mechanisms, presumably mediated by PGC-1α downregulation in the NMDAR-deleted PV-positive interneurons, results in oxidative stress, which, in turn, may contribute to exacerbation of schizophrenia-like behavioral phenotypes.

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Paternal preconception alcohol exposure imparts intergenerational alcohol-related behaviors to male offspring on a pure C57BL/6J background

Rompala

Finegersh

Slater

et al. 2017

Alcohol

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While alcohol use disorder (AUD) is a highly heritable condition, the basis of AUD in families with a history of alcoholism is difficult to explain by genetic variation alone. Emerging evidence suggests that parental experience prior to conception can impact inheritance of complex behaviors in offspring via non-genomic (epigenetic) mechanisms. For instance, male C57BL/6J (B6) mice exposed to chronic intermittent vapor ethanol (CIE) prior to mating with Strain 129S1/SvImJ ethanol-naïve females produce male offspring with reduced ethanol drinking preference, increased ethanol sensitivity, and increased BDNF expression in the ventral tegmental area (VTA). In the present study, we tested the hypothesis that these intergenerational effects of paternal CIE are reproducible in male offspring on an inbred B6 background. To this end, B6 males were exposed to six weeks of CIE (or room air as a control) before mating with ethanol-naïve B6 females to produce ethanol (E)-sired and control (C)-sired male and female offspring. We observed a sex-specific effect, as E-sired males exhibited decreased two bottle free-choice ethanol drinking preference, increased sensitivity to the anxiolytic effects of ethanol, and increased VTA BDNF expression; no differences were observed in female offspring. These findings confirm and extend our previous results by demonstrating that the effects of paternal preconception ethanol are reproducible using genetically identical, inbred B6 animals.

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Heavy Chronic Intermittent Ethanol Exposure Alters Small Noncoding RNAs in Mouse Sperm and Epididymosomes

et al. 2018

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While the risks of maternal alcohol abuse during pregnancy are well-established, several preclinical studies suggest that chronic preconception alcohol consumption by either parent may also have significance consequences for offspring health and development. Notably, since isogenic male mice used in these studies are not involved in gestation or rearing of offspring, the cross-generational effects of paternal alcohol exposure suggest a germline-based epigenetic mechanism. Many recent studies have demonstrated that the effects of paternal environmental exposures such as stress or malnutrition can be transmitted to the next generation via alterations to small noncoding RNAs in sperm. Therefore, we used high throughput sequencing to examine the effect of preconception ethanol on small noncoding RNAs in sperm. We found that chronic intermittent ethanol exposure altered several small noncoding RNAs from three of the major small RNA classes in sperm, tRNA-derived small RNA (tDR), mitochondrial small RNA, and microRNA. Six of the ethanol-responsive small noncoding RNAs were evaluated with RT-qPCR on a separate cohort of mice and five of the six were confirmed to be altered by chronic ethanol exposure, supporting the validity of the sequencing results. In addition to altered sperm RNA abundance, chronic ethanol exposure affected post-transcriptional modifications to sperm small noncoding RNAs, increasing two nucleoside modifications previously identified in mitochondrial tRNA. Furthermore, we found that chronic ethanol reduced epididymal expression of a tRNA methyltransferase, Nsun2, known to directly regulate tDR biogenesis. Finally, ethanol-responsive sperm tDR are similarly altered in extracellular vesicles of the epididymis (i.e., epididymosomes), supporting the hypothesis that alterations to sperm tDR emerge in the epididymis and that epididymosomes are the primary source of small noncoding RNAs in sperm. These results add chronic ethanol to the growing list of paternal exposures that can affect small noncoding RNA abundance and nucleoside modifications in sperm. As small noncoding RNAs in sperm have been shown to causally induce heritable phenotypes in offspring, additional research is warranted to understand the potential effects of ethanol-responsive sperm small noncoding RNAs on offspring health and development.

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Cannabis and synaptic reprogramming of the developing brain

et al. 2021

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Recent years have been transformational in regard to the perception of the health risks and benefits of cannabis with increased acceptance of use. This has unintended neurodevelopmental implications given the increased use of cannabis and the potent levels of Δ 9 -tetrahydrocannabinol today being consumed by pregnant women, young mothers and teens. In this Review, we provide an overview of the neurobiological effects of cannabinoid exposure during prenatal/perinatal and adolescent periods, in which the endogenous cannabinoid system plays a fundamental role in neurodevelopmental processes. We highlight impaired synaptic plasticity as characteristic of developmental exposure and the important contribution of epigenetic reprogramming that maintains the long-term impact into adulthood and across generations. Such epigenetic influence by its very nature being highly responsive to the environment also provides the potential to diminish neural perturbations associated with developmental cannabis exposure.

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Gregory Rompala

Social Isolation Exacerbates Schizophrenia-Like Phenotypes via Oxidative Stress in Cortical Interneurons

Paternal preconception alcohol exposure imparts intergenerational alcohol-related behaviors to male offspring on a pure C57BL/6J background

Heavy Chronic Intermittent Ethanol Exposure Alters Small Noncoding RNAs in Mouse Sperm and Epididymosomes

Cannabis and synaptic reprogramming of the developing brain

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