Your search keyword '"Rajesh C. Miranda"' showing total 76 results

1. Reduced fetal cerebral blood flow predicts perinatal mortality in a mouse model of prenatal alcohol and cannabinoid exposure

Author

Siara Kate Rouzer, Anirudh Sreeram, and Rajesh C. Miranda

Subjects

Prenatal drug exposure, Polysubstance, Alcohol, Cannabinoid, Ultrasound, Blood flow, Gynecology and obstetrics, RG1-991

Abstract

Abstract Background Children exposed prenatally to alcohol or cannabinoids individually can exhibit growth deficits and increased risk for adverse birth outcomes. However, these drugs are often co-consumed and their combined effects on early brain development are virtually unknown. The blood vessels of the fetal brain emerge and mature during the neurogenic period to support nutritional needs of the rapidly growing brain, and teratogenic exposure during this gestational window may therefore impair fetal cerebrovascular development. Study Design To determine whether prenatal polysubstance exposure confers additional risk for impaired fetal-directed blood flow, we performed high resolution in vivo ultrasound imaging in C57Bl/6J pregnant mice. After pregnancy confirmation, dams were randomly assigned to one of four groups: drug-free control, alcohol-exposed, cannabinoid-exposed or alcohol-and-cannabinoid-exposed. Drug exposure occurred daily between Gestational Days 12–15, equivalent to the transition between the first and second trimesters in humans. Dams first received an intraperitoneal injection of either cannabinoid agonist CP-55,940 (750 µg/kg) or volume-equivalent vehicle. Then, dams were placed in vapor chambers for 30 min of inhalation of either ethanol or room air. Dams underwent ultrasound imaging on three days of pregnancy: Gestational Day 11 (pre-exposure), Gestational Day 13.5 (peri-exposure) and Gestational Day 16 (post-exposure). Results All drug exposures decreased fetal cranial blood flow 24-hours after the final exposure episode, though combined alcohol and cannabinoid co-exposure reduced internal carotid artery blood flow relative to all other exposures. Umbilical artery metrics were not affected by drug exposure, indicating a specific vulnerability of fetal cranial circulation. Cannabinoid exposure significantly reduced cerebroplacental ratios, mirroring prior findings in cannabis-exposed human fetuses. Post-exposure cerebroplacental ratios significantly predicted subsequent perinatal mortality (p = 0.019, area under the curve, 0.772; sensitivity, 81%; specificity, 85.70%) and retroactively diagnosed prior drug exposure (p = 0.005; AUC, 0.861; sensitivity, 86.40%; specificity, 66.7%). Conclusions Fetal cerebrovasculature is significantly impaired by exposure to alcohol or cannabinoids, and co-exposure confers additional risk for adverse birth outcomes. Considering the rising potency and global availability of cannabis products, there is an imperative for research to explore translational models of prenatal drug exposure, including polysubstance models, to inform appropriate strategies for treatment and care in pregnancies affected by drug exposure.

Published

2024

2. Sex differences in the transcriptome of extracellular vesicles secreted by fetal neural stem cells and effects of chronic alcohol exposure

Author

Dae D. Chung, Amanda H. Mahnke, Marisa R. Pinson, Nihal A. Salem, Michael S. Lai, Natalie P. Collins, Andrew E. Hillhouse, and Rajesh C. Miranda

Subjects

Prenatal alcohol exposure, Fetal sex, Ethanol, FASD, WGCNA, Consensus WGCNA, Medicine, Physiology, QP1-981

Abstract

Abstract Background Prenatal alcohol (ethanol) exposure (PAE) results in brain growth restriction, in part, by reprogramming self-renewal and maturation of fetal neural stem cells (NSCs) during neurogenesis. We recently showed that ethanol resulted in enrichment of both proteins and pro-maturation microRNAs in sub-200-nm-sized extracellular vesicles (EVs) secreted by fetal NSCs. Moreover, EVs secreted by ethanol-exposed NSCs exhibited diminished efficacy in controlling NSC metabolism and maturation. Here we tested the hypothesis that ethanol may also influence the packaging of RNAs into EVs from cell-of-origin NSCs. Methods Sex-specified fetal murine iso-cortical neuroepithelia from three separate pregnancies were maintained ex vivo, as neurosphere cultures to model the early neurogenic niche. EVs were isolated by ultracentrifugation from NSCs exposed to a dose range of ethanol. RNA from paired EV and cell-of-origin NSC samples was processed for ribosomal RNA-depleted RNA sequencing. Differential expression analysis and exploratory weighted gene co-expression network analysis (WGCNA) identified candidate genes and gene networks that were drivers of alterations to the transcriptome of EVs relative to cells. Results The RNA content of EVs differed significantly from cell-of-origin NSCs. Biological sex contributed to unique transcriptome variance in EV samples, where > 75% of the most variant transcripts were also sex-variant in EVs but not in cell-of-origin NSCs. WGCNA analysis also identified sex-dependent enrichment of pathways, including dopamine receptor binding and ectoderm formation in female EVs and cell-substrate adhesion in male EVs, with the top significant DEGs from differential analysis of overall individual gene expressions, i.e., Arhgap15, enriched in female EVs, and Cenpa, enriched in male EVs, also serving as WCGNA hub genes of sex-biased EV WGCNA clusters. In addition to the baseline RNA content differences, ethanol exposure resulted in a significant dose-dependent change in transcript expression in both EVs and cell-of-origin NSCs that predominantly altered sex-invariant RNAs. Moreover, at the highest dose, ~ 73% of significantly altered RNAs were enriched in EVs, but depleted in NSCs. Conclusions The EV transcriptome is distinctly different from, and more sex-variant than, the transcriptome of cell-of-origin NSCs. Ethanol, a common teratogen, results in dose-dependent sorting of RNA transcripts from NSCs to EVs which may reprogram the EV-mediated endocrine environment during neurogenesis.

Published

2023

3. Prenatal alcohol alters inflammatory signatures in enteric portal tissues following adult-onset cerebrovascular ischemic stroke

Author

Marisa R. Pinson, Shameena Bake, David A. Hurst, Nadia T. Samiya, Farida Sohrabji, and Rajesh C. Miranda

Subjects

Biological sciences, Developmental neuroscience, Neuroscience, Physiology, Science

Abstract

Summary: Prenatal alcohol exposure (PAE) impairs recovery from cerebrovascular ischemic stroke in adult rodents. Since the gut becomes dysbiotic following stroke, we assessed links between PAE and enteric portal inflammation. Adult control and PAE rat offspring received a unilateral endothelin-1-induced occlusion of the middle cerebral artery. Post-stroke behavioral disabilities and brain cytokines were assessed. Mesenteric adipose and liver transcriptomes were assessed from stroke-exposed and stroke-naive offspring. We identified, in the liver of stroke-naive animals, a moderate correlation between PAE and a gene network for inflammatory necroptosis. PAE inhibited the acute-phase brain inflammatory cytokine response to stroke. Post-stroke neurological function was correlated with an adipose gene network associated with B-lymphocyte differentiation and nuclear factor κB (NF-κB) signaling and with a liver pro-inflammatory gene network. Collectively, PAE inhibits brain inflammation but results in an inflammatory signature in enteric portal tissues after stroke, suggesting that PAE persistently and adversely impacts the gut-brain axis following adult-onset disease.

Published

2023

4. Microbiota and nutrition as risk and resiliency factors following prenatal alcohol exposure

Author

Deepa Upreti, Siara K. Rouzer, Abigail Bowring, Emma Labbe, Rosaline Kumar, Rajesh C. Miranda, and Amanda H. Mahnke

Subjects

nutrition, gut-brain axis, gut microbiota, ethanol, FASD, non-protein-coding RNA, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Alcohol exposure in adulthood can result in inflammation, malnutrition, and altered gastroenteric microbiota, which may disrupt efficient nutrient extraction. Clinical and preclinical studies have documented convincingly that prenatal alcohol exposure (PAE) also results in persistent inflammation and nutrition deficiencies, though research on the impact of PAE on the enteric microbiota is in its infancy. Importantly, other neurodevelopmental disorders, including autism spectrum and attention deficit/hyperactivity disorders, have been linked to gut microbiota dysbiosis. The combined evidence from alcohol exposure in adulthood and from other neurodevelopmental disorders supports the hypothesis that gut microbiota dysbiosis is likely an etiological feature that contributes to negative developmental, including neurodevelopmental, consequences of PAE and results in fetal alcohol spectrum disorders. Here, we highlight published data that support a role for gut microbiota in healthy development and explore the implication of these studies for the role of altered microbiota in the lifelong health consequences of PAE.

Published

2023

5. Vascular contributions to the neurobiological effects of prenatal alcohol exposure

Author

Sarah Z. Momin, Jacqueline T. Le, and Rajesh C. Miranda

Subjects

hypertension, fetal alcohol spectrum disorder, cardiovascular system, vascular pathology, retina, Therapeutics. Pharmacology, RM1-950

Abstract

Background: Fetal alcohol spectrum disorders (FASD) are often characterized as a cluster of brain-based disabilities. Though cardiovascular effects of prenatal alcohol exposure (PAE) have been documented, the vascular deficits due to PAE are less understood, but may contribute substantially to the severity of neurobehavioral presentation and health outcomes in persons with FASD.Methods: We conducted a systematic review of research articles curated in PubMed to assess the strength of the research on vascular effects of PAE. 40 pertinent papers were selected, covering studies in both human populations and animal models.Results: Studies in human populations identified cardiac defects, and defects in vasculature, including increased tortuosity, defects in basement membranes, capillary basal hyperplasia, endarteritis, and disorganized and diminished cerebral vasculature due to PAE. Preclinical studies showed that PAE rapidly and persistently results in vasodilation of large afferent cerebral arteries, but to vasoconstriction of smaller cerebral arteries and microvasculature. Moreover, PAE continues to affect cerebral blood flow into middle-age. Human and animal studies also indicate that ocular vascular parameters may have diagnostic and predictive value. A number of intervening mechanisms were identified, including increased autophagy, inflammation and deficits in mitochondria. Studies in animals identified persistent changes in blood flow and vascular density associated with endocannabinoid, prostacyclin and nitric oxide signaling, as well as calcium mobilization.Conclusion: Although the brain has been a particular focus of studies on PAE, the cardiovascular system is equally affected. Studies in human populations, though constrained by small sample sizes, did link pathology in major blood vessels and tissue vasculature, including brain vasculature, to PAE. Animal studies highlighted molecular mechanisms that may be useful therapeutic targets. Collectively, these studies suggest that vascular pathology is a possible contributing factor to neurobehavioral and health problems across a lifespan in persons with a diagnosis of FASD. Furthermore, ocular vasculature may serve as a biomarker for neurovascular health in FASD.

Published

2023

6. Prenatal opioid-exposed infant extracellular miRNA signature obtained at birth predicts severity of neonatal opioid withdrawal syndrome

Author

Amanda H. Mahnke, Melissa H. Roberts, Lawrence Leeman, Xingya Ma, Ludmila N. Bakhireva, and Rajesh C. Miranda

Subjects

Medicine, Science

Abstract

Abstract Prenatal opioid exposure (POE) is commonly associated with neonatal opioid withdrawal syndrome (NOWS), which is characterized by a broad variability in symptoms and severity. Currently there are no diagnostic tools to reliably predict which infants will develop severe NOWS, while risk stratification would allow for proactive decisions about appropriate clinical monitoring and interventions. The aim of this prospective cohort study was to assess if extracellular microRNAs (miRNAs) in umbilical cord plasma of infants with POE could predict NOWS severity. Participants (n = 58) consisted of pregnant women receiving medications for opioid use disorder and their infants. NOWS severity was operationalized as the need for pharmacologic treatment and prolonged hospitalization (≥ 14 days). Cord blood miRNAs were assessed using semi-quantitative qRT-PCR arrays. Receiver operating characteristic curves and area under the curve (AUC) were estimated. The expression of three miRNAs (miR-128-3p, miR-30c-5p, miR-421) predicted need for pharmacologic treatment (AUC: 0.85) and prolonged hospitalization (AUC: 0.90). Predictive validity improved after two miRNAs (let-7d-5p, miR-584-5p) were added to the need for pharmacologic treatment model (AUC: 0.94) and another two miRNAs (let-7b-5p, miR-10-5p) to the prolonged hospitalization model (AUC: 0.99). Infant cord blood extracellular miRNAs can proactively identify opioid-exposed neonates at high-risk for developing severe NOWS.

Published

2022

7. Maternal circulating miRNAs contribute to negative pregnancy outcomes by altering placental transcriptome and fetal vascular dynamics

Author

Marisa R. Pinson, Alexander M. Tseng, Tenley E. Lehman, Karen Chung, Jessica Gutierrez, Kirill V. Larin, Christina D. Chambers, and Rajesh C. Miranda

Subjects

Medicine, Science

Published

2023

8. Dose-related shifts in proteome and function of extracellular vesicles secreted by fetal neural stem cells following chronic alcohol exposure

Author

Dae D. Chung, Marisa R. Pinson, Amanda H. Mahnke, Nihal A. Salem, Khang T. Le, Elizabeth A. Payne, Tenley E. Lehman, Susan T. Weintraub, and Rajesh C. Miranda

Subjects

Prenatal alcohol exposure, Fetal alcohol spectrum disorder, Extracellular vesicle, Neural stem cell, Developmental, Proteome, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Accumulating evidence indicates that extracellular vesicles (EVs) mediate endocrine functions and also pathogenic effects of neurodevelopmental perturbagens like ethanol. We performed mass-spectrometry on EVs secreted by fetal murine cerebral cortical neural stem cells (NSCs), cultured ex-vivo as sex-specific neurosphere cultures, to identify overrepresented proteins and signaling pathways in EVs relative to parental NSCs in controls, and following exposure of parental NSCs to a dose range of ethanol. EV proteomes differ substantially from parental NSCs, and though EVs sequester proteins across sub-cellular compartments, they are enriched for distinct morphogenetic signals including the planar cell polarity pathway. Ethanol exposure favored selective protein sequestration in EVs and depletion in parental NSCs, and also resulted in dose-independent overrepresentation of cell-cycle and DNA replication pathways in EVs as well as dose-dependent overrepresentation of rRNA processing and mTor stress pathways. Transfer of untreated EVs to naïve cells resulted in decreased oxidative metabolism and S-phase, while EVs derived from ethanol-treated NSCs exhibited diminished effect. Collectively, these data show that NSCs secrete EVs with a distinct proteome that may have a general growth-inhibitory effect on recipient cells. Moreover, while ethanol results in selective transfer of proteins from NSCs to EVs, the efficacy of these exposure-derived EVs is diminished.

Published

2022

9. Infant circulating MicroRNAs as biomarkers of effect in fetal alcohol spectrum disorders

Author

Amanda H. Mahnke, Georgios D. Sideridis, Nihal A. Salem, Alexander M. Tseng, R. Colin Carter, Neil C. Dodge, Aniruddha B. Rathod, Christopher D. Molteno, Ernesta M. Meintjes, Sandra W. Jacobson, Rajesh C. Miranda, and Joseph L. Jacobson

Subjects

Medicine, Science

Abstract

Abstract Prenatal alcohol exposure (PAE) can result in cognitive and behavioral disabilities and growth deficits. Because alcohol-related neurobehavioral deficits may occur in the absence of overt dysmorphic features or growth deficits, there is a need to identify biomarkers of PAE that can predict neurobehavioral impairment. In this study, we assessed infant plasma extracellular, circulating miRNAs ( ex miRNAs) obtained from a heavily exposed Cape Town cohort to determine whether these can be used to predict PAE-related growth restriction and cognitive impairment. PAE, controlling for smoking as a covariate, altered 27% of expressed ex miRNAs with clinically-relevant effect sizes (Cohen’s d ≥ 0.4). Moreover, at 2 weeks, PAE increased correlated expression of ex miRNAs across chromosomes, suggesting potential co-regulation. In confirmatory factor analysis, the variance in expression for PAE-altered ex miRNAs at 2 weeks and 6.5 months was best described by three-factor models. Pathway analysis found that factors at 2 weeks were associated with (F1) cell maturation, cell cycle inhibition, and somatic growth, (F2) cell survival, apoptosis, cardiac development, and metabolism, and (F3) cell proliferation, skeletal development, hematopoiesis, and inflammation, and at 6.5 months with (F1) neurodevelopment, neural crest/mesoderm-derivative development and growth, (F2) immune system and inflammation, and (F3) somatic growth and cardiovascular development. Factors F3 at 2 weeks and F2 at 6.5 months partially mediated PAE-induced growth deficits, and factor F3 at 2 weeks partially mediated effects of PAE on infant recognition memory at 6.5 months. These findings indicate that infant ex miRNAs can help identify infants who will exhibit PAE-related deficits in growth and cognition.

Published

2021

10. Association between fetal sex and maternal plasma microRNA responses to prenatal alcohol exposure: evidence from a birth outcome-stratified cohort

Author

Nihal A. Salem, Amanda H. Mahnke, Alan B. Wells, Alexander M. Tseng, Lyubov Yevtushok, Natalya Zymak-Zakutnya, Wladimir Wertlecki, Christina D. Chambers, Rajesh C. Miranda, and Collaborative Initiative on Fetal Alcohol Spectrum Disorders (CIFASD)

Subjects

Bootstrap resampling, Sex as a biological variable, Extracellular miRNAs, Fetal alcohol spectrum disorders, Maternal miRNA co-secretion, Medicine, Physiology, QP1-981

Abstract

Abstract Most persons with fetal alcohol spectrum disorders (FASDs) remain undiagnosed or are diagnosed in later life. To address the need for earlier diagnosis, we previously assessed miRNAs in the blood plasma of pregnant women who were classified as unexposed to alcohol (UE), heavily exposed with affected infants (HEa), or heavily exposed with apparently unaffected infants (HEua). We reported that maternal miRNAs predicted FASD-related growth and psychomotor deficits in infants. Here, we assessed whether fetal sex influenced alterations in maternal circulating miRNAs following prenatal alcohol exposure (PAE). To overcome the loss of statistical power due to disaggregating maternal samples by fetal sex, we adapted a strategy of iterative bootstrap resampling with replacement to assess the stability of statistical parameter estimates. Bootstrap estimates of parametric and effect size tests identified male and female fetal sex-associated maternal miRNA responses to PAE that were not observed in the aggregated sample. Additionally, we observed, in HEa mothers of female, but not male fetuses, a network of co-secreted miRNAs whose expression was linked to miRNAs encoded on the X-chromosome. Interestingly, the number of significant miRNA correlations for the HEua group mothers with female fetuses was intermediate between HEa and UE mothers at mid-pregnancy, but more similar to UE mothers by the end of pregnancy. Collectively, these data show that fetal sex predicts maternal circulating miRNA adaptations, a critical consideration when adopting maternal miRNAs as diagnostic biomarkers. Moreover, a maternal co-secretion network, predominantly in pregnancies with female fetuses, emerged as an index of risk for adverse birth outcomes due to PAE.

Published

2020

11. Cerebellar Transcriptomic Analysis in a Chronic plus Binge Mouse Model of Alcohol Use Disorder Demonstrates Ethanol-Induced Neuroinflammation and Altered Glial Gene Expression

Author

Kalee N. Holloway, Marisa R. Pinson, James C. Douglas, Tonya M. Rafferty, Cynthia J. M. Kane, Rajesh C. Miranda, and Paul D. Drew

Subjects

AUD, astrocyte, microglia, oligodendrocyte, neuroinflammation, transcriptomics, Cytology, QH573-671

Abstract

Alcohol use disorder (AUD) is one of the most common preventable mental health disorders and can result in pathology within the CNS, including the cerebellum. Cerebellar alcohol exposure during adulthood has been associated with disruptions in proper cerebellar function. However, the mechanisms regulating ethanol-induced cerebellar neuropathology are not well understood. High-throughput next generation sequencing was performed to compare control versus ethanol-treated adult C57BL/6J mice in a chronic plus binge model of AUD. Mice were euthanized, cerebella were microdissected, and RNA was isolated and submitted for RNA-sequencing. Down-stream transcriptomic analyses revealed significant changes in gene expression and global biological pathways in control versus ethanol-treated mice that included pathogen-influenced signaling pathways and cellular immune response pathways. Microglial-associated genes showed a decrease in homeostasis-associated transcripts and an increase in transcripts associated with chronic neurodegenerative diseases, while astrocyte-associated genes showed an increase in transcripts associated with acute injury. Oligodendrocyte lineage cell genes showed a decrease in transcripts associated with both immature progenitors as well as myelinating oligodendrocytes. These data provide new insight into the mechanisms by which ethanol induces cerebellar neuropathology and alterations to the immune response in AUD.

Published

2023

12. Cell-type and fetal-sex-specific targets of prenatal alcohol exposure in developing mouse cerebral cortex

Author

Nihal A. Salem, Amanda H. Mahnke, Kranti Konganti, Andrew E. Hillhouse, and Rajesh C. Miranda

Subjects

Molecular Physiology, Epigenetics, Developmental Neuroscience, Transcriptomics, Science

Abstract

Summary: Prenatal alcohol exposure (PAE) results in cerebral cortical dysgenesis. Single-cell RNA sequencing was performed on murine fetal cerebral cortical cells from six timed pregnancies, to decipher persistent cell- and sex-specific effects of an episode of PAE during early neurogenesis. We found, in an analysis of 38 distinct neural subpopulations across 8 lineage subtypes, that PAE altered neural maturation and cell cycle and disrupted gene co-expression networks. Whereas most differentially regulated genes were inhibited, particularly in females, PAE also induced sex-independent neural expression of fetal hemoglobin, a presumptive epigenetic stress adaptation. PAE inhibited Bcl11a, Htt, Ctnnb1, and other upstream regulators of differentially expressed genes and inhibited several autism-linked genes, suggesting that neurodevelopmental disorders share underlying mechanisms. PAE females exhibited neural loss of X-inactivation, with correlated activation of autosomal genes and evidence for spliceosome dysfunction. Thus, episodic PAE persistently alters the developing neural transcriptome, contributing to sex- and cell-type-specific teratology.

Published

2021

13. Prenatal alcohol exposure exacerbates acute sensorimotor deficits and impedes long‐term behavioral recovery from the effects of an adult‐onset cerebrovascular ischemic stroke

Author

Shameena Bake, David A. Hurst, Rajesh C. Miranda, and Farida Sohrabji

Subjects

Psychiatry and Mental health, Medicine (miscellaneous), Toxicology

Abstract

Prenatal alcohol exposure (PAE) is a significant risk factor for developmental disability, although its health consequences across the lifespan are poorly understood. Here, we hypothesized that latent brain and systemic consequences of PAE influence resiliency to adult-onset neurological disease, specifically, cerebrovascular ischemic stroke.Pregnant Sprague-Dawley rats were exposed episodically to ethanol during the fetal neurogenic period. Adult (5 months) male and female PAE and control offspring were subjected to endothelin-1-induced unilateral middle cerebral artery occlusion. In the acute injury phase outcomes including stroke volume and neurological, endocrine, and gut permeability markers were assessed. Because the effects of stroke in human populations evolve over months to years, we also assessed hippocampal- and amygdala-dependent memory function and social interaction preference up to 6 months following a stroke, in middle-aged offspring.Prenatal alcohol exposure did not alter infarct volume, but significantly increased neurological deficits in both sexes, and impaired interhemispheric sensorimotor integration in PAE females. The IGF-1/IGFBP3 ratio, a measure of bioavailable IGF-1, was significantly reduced, while circulating levels of bacterial lipopolysaccharide, an inflammagen, were significantly increased in PAE males. In PAE females, the circulating IGF-1/IGFBP3 ratio was significantly increased and estradiol-17b levels were significantly reduced. The intestinal fatty acid binding protein, a surrogate marker of gut permeability was also significantly increased in PAE females. Longer-term deficits in hippocampal-associated memory and social interactions were observed in PAE males, while deficits in amygdala-dependent memory were observed in PAE females.PAE contributes to adverse effects on brain health and decreased resiliency in response to a common adult-onset neurovascular disease, cerebrovascular ischemic stroke.

Published

2022

14. Optical coherence angiography to assess the dose-effect relationship of prenatal alcohol exposure on fetal brain vasculature

Author

Jessica Gutierrez, Manmohan Singh, Salavat R. Aglyamov, Rajesh C. Miranda, and Kirill V. Larin

Published

2023

15. Prenatal alcohol exposure contributes to negative pregnancy outcomes by altering fetal vascular dynamics and the placental transcriptome

Author

Marisa R, Pinson, Alexander M, Tseng, Amy, Adams, Tenley E, Lehman, Karen, Chung, Jessica, Gutierrez, Kirill V, Larin, Christina, Chambers, and Rajesh C, Miranda

Subjects

Fetal Growth Retardation, Ethanol, Placenta, Pregnancy Outcome, Medicine (miscellaneous), Fetal Blood, Toxicology, Mice, Psychiatry and Mental health, Pregnancy, Prenatal Exposure Delayed Effects, Animals, Humans, Female, Transcriptome

Abstract

Prenatal alcohol exposure (PAE) has been shown to alter fetal blood flow in utero and is also associated with placental insufficiency and intrauterine growth restriction (IUGR), suggesting an underlying connection between perturbed circulation and pregnancy outcomes.Timed-pregnant C57/BL6NHsd mice, bred in-house, were exposed by gavage on gestational day 10 (GD10) to ethanol (3 g/kg) or purified water, as a control. Pulse-wave Doppler ultrasound measurements for umbilical arteries and ascending aorta were obtained post-gavage (GD12, GD14, GD18) on 2 fetuses/litter. RNA from the non-decidual (labyrinthine and junctional zone) portion of placentas was isolated and processed for RNA-seq and subsequent bioinformatic analyses, and the association between transcriptomic changes and fetal phenotypes assessed.Exposure to ethanol in pregnant mice on GD10 attenuates umbilical cord blood flow transiently during gestation, and is associated with indices of IUGR, specifically decreased fetal weight and morphometric indices of cranial growth. Moreover, RNA-seq of the fetal portion of the placenta demonstrated that this single exposure has lasting transcriptomic changes, including upregulation of Tet3, which is associated with spontaneous abortion. Weighted gene co-expression network analysis (WGCNA) identified erythrocyte differentiation and homeostasis as important pathways associated with improved umbilical cord blood flow as gestation progresses. WGCNA also identified sensory perception of chemical stimulus/odorant and receptor activity as important pathways associated with cranial growth.Our data suggest that PAE perturbs the expression of placental genes relevant for placental hematopoiesis and environmental sensing, resulting in transient impairment of umbilical cord blood flow and, subsequently, IUGR.

Published

2022

16. Hemorrhage and Locomotor Deficits Induced by Pain Input after Spinal Cord Injury Are Partially Mediated by Changes in Hemodynamics

Author

Jacob A. Davis, Misty M Strain, Rajesh C. Miranda, Gizelle Nicole Fauss, Rachel E. Baine, James W. Grau, Christopher West, Melissa K. Henwood, Joshua A. Reynolds, David T. Johnston, and Yung-Jen Huang

Subjects

Male, Pain, Hemodynamics, Hemorrhage, Rats, Sprague-Dawley, Norepinephrine (medication), Risk Factors, Prazosin, Noxious stimulus, Animals, Medicine, Spinal cord injury, Spinal Cord Injuries, business.industry, Original Articles, Blood flow, medicine.disease, Rats, Disease Models, Animal, Blood pressure, Anesthesia, Shock (circulatory), Neurology (clinical), medicine.symptom, business, Locomotion, medicine.drug

Abstract

Nociceptive input diminishes recovery and increases lesion area after a spinal cord injury (SCI). Recent work has linked these effects to the expansion of hemorrhage at the site of injury. The current paper examines whether these adverse effects are linked to a pain-induced rise in blood pressure and/or flow. Male rats with a low-thoracic spinal cord injury were treated with noxious input [electrical stimulation (shock) or capsaicin] soon after injury. Locomotor recovery and blood pressure were assessed throughout. Tissues were collected three hours, 24 hours, or 21 days later. Both electrical stimulation and capsaicin undermined locomotor function and increased the area of hemorrhage. Changes in blood pressure/flow varied depending on type of noxious input, with only shock producing changes in blood pressure. Providing behavioral control over the termination of noxious stimulation attenuated the rise in blood pressure and hemorrhage. Pretreatment with the alpha-1 adrenergic receptor inverse agonist, prazosin, reduced the stimulation-induced rise in blood pressure and hemorrhage. Prazosin also attenuated the adverse effect noxious stimulation has on long-term recovery. Administration of the adrenergic agonist, norepinephrine, a day after injury induced an increase in blood pressure and disrupted locomotor function, but had little effect on hemorrhage. Further, inducing a rise in blood pressure/flow using norepinephrine undermined long-term recovery and increased tissue loss. Mediational analyses suggest that the pain-induced rise in blood flow may foster hemorrhage after SCI. Increased blood pressure appears to act through an independent process to adversely affect locomotor performance, tissue sparing, and long-term recovery.

Published

2021

17. Alterations in the proteome of extracellular vesicles secreted by neural stem cells as a means for intercellular transfer of stress signals following developmental ethanol exposure

Author

Dae Chung, Amanda Mahnke, Nihal Salem, Marisa Pinson, Sammy Pardo, Susan Weintraub, and Rajesh C. Miranda

Subjects

Behavioral Neuroscience, Health (social science), Neurology, General Medicine, Toxicology, Biochemistry

Published

2023

18. Prenatal alcohol-induced sex differences in immune, metabolic and neurobehavioral outcomes in adult rats

Author

Rajesh C. Miranda, Joanna P. Chambers, Ashlyn E. Fairchild, Roxanna Mota, Shameena Bake, Sivani Pandey, Marisa R Pinson, and Farida Sohrabji

Subjects

Male, medicine.medical_specialty, animal structures, Offspring, medicine.medical_treatment, Immunology, Prenatal alcohol, Adipose tissue, Inflammation, Spleen, Carbohydrate metabolism, Anxiety, Article, Rats, Sprague-Dawley, Behavioral Neuroscience, Immune system, Pregnancy, Internal medicine, medicine, Animals, Sex Characteristics, Ethanol, Endocrine and Autonomic Systems, business.industry, Leptin, Rats, medicine.anatomical_structure, Endocrinology, Cytokine, Prenatal Exposure Delayed Effects, Female, medicine.symptom, business

Abstract

Prenatal alcohol exposure (PAE) can result in neurobehavioral anomalies, that may be exacerbated by co-occurring metabolic and immune system deficits. To test the hypothesis that the peripheral inflammation in adult PAE offspring is linked to poor glucose metabolism and neurocognitive deficits, pregnant Sprague-Dawley rats were exposed to ethanol vapor or ambient air during the latter half of gestation. We assessed, in adult offspring of both sexes, performance on a battery of neurocognitive behaviors, glucose tolerance, circulating and splenic immune cells by flow-cytometry, and circulating and tissue (liver, mesenteric adipose, and spleen) cytokines by multiplexed assays. PAE reduced both the ratio of spleen to body weight and splenic regulatory T-cell (Treg) numbers. PAE males, but not females exhibited an increase in circulating monocytes. Overall, PAE males exhibited a suppression of cytokine levels, while PAE females exhibited elevated cytokines in mesenteric adipose tissue (IL-6 and IL1α) and liver (IFN-γ, IL-1β, IL-13, IL-18, IL-12p70, and MCP-1), along with increased glucose intolerance. Behavioral analysis also showed sex-dependent PAE effects. PAE-males exhibited increased anxiety-like behavior while PAE-females showed decreased social interaction. PAE offspring of both sexes exhibited impaired recognition of novel objects. Multilinear regression modeling to predict the association between peripheral immune status, glucose intolerance and behavioral outcomes, showed that in PAE offspring, higher levels of adipose leptin and liver TNF- α predicted higher circulating glucose levels. Lower liver IL-1 α and higher plasma fractalkine predicted more time spent in the center of an open-field with sex being an additional predictor. Higher circulating and splenic Tregs predicted better social interaction in the PAE-offspring. Collectively, our data show that peripheral immune status is a persistent, sex-dependent predictor of glucose intolerance and neurobehavioral function in adult PAE offspring.

Published

2021

19. Divergent and overlapping hippocampal and cerebellar transcriptome responses following developmental ethanol exposure during the secondary neurogenic period

Author

Cynthia J.M. Kane, Rajesh C. Miranda, Marisa R Pinson, James C. Douglas, Paul D. Drew, and Kalee N Holloway

Subjects

Male, endocrine system, Cerebellum, Neurogenesis, Medicine (miscellaneous), Apoptosis, Biology, Hippocampal formation, Toxicology, Hippocampus, Article, Transcriptome, Biological pathway, Mice, Interneurons, Pregnancy, mental disorders, medicine, Animals, Hippocampus (mythology), RNA, Messenger, reproductive and urinary physiology, Ethanol, Cell Cycle, Gene Expression Regulation, Developmental, Teratology, Oligodendrocyte, Cell biology, Mice, Inbred C57BL, Psychiatry and Mental health, medicine.anatomical_structure, Animals, Newborn, nervous system, Female

Abstract

Background The developing hippocampus and cerebellum, unique among brain regions, exhibit a secondary surge in neurogenesis during the third trimester of pregnancy. Ethanol (EtOH) exposure during this period is results in a loss of tissue volume and associated neurobehavioral deficits. However, mechanisms that link EtOH exposure to teratology in these regions are not well understood. We therefore analyzed transcriptomic adaptations to EtOH exposure to identify mechanistic linkages. Methods Hippocampi and cerebella were microdissected at postnatal day (P)10, from control C57BL/6J mouse pups, and pups treated with 4 g/kg of EtOH from P4 to P9. RNA was isolated and RNA-seq analysis was performed. We compared gene expression in EtOH- and vehicle-treated control neonates and performed biological pathway-overrepresentation analysis. Results While EtOH exposure resulted in the general induction of genes associated with the S-phase of mitosis in both cerebellum and hippocampus, overall there was little overlap in differentially regulated genes and associated biological pathways between these regions. In cerebellum, EtOH additionally induced gene expression associated with the G2/M-phases of the cell cycle and sonic hedgehog signaling, while in hippocampus, EtOH-induced the pathways for ribosome biogenesis and protein translation. Moreover, EtOH inhibited the transcriptomic identities associated with inhibitory interneuron subpopulations in the hippocampus, while in the cerebellum there was a more pronounced inhibition of transcripts across multiple oligodendrocyte maturation stages. Conclusions These data indicate that during the delayed neurogenic period, EtOH may stimulate the cell cycle, but it otherwise results in widely divergent molecular effects in the hippocampus and cerebellum. Moreover, these data provide evidence for region- and cell-type-specific vulnerability, which may contribute to the pathogenic effects of developmental EtOH exposure.

Published

2021

20. Alcohol & cannabinoid co-use: Implications for impaired fetal brain development following gestational exposure

Author

Siara Kate Rouzer, Jessica Gutierrez, Kirill V. Larin, and Rajesh C. Miranda

Subjects

Developmental Neuroscience, Neurology

Published

2023

21. Gag-like proteins: Novel mediators of prenatal alcohol exposure in neural development

Author

Marisa R. Pinson, Dae D. Chung, Amanda H. Mahnke, Nihal A. Salem, Daniel Osorio, Vijay Nair, Elizabeth A. Payne, Jonathan J. del Real, James J. Cai, and Rajesh C. Miranda

Subjects

Male, Mammals, Ethanol, Neurogenesis, Medicine (miscellaneous), Cell Differentiation, Toxicology, Psychiatry and Mental health, Mice, Neural Stem Cells, Pregnancy, Prenatal Exposure Delayed Effects, Animals, Humans, Female, Cells, Cultured, Cell Proliferation

Abstract

We previously showed that ethanol did not kill fetal neural stem cells (NSCs), but that their numbers nevertheless are decreased due to aberrant maturation and loss of self-renewal. To identify mechanisms that mediate this loss of NSCs, we focused on a family of Gag-like proteins (GLPs), derived from retroviral gene remnants within mammalian genomes. GLPs are important for fetal development, though their role in brain development is virtually unexplored. Moreover, GLPs may be transferred between cells in extracellular vesicles (EVs) and thereby transfer environmental adaptations between cells. We hypothesized that GLPs may mediate some effects of ethanol in NSCs.Sex-segregated male and female fetal murine cortical NSCs, cultured ex vivo as nonadherent neurospheres, were exposed to a dose range of ethanol and to mitogen-withdrawal-induced differentiation. We used siRNAs to assess the effects of NSC-expressed GLP knockdown on growth, survival, and maturation and in silico GLP knockout, in an in vivo single-cell RNA-sequencing dataset, to identify GLP-mediated developmental pathways that were also ethanol-sensitive.PEG10 isoform-1, isoform-2, and PNMA2 were identified as dominant GLP species in both NSCs and their EVs. Ethanol-exposed NSCs exhibited significantly elevated PEG10 isoform-2 and PNMA2 protein during differentiation. Both PEG10 and PNMA2 were mediated apoptosis resistance and additionally, PEG10 promoted neuronal and astrocyte lineage maturation. Neither GLP influenced metabolism nor cell cycle in NSCs. Virtual PEG10 and PNMA2 knockout identified gene transcription regulation and ubiquitin-ligation processes as candidate mediators of GLP-linked prenatal alcohol effects.Collectively, GLPs present in NSCs and their EVs may confer apoptosis resistance within the NSC niche and contribute to the abnormal maturation induced by ethanol.

Published

2022

22. Toxic and Teratogenic Effects of Prenatal Alcohol Exposure on Fetal Development, Adolescence, and Adulthood

Author

Rhea A Patel, Dae D Chung, Lokeshwar S Bhenderu, Michael S Lai, Marisa R Pinson, and Rajesh C. Miranda

Subjects

Adult, animal structures, Adolescent, QH301-705.5, Physiology, Review, Disease, Extracellular vesicles, Catalysis, Epigenesis, Genetic, Fetal Development, Inorganic Chemistry, chemistry.chemical_compound, Pregnancy, epigenetic modification, Humans, Medicine, Physical and Theoretical Chemistry, Biology (General), Molecular Biology, QD1-999, Spectroscopy, prenatal alcohol exposure, miRNA, Fetus, early childhood adversity, Ethanol, business.industry, alcohol, Organic Chemistry, General Medicine, Adolescent Development, Computer Science Applications, Chemistry, Gene Expression Regulation, chemistry, Prenatal Exposure Delayed Effects, Prenatal alcohol exposure, Toxicity, Teratogenesis, Female, business, extracellular vesicles, developmental origin of health and disease, Toxicant

Abstract

Prenatal alcohol exposure (PAE) can have immediate and long-lasting toxic and teratogenic effects on an individual’s development and health. As a toxicant, alcohol can lead to a variety of physical and neurological anomalies in the fetus that can lead to behavioral and other impairments which may last a lifetime. Recent studies have focused on identifying mechanisms that mediate the immediate teratogenic effects of alcohol on fetal development and mechanisms that facilitate the persistent toxic effects of alcohol on health and predisposition to disease later in life. This review focuses on the contribution of epigenetic modifications and intercellular transporters like extracellular vesicles to the toxicity of PAE and to immediate and long-term consequences on an individual’s health and risk of disease.

Published

2021

23. Engaging pain fibers after a spinal cord injury fosters hemorrhage and expands the area of secondary injury

Author

James W. Grau, Melissa K. Henwood, Misty M. Strain, Yung-Jen Huang, Joel D. Turtle, and Rajesh C. Miranda

Subjects

Male, 0301 basic medicine, Pathology, medicine.medical_specialty, Pain, Stimulation, Thoracic Vertebrae, Article, Rats, Sprague-Dawley, 03 medical and health sciences, 0302 clinical medicine, Developmental Neuroscience, Noxious stimulus, medicine, Animals, Spinal cord injury, Spinal Cord Injuries, Pain Measurement, Nerve Fibers, Unmyelinated, business.industry, Chronic pain, Hematoma, Epidural, Spinal, medicine.disease, Spinal cord, Rats, 030104 developmental biology, Nociception, medicine.anatomical_structure, Neurology, Shock (circulatory), Nociceptor, medicine.symptom, business, 030217 neurology & neurosurgery

Abstract

In humans, spinal cord injury (SCI) is often accompanied by additional tissue damage (polytrauma) that can engage pain (nociceptive) fibers. Prior work has shown that this nociceptive input can expand the area of tissue damage (secondary injury), undermine behavioral recovery, and enhance the development of chronic pain. Here, it is shown that nociceptive input given a day after a lower thoracic contusion injury in rats enhances the infiltration of red blood cells at the site of injury, producing an area of hemorrhage that expands secondary injury. Peripheral nociceptive fibers were engaged 24 h after injury by means of electrical stimulation (shock) applied at an intensity that engages unmyelinated pain (C) fibers or through the application of the irritant capsaicin. Convergent western immunoblot and cyanmethemoglobin colorimetric assays showed that both forms of stimulation increased the concentration of hemoglobin at the site of injury, with a robust effect observed 3–24 h after stimulation. Histopathology confirmed that shock treatment increased the area of hemorrhage and the infiltration of red blood cells. SCI can lead to hemorrhage by engaging the sulfonylurea receptor 1 (SUR1) transient receptor potential melastatin 4 (TRPM4) channel complex in neurovascular endothelial cells, which leads to cell death and capillary fragmentation. Histopathology confirmed that areas of hemorrhage showed capillary fragmentation. Co-immunoprecipitation of the SUR1-TRPM4 complex showed that it was up-regulated by noxious stimulation. Shock-induced hemorrhage was associated with an acute disruption in locomotor performance. These results imply that noxious stimulation impairs long-term recovery because it amplifies the breakdown of the blood spinal cord barrier (BSCB) and the infiltration of red blood cells, which expands the area of secondary injury.

Published

2019

24. Optical coherence angiography to assess the combined effects of alcohol and nicotine on fetal brain vasculature

Author

Rajesh C. Miranda, Chih-Hao Liu, Manmohan Singh, Raksha Raghunathan, Jessica Gutierrez, and Kirill V. Larin

Subjects

Pregnancy, Fetus, medicine.diagnostic_test, business.industry, Physiology, Alcohol, medicine.disease, Teratology, Nicotine, Substance abuse, chemistry.chemical_compound, chemistry, Angiography, medicine, Gestation, business, medicine.drug

Abstract

Prenatal substance abuse is a leading cause of congenital defects. The severity of the defect caused depends on the substance used and the period of gestation during which the abuse happened. Several studies have documented the effects of alcohol and nicotine, used individually. However, the co-abuse of alcohol and nicotine is very common. There is not much literature on this. While first trimester substance abuse is common, several women continue to abuse substances well into their second trimester of pregnancy. The second trimester marks the peak period for fetal neurogenesis and angiogenesis. Exposure to any teratogen during this period is known to affect fetal brain development. This study uses optical coherence angiography to evaluate changes in fetal brain vasculature due to prenatal exposure to a combination of alcohol and nicotine. These results were compared to results from two other groups that were administered alcohol and nicotine independently. These comparisons showed a statistically significant difference between the nicotine group and the group that was administered both alcohol and nicotine, which was not seen with the alcohol group.

Published

2021

25. A comparison of microvasculature changes in the fetal brain and maternal extremities due to prenatal alcohol exposure using optical coherence angiography

Author

Rajesh C. Miranda, Manmohan Singh, Kirill V. Larin, Raksha Raghunathan, and Chih-Hao Liu

Subjects

Fetus, medicine.diagnostic_test, business.industry, Neurogenesis, Physiology, Vasodilation, Hindlimb, Prenatal alcohol exposure, embryonic structures, Angiography, medicine, Gestation, sense organs, medicine.symptom, business, Vasoconstriction

Abstract

Prenatal alcohol exposure (PAE) causes a spectrum of abnormalities, collectively termed as fetal alcohol spectrum disorders (FASD). The severity of the defect depends on the amount of alcohol consumed and the period of gestation during which alcohol was consumed. PAE during the second trimester is known to affect fetal brain development as this period of gestation marks the peak period for fetal neurogenesis and angiogenesis. Our previous study evaluated acute changes in fetal brain vasculature after PAE. However, not much has been done to assess concurrent changes on both the fetal and maternal side. This study uses correlation mapping optical coherence angiography (cm-OCA) to evaluate changes in vasculature in the fetal brain and the maternal hindlimb after maternal exposure to alcohol. Results showed drastic vasoconstriction in the fetal brain while vasodilation was seen in the mother, unlike results from the sham group, where there was no significant change in both the fetus and the mother. Changes seen in the fetal brain was similar to our previously published results.

Published

2021

26. Cell-type and fetal-sex-specific targets of prenatal alcohol exposure in developing mouse cerebral cortex

Author

Andrew Hillhouse, Rajesh C. Miranda, Nihal A. Salem, Amanda H. Mahnke, and Kranti Konganti

Subjects

0301 basic medicine, Cell type, Fetus, Multidisciplinary, animal structures, Science, Neurogenesis, 02 engineering and technology, Cell cycle, Biology, 021001 nanoscience & nanotechnology, Teratology, Molecular Physiology, Transcriptome, Andrology, 03 medical and health sciences, 030104 developmental biology, Developmental Neuroscience, Fetal hemoglobin, Epigenetics, 0210 nano-technology, Transcriptomics

Abstract

Summary: Prenatal alcohol exposure (PAE) results in cerebral cortical dysgenesis. Single-cell RNA sequencing was performed on murine fetal cerebral cortical cells from six timed pregnancies, to decipher persistent cell- and sex-specific effects of an episode of PAE during early neurogenesis. We found, in an analysis of 38 distinct neural subpopulations across 8 lineage subtypes, that PAE altered neural maturation and cell cycle and disrupted gene co-expression networks. Whereas most differentially regulated genes were inhibited, particularly in females, PAE also induced sex-independent neural expression of fetal hemoglobin, a presumptive epigenetic stress adaptation. PAE inhibited Bcl11a, Htt, Ctnnb1, and other upstream regulators of differentially expressed genes and inhibited several autism-linked genes, suggesting that neurodevelopmental disorders share underlying mechanisms. PAE females exhibited neural loss of X-inactivation, with correlated activation of autosomal genes and evidence for spliceosome dysfunction. Thus, episodic PAE persistently alters the developing neural transcriptome, contributing to sex- and cell-type-specific teratology.

Published

2021

27. Infant circulating MicroRNAs as biomarkers of effect in fetal alcohol spectrum disorders

Author

Sandra W. Jacobson, Aniruddha B. Rathod, Rajesh C. Miranda, Nihal A. Salem, Christopher D. Molteno, Joseph L. Jacobson, Alexander M. Tseng, Ernesta M. Meintjes, R. Colin Carter, Amanda H. Mahnke, Neil C. Dodge, and Georgios D. Sideridis

Subjects

0301 basic medicine, Adult, Male, medicine.medical_specialty, animal structures, Adolescent, Somatic cell, Science, Inflammation, Cell Maturation, Article, 03 medical and health sciences, 0302 clinical medicine, Immune system, Internal medicine, Extracellular, Medicine, Humans, Circulating MicroRNA, Multidisciplinary, business.industry, Cell growth, Neurodevelopmental disorders, Infant, Newborn, Cognition, Haematopoiesis, 030104 developmental biology, Endocrinology, Fetal Alcohol Spectrum Disorders, miRNAs, Female, medicine.symptom, business, 030217 neurology & neurosurgery, Biomarkers

Abstract

Prenatal alcohol exposure (PAE) can result in cognitive and behavioral disabilities and growth deficits. Because alcohol-related neurobehavioral deficits may occur in the absence of overt dysmorphic features or growth deficits, there is a need to identify biomarkers of PAE that can predict neurobehavioral impairment. In this study, we assessed infant plasma extracellular, circulating miRNAs (exmiRNAs) obtained from a heavily exposed Cape Town cohort to determine whether these can be used to predict PAE-related growth restriction and cognitive impairment. PAE, controlling for smoking as a covariate, altered 27% of expressed exmiRNAs with clinically-relevant effect sizes (Cohen’s d ≥ 0.4). Moreover, at 2 weeks, PAE increased correlated expression of exmiRNAs across chromosomes, suggesting potential co-regulation. In confirmatory factor analysis, the variance in expression for PAE-altered exmiRNAs at 2 weeks and 6.5 months was best described by three-factor models. Pathway analysis found that factors at 2 weeks were associated with (F1) cell maturation, cell cycle inhibition, and somatic growth, (F2) cell survival, apoptosis, cardiac development, and metabolism, and (F3) cell proliferation, skeletal development, hematopoiesis, and inflammation, and at 6.5 months with (F1) neurodevelopment, neural crest/mesoderm-derivative development and growth, (F2) immune system and inflammation, and (F3) somatic growth and cardiovascular development. Factors F3 at 2 weeks and F2 at 6.5 months partially mediated PAE-induced growth deficits, and factor F3 at 2 weeks partially mediated effects of PAE on infant recognition memory at 6.5 months. These findings indicate that infant exmiRNAs can help identify infants who will exhibit PAE-related deficits in growth and cognition.

Published

2020

28. Association between fetal sex and maternal plasma microRNA responses to prenatal alcohol exposure: evidence from a birth outcome-stratified cohort

Author

Rajesh C. Miranda, Lyubov Yevtushok, Wladimir Wertlecki, Collaborative Initiative on Fetal Alcohol Spectrum Disorders, Natalya Zymak-Zakutnya, Christina D. Chambers, Alexander M. Tseng, Amanda H. Mahnke, Nihal A. Salem, and Alan Wells

Subjects

0301 basic medicine, Male, Physiology, lcsh:Medicine, Reproductive health and childbirth, lcsh:Physiology, Cohort Studies, Alcohol Use and Health, Substance Misuse, 0302 clinical medicine, Endocrinology, Pregnancy, Fetal sex, Blood plasma, Infant Mortality, Maternal miRNA co-secretion, Collaborative Initiative on Fetal Alcohol Spectrum Disorders, Fetal alcohol spectrum disorders, Psychomotor learning, Pediatric, lcsh:QP1-981, Alcoholism, Cohort, Female, Human, Biotechnology, Adult, Intellectual and Developmental Disabilities (IDD), Chromosomes, Gender Studies, 03 medical and health sciences, Young Adult, Clinical Research, Sex as a biological variable, microRNA, medicine, Genetics, Humans, Conditions Affecting the Embryonic and Fetal Periods, Association (psychology), Fetal Alcohol Spectrum Disorders (FASD), Chromosomes, Human, X, Fetus, Chromosomes, Human, Y, Extracellular miRNAs, Ethanol, business.industry, Research, lcsh:R, Perinatal Period - Conditions Originating in Perinatal Period, medicine.disease, Brain Disorders, MicroRNAs, 030104 developmental biology, Good Health and Well Being, Bootstrap resampling, business, 030217 neurology & neurosurgery

Abstract

Most persons with fetal alcohol spectrum disorders (FASDs) remain undiagnosed or are diagnosed in later life. To address the need for earlier diagnosis, we previously assessed miRNAs in the blood plasma of pregnant women who were classified as unexposed to alcohol (UE), heavily exposed with affected infants (HEa), or heavily exposed with apparently unaffected infants (HEua). We reported that maternal miRNAs predicted FASD-related growth and psychomotor deficits in infants. Here, we assessed whether fetal sex influenced alterations in maternal circulating miRNAs following prenatal alcohol exposure (PAE). To overcome the loss of statistical power due to disaggregating maternal samples by fetal sex, we adapted a strategy of iterative bootstrap resampling with replacement to assess the stability of statistical parameter estimates. Bootstrap estimates of parametric and effect size tests identified male and female fetal sex-associated maternal miRNA responses to PAE that were not observed in the aggregated sample. Additionally, we observed, in HEa mothers of female, but not male fetuses, a network of co-secreted miRNAs whose expression was linked to miRNAs encoded on the X-chromosome. Interestingly, the number of significant miRNA correlations for the HEua group mothers with female fetuses was intermediate between HEa and UE mothers at mid-pregnancy, but more similar to UE mothers by the end of pregnancy. Collectively, these data show that fetal sex predicts maternal circulating miRNA adaptations, a critical consideration when adopting maternal miRNAs as diagnostic biomarkers. Moreover, a maternal co-secretion network, predominantly in pregnancies with female fetuses, emerged as an index of risk for adverse birth outcomes due to PAE.

Published

2020

29. Dose-response analysis of microvasculature changes in the murine fetal brain and the maternal extremities due to prenatal ethanol exposure

Author

Rajesh C. Miranda, Chih-Hao Liu, Amur Kouka, Raksha Raghunathan, Manmohan Singh, and Kirill V. Larin

Subjects

Paper, Biomedical Engineering, Physiology, Vasodilation, Hindlimb, 01 natural sciences, Brain mapping, Imaging, 010309 optics, Biomaterials, chemistry.chemical_compound, Mice, Fetus, Pregnancy, murine embryos, 0103 physical sciences, Medicine, Animals, brain vasculature, Ethanol, optical coherence tomography, medicine.diagnostic_test, business.industry, Brain, Extremities, Blood flow, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, chemistry, In utero, Fetal Alcohol Spectrum Disorders, Angiography, Microvessels, Female, business

Abstract

Significance: Prenatal exposure to ethanol causes several morphological and neurobehavioral deficits. While there are some studies on the effects of ethanol exposure on blood flow, research focusing on acute changes in the microvasculature is limited. Aim: The first aim of this study was to assess the dose-dependent changes in murine fetal brain microvasculature of developing fetuses in response to maternal alcohol consumption. The second aim was to quantify changes in vasculature occurring concurrently in the mother’s hindlimb and the fetus’s brain after maternal exposure to alcohol. Approach: Correlation mapping optical coherence angiography was used to evaluate the effects of prenatal exposure to different doses of ethanol (3, 1.5, and 0.75 g / kg) on murine fetal brain vasculature in utero. Additionally, simultaneous imaging of maternal peripheral vessels and the fetal brain vasculature was performed to assess changes of the vasculature occurring concurrently in response to ethanol consumption. Results: The fetal brain vessel diameters (VDs) decreased by ∼47 % , 30%, and 14% in response to ethanol doses of 3, 1.5, and 0.75 g / kg, respectively. However, the mother’s hindlimb VD increased by 63% in response to ethanol at a dose of 3 g / kg. Conclusions: Results showed a dose-dependent reduction in vascular blood flow in fetal brain vessels when the mother was exposed to ethanol, whereas vessels in the maternal hindlimb exhibited concurrent vasodilation.

Published

2020

30. Using in utero optical coherence tomography to evaluate changes in murine fetal brain vasculature due to prenatal exposure to teratogens (Conference Presentation)

Author

Rajesh C. Miranda, Noemi Bustamante, Manmohan Singh, Kirill V. Larin, Amur Kouka, Connie Yan, Chih-Hao Liu, Raksha Raghunathan, and Yogeshwari S. Ambekar

Subjects

Fetus, medicine.diagnostic_test, business.industry, Neurogenesis, Physiology, medicine.disease, Teratology, Substance abuse, Nicotine, In utero, Angiography, Medicine, Gestation, business, medicine.drug

Abstract

One of the most common reasons of congenital birth defects is prenatal substance abuse. The severity of the defect depends on the amount of substance abused and the period of gestation during which substance is abused. Although prenatal substance abuse is common during the first trimester, some women continue the abuse well into their second trimester, which is considered the peak period for fetal neurogenesis and angiogenesis. Thus, evaluating the changes in fetal brain vasculature caused by maternal exposure to different teratogens at the second trimester equivalent period is crucial. In this study we use correlation mapping optical coherence angiography (cm-OCA), a functional extension of optical coherence tomography, to image changes in murine fetal brain vasculature caused due to prenatal exposure to ethanol, cannabinoids, or nicotine. Results showed significant vasoconstriction in all three cases.

Published

2020

31. Optical coherence angiography reveals changes in murine fetal brain vasculature due to maternal exposure to nicotine

Author

Rajesh C. Miranda, Amur Kouka, Yogeshwari S. Ambekar, Connie Yan, Chih-Hao Liu, Manmohan Singh, Noemi Bustamante, Raksha Raghunathan, and Kirill V. Larin

Subjects

Fetus, Pregnancy, Placental abruption, medicine.diagnostic_test, business.industry, Intrauterine growth restriction, Physiology, medicine.disease, Fetal brain, Nicotine, In utero, Angiography, medicine, business, medicine.drug

Abstract

In the United States, 20% of pregnant women are estimated to smoke, thus affecting 800,000 babies annually. Maternal nicotine exposure is known to have several detrimental effects on the developing fetus including intrauterine growth restriction, perinatal mortality and morbidity, placental abruption, and other childhood disorders. In humans, studies evaluating the association between maternal cigarette smoking during pregnancy and behavioral development in offsprings have shown negative influences of nicotine on brain development. Although several studies have documented lower birth weights, morphological and behavioral changes, not much has been done evaluating the acute changes in brain vasculature after prenatal exposure to nicotine. This work uses correlation mapping optical coherence angiography (cm-OCA), a functional extension of optical coherence tomography, to evaluate changes in murine fetal brain vasculature, in utero, minutes after maternal nicotine exposure. A rapid and significant decrease in vasculature was observed compared to the sham group.

Published

2020

32. Quantifying changes in murine fetal brain vasculature due to prenatal exposure to teratogens with in utero optical coherence tomography

Author

Rajesh C. Miranda, Amur Kouka, Connie Yan, Chih-Hao Liu, Yogeshwari S. Ambekar, Manmohan Singh, Noemi Bustamante, Kirill V. Larin, and Raksha Raghunathan

Subjects

Fetus, business.industry, Angiogenesis, Neurogenesis, Physiology, medicine.disease, Teratology, Substance abuse, Nicotine, In utero, medicine, Gestation, business, medicine.drug

Abstract

Prenatal substance abuse is one of the main causes of birth defects. Depending upon the substance being abused and the period of gestation during which the abuse happens, the severity of the defect is determined. Although prenatal substance abuse during the first trimester is common, the prevalence of unplanned pregnancies in the United States have led to women continuing their substance abuse well into the second trimester. The second trimester is the peak period for fetal neurogenesis and angiogenesis. Hence, any exposure to teratogens during this period is known to hinder brain development. Several studies have documented changes in morphology and behavior due to exposure to teratogens during this period. However, not a lot is known about the changes in vasculature in the developing brain. In this study, we used angiographic optical coherence tomography, a functional extension of optical coherence tomography, to image acute vasculature changes in the fetal brain caused due to prenatal exposure to ethanol, nicotine, and synthetic cannabinoids (SCB). Results showed a significant decrease in vasculature in all three cases compared to their respective sham groups.

Published

2020

33. Fetal alcohol spectrum disorders

Author

Rajesh C. Miranda, S.M. Mooney, and Amanda H. Mahnke

Subjects

0303 health sciences, medicine.medical_specialty, Pregnancy, business.industry, media_common.quotation_subject, Vulnerability, Disease, medicine.disease, 3. Good health, 03 medical and health sciences, Fetal alcohol, 0302 clinical medicine, Intervention (counseling), Prenatal alcohol exposure, medicine, Psychological resilience, Psychiatry, business, 030217 neurology & neurosurgery, 030304 developmental biology, media_common

Abstract

Prenatal alcohol exposure can have serious lifelong consequences on the individual. Despite that, at least 10% of women in the United States drink during pregnancy and the incidence of fetal alcohol spectrum disorders have been estimated to be 2%–5%. Decades of work describe effects in the central nervous system and show that basic biological mechanisms are affected. Now there is more attention paid to systemic effects including vulnerability to disease later in life. Outcomes of prenatal alcohol exposure are unpredictable as other factors contribute to vulnerability and resilience; these include genetic and epigenetic factors as well as extrinsic factors such as nutrition and environment. Such complexities contribute to difficulties with diagnosis and therapeutic intervention. Newly emerging fields such as the role of the gut–brain axis and investigation of novel therapeutic approaches will lend additional insight into these disorders.

Published

2020

34. Prenatal Exposure to Alcohol Induces Functional and Structural Plasticity in Dopamine D1 Receptor-Expressing Neurons of the Dorsomedial Striatum

Author

Xuehua Wang, Rajesh C. Miranda, Xiaoyan Wei, Yifeng Cheng, Sebastian Melo, Xueyi Xie, and Jun Wang

Subjects

0301 basic medicine, medicine.medical_specialty, animal structures, Dendritic spine, Offspring, Medicine (miscellaneous), Biology, Toxicology, Medium spiny neuron, Article, 03 medical and health sciences, Psychiatry and Mental health, Electrophysiology, Glutamatergic, 030104 developmental biology, 0302 clinical medicine, Endocrinology, Dopamine receptor D1, Dopamine, Internal medicine, Synaptic plasticity, medicine, 030217 neurology & neurosurgery, medicine.drug

Abstract

Background Prenatal alcohol exposure (PAE) is a leading cause of hyperactivity in children. Excitation of dopamine D1 receptor-expressing medium spiny neurons (D1-MSNs) of the dorsomedial striatum (DMS), a brain region that controls voluntary behavior, is known to induce hyperactivity in mice. We therefore hypothesized that PAE-linked hyperactivity was due to persistently altered glutamatergic activity in DMS D1-MSNs. Methods Female Ai14 tdTomato reporter mice were given access to alcohol in an intermittent access, 2-bottle choice paradigm before pregnancy, and following mating with male D1-Cre mice, through the pregnancy period, and until postnatal day (P) 10. Locomotor activity was tested in juvenile (P21) and adult (P133) offspring, and alcohol-conditioned place preference (CPP) was measured in adult offspring. Glutamatergic activity in DMS D1-MSNs of adult PAE and control mice was measured by slice electrophysiology, followed by measurements of dendritic morphology. Results Our voluntary maternal alcohol consumption model resulted in increased locomotor activity in juvenile PAE mice, and this hyperactivity was maintained into adulthood. Furthermore, PAE resulted in a higher alcohol-induced CPP in adult offspring. Glutamatergic activity onto DMS D1-MSNs was also enhanced by PAE. Finally, PAE increased dendritic complexity in DMS D1-MSNs in adult offspring. Conclusions Our model of PAE does result in persistent hyperactivity in offspring. In adult PAE offspring, hyperactivity is accompanied by potentiated glutamatergic strength and afferent connectivity in DMS D1-MSNs, an outcome that is also consistent with the observed increase in alcohol preference in PAE offspring. Consequently, a PAE-sensitive circuit, centered within the D1-MSN, may be linked to behavioral outcomes of PAE.

Published

2018

35. When Pain Hurts: Nociceptive Stimulation Induces a State of Maladaptive Plasticity and Impairs Recovery after Spinal Cord Injury

Author

Rajesh C. Miranda, James W. Grau, Misty M. Strain, Yung-Jen Huang, Joel D. Turtle, Sandra M. Garraway, and Michelle A. Hook

Subjects

0301 basic medicine, Pain, Stimulation, 03 medical and health sciences, 0302 clinical medicine, Neurotrophic factors, Neuroplasticity, medicine, Noxious stimulus, Animals, Humans, Spinal cord injury, Spinal Cord Injuries, Sensitization, Pain Measurement, Neuronal Plasticity, Chronic pain, Original Articles, Recovery of Function, medicine.disease, 030104 developmental biology, Nociception, medicine.anatomical_structure, Neurology (clinical), Psychology, Neuroscience, 030217 neurology & neurosurgery

Abstract

Spinal cord injury (SCI) is often accompanied by other tissue damage (polytrauma) that provides a source of pain (nociceptive) input. Recent findings are reviewed that show SCI places the caudal tissue in a vulnerable state that exaggerates the effects nociceptive stimuli and promotes the development of nociceptive sensitization. Stimulation that is both unpredictable and uncontrollable induces a form of maladaptive plasticity that enhances nociceptive sensitization and impairs spinally mediated learning. In contrast, relational learning induces a form of adaptive plasticity that counters these adverse effects. SCI sets the stage for nociceptive sensitization by disrupting serotonergic (5HT) fibers that quell overexcitation. The loss of 5HT can enhance neural excitability by reducing membrane-bound K+-Cl− cotransporter 2, a cotransporter that regulates the outward flow of Cl−. This increases the intracellular concentration of Cl−, which reduces the hyperpolarizing (inhibitory) effect of gamma-aminobutyric acid. Uncontrollable noxious stimulation also undermines the recovery of locomotor function, and increases behavioral signs of chronic pain, after a contusion injury. Nociceptive stimulation has a greater effect if experienced soon after SCI. This adverse effect has been linked to a downregulation in brain-derived neurotrophic factor and an upregulation in the cytokine, tumor necrosis factor. Noxious input enhances tissue loss at the site of injury by increasing the extent of hemorrhage and apoptotic/pyroptotic cell death. Intrathecal lidocaine blocks nociception-induced hemorrhage, cellular indices of cell death, and its adverse effect on behavioral recovery. Clinical implications are discussed.

Published

2017

36. Ethanol Exposure Increases miR-140 in Extracellular Vesicles: Implications for Fetal Neural Stem Cell Proliferation and Maturation

Author

Sarah E. Eaves, Rajesh C. Miranda, Nihal A. Salem, Alexander M. Tseng, Dae D Chung, and Marisa R Pinson

Subjects

Cell Survival, 030508 substance abuse, Medicine (miscellaneous), Mitosis, Biology, Toxicology, Article, 03 medical and health sciences, Extracellular Vesicles, Mice, 0302 clinical medicine, Neural Stem Cells, Pregnancy, Neurosphere, Animals, Progenitor cell, reproductive and urinary physiology, Cell Proliferation, Gene knockdown, Fetal Stem Cells, Ethanol, Oligodendrocyte differentiation, Central Nervous System Depressants, Cell Differentiation, Cell cycle, Neural stem cell, Microvesicles, Cell biology, Mice, Inbred C57BL, Psychiatry and Mental health, MicroRNAs, Cell Cycle Kinetics, Female, 0305 other medical science, 030217 neurology & neurosurgery

Abstract

BACKGROUND: Neural stem cells (NSCs) generate most of the neurons of the adult brain in humans, during the mid-first through second trimester period. This critical neurogenic window is particularly vulnerable to prenatal alcohol exposure, which can result in diminished brain growth. Previous studies showed that ethanol exposure does not kill NSCs, but, rather, results in their depletion by influencing cell cycle kinetics and promoting aberrant maturation, in part, by altering NSC expression of key neurogenic miRNAs. NSCs reside in a complex microenvironment rich in extracellular vesicles, shown to traffic miRNA cargo between cells. METHODS: We profiled the miRNA content of extracellular vesicles from control and ethanol-exposed ex vivo neurosphere cultures of fetal NSCs. We subsequently examined the effects of one ethanol-sensitive miRNA, miR-140–3p, on NSC growth, survival, and maturation. RESULTS: Ethanol exposure significantly elevates levels of a subset of miRNAs in secreted extracellular vesicles. Overexpression of one of these elevated miRNAs, miR-140–3p and its passenger strand relative, miR-140–5p, significantly increased the proportion of S-phase cells while decreasing the proportion of G(0)/G(1) cells compared to controls In contrast, while miR-140–3p knockdown had minimal effects on the proportion of cells in each phase of the cell cycle, knockdown of miR-140–5p significantly decreased the proportion of cells in G(2)/M phase. Furthermore, miR-140–3p overexpression, during mitogen-withdrawal-induced NSC differentiation, favors astroglial maturation at the expense of neural and oligodendrocyte differentiation. CONCLUSION: Collectively, the dysregulated miRNA content of extracellular vesicles following ethanol exposure may result in aberrant neural progenitor cell growth and maturation, explaining brain growth deficits associated with prenatal alcohol exposure.

Published

2019

37. Assessing the acute effects of prenatal synthetic cannabinoid exposure on murine fetal brain vasculature using optical coherence tomography

Author

Rajesh C. Miranda, Manmohan Singh, Raksha Raghunathan, Amur Kouka, Kirill V. Larin, and Chih-Hao Liu

Subjects

Time Factors, medicine.medical_treatment, General Physics and Astronomy, Physiology, Neovascularization, Physiologic, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, Article, 010309 optics, Mice, Fetus, Optical coherence tomography, 0103 physical sciences, Synthetic cannabinoids, Medicine, Animals, General Materials Science, Tetrahydrocannabinol, Pregnancy, medicine.diagnostic_test, business.industry, Cannabinoids, 010401 analytical chemistry, General Engineering, Brain, General Chemistry, medicine.disease, 0104 chemical sciences, In utero, Angiography, Cannabinoid, medicine.symptom, business, Vasoconstriction, Tomography, Optical Coherence, medicine.drug

Abstract

Marijuana is one of the most commonly abused substances during pregnancy. Synthetic cannabinoids (SCBs) are a group of heterogeneous compounds that are 40- to 600-fold more potent than Δ(9)-tetrahydrocannabinol, the major psychoactive component of marijuana. With SCBs being legally available for purchase and the prevalence of unplanned pregnancies, the possibility of prenatal exposure to SCBs is high. However, the effects of prenatal SCB exposure on embryonic brain development are not well understood. In this study, we use complex correlation mapping optical coherence angiography to evaluate changes in murine fetal brain vasculature in utero, minutes after maternal exposure to an SCB, CP-55940. Results showed a significant decrease (P < 0.05) in fetal brain vessel diameter, length fraction and area density when compared to the sham group. This preliminary study shows that acute prenatal exposure to an SCB resulted in significant fetal brain vasoconstriction during the peak period for brain development.

Published

2019

38. Toxicant and teratogenic effects of prenatal alcohol

Author

Rajesh C. Miranda, Amanda H. Mahnke, Andrew Z Wang, and Amy M. Adams

Subjects

0301 basic medicine, business.industry, Physiology, Alcohol, Inflammation, 010501 environmental sciences, Toxicology, 01 natural sciences, Extracellular vesicles, Article, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, chemistry, In utero, Prenatal alcohol exposure, Medicine, medicine.symptom, business, Prenatal alcohol, Neuroinflammation, 0105 earth and related environmental sciences, Toxicant

Abstract

Prenatal alcohol exposure can result in growth, cognitive, and behavioral deficits due to the toxicant and teratogenic effects of alcohol. Alcohol is an unusual toxicant, because, unlike other toxicants, it is consumed and has biological effects in the millimolar range. Cerebral cortical development is particularly vulnerable to both alcohol's acute and long-term reprogramming effects. Recent evidence suggests that neuroinflammation may be a persistent result of prenatal alcohol exposure and that modes of cellular communication capable of carrying miRNAs, such as extracellular vesicles, may be an integral part of long-term changes to cellular communication and inflammation following in utero alcohol exposure.

Published

2019

39. In utero optical coherence tomography reveals changes in murine embryonic brain vasculature after prenatal cannabinoid exposure

Author

Rajesh C. Miranda, Manmohan Singh, Chih-Hao Liu, Kirill V. Larin, Amur Kouka, and Raksha Raghunathan

Subjects

каннабиноиды, Drug, Pregnancy, Fetus, business.industry, media_common.quotation_subject, medicine.medical_treatment, головной мозг, мыши, Fetal alcohol syndrome, Physiology, пренатальное воздействие препаратов, medicine.disease, сосудистая сеть, In utero, Synthetic cannabinoids, medicine, оптическая когерентная томография, Cannabinoid, business, Tetrahydrocannabinol, media_common, medicine.drug

Abstract

Prenatal substance abuse is a major public health concern. Much research has been focused on alcohol and other drug use, but there is a lack of information about prenatal cannabinoid use. Nevertheless, marijuana use during pregnancy increases the risk of a stillbirth by approximately 2.3X. Synthetic cannabinoids (SCB) are a group of heterogeneous compounds which were developed to understand the endogenous cannabinoid system and as potential therapeutics. SCBs are legally available for purchase in several places, and the use of natural and synthetic cannabinoids is high among women of reproductive age. Combined with the prevalence of unplanned pregnancies, the high use of cannabinoids may lead to an increase in prenatal exposure to cannabinoids. Early studies have shown morphological and behavioral anomalies similar to fetal alcohol syndrome. Even though the mechanisms of Δ9 -tetrahydrocannabinol (Δ9 -THC), the major psychoactive component of marijuana, and SCB are similar, there are several important differences. Subsequently, some SCBs have a 40 to 600 fold higher potency than Δ9 -THC. However, there is paucity of research focused on the prenatal effects of SCBs. This study uses correlation mapping optical coherence tomography (cm-OCT) to evaluate acute changes in the murine fetal brain vasculature in utero after exposure to CP-55,940, a well-characterized and commonly used reference compound in cannabinoid research. Our results showed a rapid decrease in parameters quantifying vasculature, i.e., vessel area density, and vessel length fraction, as compared to the sham group, demonstrating a dramatic and rapid effect of cannabinoids on fetal brain vasculature. Our work shows the need for further research on the effects of cannabinoids on fetal development.

Published

2019

40. Abstract WP153: Prenatal Alcohol Exposure Induces Glucose Intolerance and Exacerbates Stroke Severity in Middle-Aged Rats

Author

Rajesh C. Miranda, Farida Sohrabji, and Shameena Bake

Subjects

Advanced and Specialized Nursing, medicine.medical_specialty, business.industry, Stroke severity, Alcohol, medicine.disease, Diabetes type ii, chemistry.chemical_compound, chemistry, Prenatal alcohol exposure, Internal medicine, Ischemic stroke, medicine, Neurology (clinical), Cardiology and Cardiovascular Medicine, business, Reperfusion injury

Abstract

Background and Purpose: Metabolic disorders and cardiovascular diseases in post-natal life have been linked to adverse prenatal environment. There is very little information on the developmental origin of adult diseases, particularly fetal alcohol exposure and stroke outcomes. The present study tested the hypothesis that fetal alcohol exposure induces glucose intolerance and leads to greater stroke severity in middle-aged rats. Methods: Timed-pregnant Sprague Dawley rats (GD12) purchased from Envigo laboratories were intragastrically gavaged with ethanol (3g/kg/bwt) or water twice per day from GD12 through 15. Fetal alcohol exposed (FAE) progeny (10 mo. old) were injected with glucose (1g/kg.bwt) and tested for glucose intolerance (glucose clearance rate at 15, 30 and 60 min.) Animals were subjected to endothelin-1 induced MCAo and outcomes evaluated after 2 and 5 days. Stroke induced disabilities were assessed from behavioral assays (adhesive removal, Vibrissae evoked fore-limb placement and circling) and infarct volume. Results: Glucose tolerance test showed elevated blood glucose levels in both control and FAE group at 15 and 30 min but FAE animals exhibited prolonged elevation of blood glucose (60 min., p< 0.017) compared to control animals. At 2 day post-stroke, FAE animals exhibited greater neurological deficit as determined by their higher score on circling behavior (lack of muscle control, p Conclusions: The present findings support the hypothesis that prenatal exposure to alcohol contributes to long-lasting adverse effects on adult health as indicated by poor glucose tolerance and worse neurological outcomes during the acute stage of stroke.

Published

2019

41. Quantifying Changes in Fetal Brain Vasculature Due to Prenatal Cannabinoid Exposure Using Optical Coherence Tomography

Author

Raksha Raghunathan, Kirill V. Larin, Rajesh C. Miranda, Noemi Bustamante, Connie Yan, Chih-Hao Liu, Manmohan Singh, and Amur Kouka

Subjects

Optical coherence tomography, medicine.diagnostic_test, business.industry, medicine.medical_treatment, medicine, Cannabinoid, business, Neuroscience, Fetal brain

Published

2019

42. A novel Oct4/Pou5f1-like non-coding RNA controls neural maturation and mediates developmental effects of ethanol

Author

Cadianna R. Garcia, Cédric G. Geoffroy, Rajesh C. Miranda, Alexander M. Tseng, Amanda H. Mahnke, Nihal A. Salem, and Hooman K. Jahromi

Subjects

RNA, Untranslated, Neurogenesis, Models, Neurological, Biology, Toxicology, Article, Transcriptome, Mice, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Neural Stem Cells, Developmental Neuroscience, Pregnancy, microRNA, Animals, Humans, Progenitor cell, Cells, Cultured, reproductive and urinary physiology, 030304 developmental biology, 0303 health sciences, Messenger RNA, Fetal Stem Cells, Ethanol, Brain, Gene Expression Regulation, Developmental, Cell Differentiation, Non-coding RNA, Neural stem cell, Cell biology, Mice, Inbred C57BL, Disease Models, Animal, Fetal Alcohol Spectrum Disorders, Gene Knockdown Techniques, Prenatal Exposure Delayed Effects, Argonaute Proteins, Female, Single-Cell Analysis, biological phenomena, cell phenomena, and immunity, Octamer Transcription Factor-3, Neural development, Pseudogenes, 030217 neurology & neurosurgery, Ex vivo

Abstract

Prenatal ethanol exposure can result in loss of neural stem cells (NSCs) and decreased brain growth. Here, we assessed whether a noncoding RNA (ncRNA) related to the NSC self-renewal factor Oct4/Pou5f1, and transcribed from a processed pseudogene locus on mouse chromosome 9 (mOct4pg9), contributed to the loss of NSCs due to ethanol. Mouse fetal cortical-derived NSCs, cultured ex vivo to mimic the early neurogenic environment of the fetal telencephalon, expressed mOct4pg9 ncRNA at significantly higher levels than the parent Oct4/Pou5f1 mRNA. Ethanol exposure increased expression of mOct4pg9 ncRNA, but decreased expression of OCT4/POU5F1. Gain- and loss-of-function analyses indicated that mOct4pg9 overexpression generally mimicked effects of ethanol exposure, resulting in increased proliferation and expression of transcripts associated with neural maturation. Moreover, mOct4pg9 associated with Ago2 and with miRNAs, including the anti-proliferative miR-328-3p, whose levels were reduced following mOct4pg9 overexpression. Finally, mOct4pg9 inhibited Oct4/Pou5f1-3’UTR-dependent protein translation. Consistent with these observations, data from single-cell transcriptome analysis showed that mOct4pg9-expressing progenitors lack Oct4/Pou5f1, but instead overexpress transcripts for increased mitosis, suggesting initiation of transit amplification. Collectively, these data suggest that the inhibitory effects of ethanol on brain development are explained, in part, by a novel ncRNA which promotes loss of NSC identity and maturation.

Published

2021

43. Extracellular Vesicles in Premature Aging and Diseases in Adulthood Due to Developmental Exposures

Author

Rajesh C. Miranda, Amy M. Adams, Elizabeth A Payne, Marisa R Pinson, Monisha Sivakumar, Dae D Chung, and Chiara Scopice

Subjects

Premature aging, early childhood adversity, business.industry, Osteoporosis, Cancer, prenatal exposure, Review, Cell Biology, Disease, medicine.disease, Bioinformatics, Extracellular vesicles, Pathology and Forensic Medicine, Maternal Exposures, Disease severity, medicine, Neurology (clinical), Early childhood, Geriatrics and Gerontology, extracellular vesicles, business, developmental origin of health and disease, miRNA

Abstract

The developmental origins of health and disease (DOHaD) is a paradigm that links prenatal and early life exposures that occur during crucial periods of development to health outcome and risk of disease later in life. Maternal exposures to stress, some psychoactive drugs and alcohol, and environmental chemicals, among others, may result in functional changes in developing fetal tissues, creating a predisposition for disease in the individual as they age. Extracellular vesicles (EVs) may be mediators of both the immediate effects of exposure during development and early childhood as well as the long-term consequences of exposure that lead to increased risk and disease severity later in life. Given the prevalence of diseases with developmental origins, such as cardiovascular disease, neurodegenerative disorders, osteoporosis, metabolic dysfunction, and cancer, it is important to identify persistent mediators of disease risk. In this review, we take this approach, viewing diseases typically associated with aging in light of early life exposures and discuss the potential role of EVs as mediators of lasting consequences.

Published

2021

44. Alcohol-Induced Developmental Origins of Adult-Onset Diseases

Author

Rajesh C. Miranda, Shameena Bake, Shannon E. Washburn, Jayanth Ramadoss, Michael C. Golding, and Emilie R. Lunde

Subjects

0301 basic medicine, medicine.medical_specialty, Medicine (miscellaneous), Disease, Biology, Toxicology, Bioinformatics, Article, Developmental psychology, 03 medical and health sciences, Pregnancy, Epidemiology, medicine, Animals, Humans, Endocrine system, Epigenetics, Fetus, Ethanol, Age Factors, medicine.disease, Teratology, Psychiatry and Mental health, 030104 developmental biology, In utero, Prenatal Exposure Delayed Effects, Chronic Disease, Female, Alcohol-Related Disorders

Abstract

Fetal alcohol exposure may impair growth, development, and function of multiple organ systems and is encompassed by the term fetal alcohol spectrum disorders (FASD). Research has so far focused on the mechanisms, prevention, and diagnosis of FASD, while the risk for adult-onset chronic diseases in individuals exposed to alcohol in utero is not well explored. David Barker's hypothesis on Developmental Origins of Health and Disease (DOHaD) suggests that insults to the milieu of the developing fetus program it for adult development of chronic diseases. In the 25 years since the introduction of this hypothesis, epidemiological and animal model studies have made significant advancements in identifying in utero developmental origins of chronic adult-onset diseases affecting cardiovascular, endocrine, musculoskeletal, and psychobehavioral systems. Teratogen exposure is an established programming agent for adult diseases, and recent studies suggest that prenatal alcohol exposure correlates with adult onset of neurobehavioral deficits, cardiovascular disease, endocrine dysfunction, and nutrient homeostasis instability, warranting additional investigation of alcohol-induced DOHaD, as well as patient follow-up well into adulthood for affected individuals. In utero epigenetic alterations during critical periods of methylation are a key potential mechanism for programming and susceptibility of adult-onset chronic diseases, with imprinted genes affecting metabolism being critical targets. Additional studies in epidemiology, phenotypic characterization in response to timing, dose, and duration of exposure, as well as elucidation of mechanisms underlying FASD-DOHaD inter relation, are thus needed to clinically define chronic disease associated with prenatal alcohol exposure. These studies are critical to establish interventional strategies that decrease incidence of these adult-onset diseases and promote healthier aging among individuals affected with FASD.

Published

2016

45. Optical coherence tomography angiography to evaluate murine fetal brain vasculature changes caused by prenatal exposure to nicotine

Author

Rajesh C. Miranda, Raksha Raghunathan, Kirill V. Larin, Manmohan Singh, Yogeshwari S. Ambekar, and Chih-Hao Liu

Subjects

medicine.diagnostic_test, business.industry, Physiology, Intrauterine growth restriction, Optical coherence tomography angiography, Sudden infant death syndrome, medicine.disease, Article, Atomic and Molecular Physics, and Optics, Fetal brain, Nicotine, Angiography, medicine, Gestation, business, Prenatal exposure, Biotechnology, medicine.drug

Abstract

Maternal smoking causes several defects ranging from intrauterine growth restriction to sudden infant death syndrome and spontaneous abortion. While several studies have documented the effects of prenatal nicotine exposure in development and behavior, acute vasculature changes in the fetal brain due to prenatal nicotine exposure have not been evaluated yet. This study uses correlation mapping optical coherence angiography to evaluate changes in fetal brain vasculature flow caused by maternal exposure to nicotine during the second trimester-equivalent of gestation in a mouse model. The effects of two different doses of nicotine were evaluated. Results showed a decrease in the vasculature for both doses of nicotine, which was not seen in the case of the sham group.

Published

2020

46. Nonprotein-coding RNAs in Fetal Alcohol Spectrum Disorders

Author

Amanda H, Mahnke, Nihal A, Salem, Alexander M, Tseng, Dae D, Chung, and Rajesh C, Miranda

Subjects

MicroRNAs, RNA, Untranslated, Fetal Alcohol Spectrum Disorders, Humans, RNA, Small Nucleolar, Biomarkers, Epigenesis, Genetic

Abstract

Early developmental exposure to ethanol, a known teratogen, can result in a range of neurodevelopmental disorders, collectively referred to as Fetal Alcohol Spectrum Disorders (FASDs). Changes in the environment, including exposure to teratogens, can result in long term alterations to the epigenetic landscape of a cell, thereby altering gene expression. Noncoding RNAs (ncRNAs) can affect transcription and translation of networks of genes. ncRNAs are dynamically expressed during development and have been identified as a target of alcohol. ncRNAs therefore make for attractive targets for novel therapeutics to address the developmental deficits associated with FASDs.

Published

2018

47. Fetal Alcohol Spectrum Disorders: A Stem-Cellopathy?

Author

Rajesh C. Miranda, Amanda H. Mahnke, Alexander M. Tseng, Annette S. Fincher, Nihal A. Salem, and Andrew Klopfer

Subjects

0301 basic medicine, Mesoderm, Ethanol, Ectoderm, Biology, Cell biology, 03 medical and health sciences, Fetal alcohol, chemistry.chemical_compound, 030104 developmental biology, 0302 clinical medicine, medicine.anatomical_structure, chemistry, medicine, Endoderm, Progenitor cell, Stem cell, Induced pluripotent stem cell, 030217 neurology & neurosurgery

Published

2018

48. Nonprotein-coding RNAs in Fetal Alcohol Spectrum Disorders

Author

Rajesh C. Miranda, Nihal A. Salem, Alexander M. Tseng, Dae D Chung, and Amanda H. Mahnke

Subjects

0301 basic medicine, fungi, Cell, food and beverages, Biology, Bioinformatics, Teratology, 03 medical and health sciences, 030104 developmental biology, medicine.anatomical_structure, Transcription (biology), microRNA, Gene expression, medicine, Epigenetics, Small nucleolar RNA, Gene

Abstract

Early developmental exposure to ethanol, a known teratogen, can result in a range of neurodevelopmental disorders, collectively referred to as Fetal Alcohol Spectrum Disorders (FASDs). Changes in the environment, including exposure to teratogens, can result in long term alterations to the epigenetic landscape of a cell, thereby altering gene expression. Noncoding RNAs (ncRNAs) can affect transcription and translation of networks of genes. ncRNAs are dynamically expressed during development and have been identified as a target of alcohol. ncRNAs therefore make for attractive targets for novel therapeutics to address the developmental deficits associated with FASDs.

Published

2018

49. Evaluating the effects of maternal alcohol consumption on murine fetal brain vasculature using optical coherence tomography

Author

Rajesh C. Miranda, Chen Wu, Chih-Hao Liu, Manmohan Singh, Raksha Raghunathan, and Kirill V. Larin

Subjects

medicine.medical_specialty, Time Factors, animal structures, Alcohol Drinking, General Physics and Astronomy, Neovascularization, Physiologic, 01 natural sciences, пренатальное воздействие алкоголя, General Biochemistry, Genetics and Molecular Biology, Article, Fetal brain, 010309 optics, 03 medical and health sciences, Mice, 0302 clinical medicine, Fetus, Optical coherence tomography, Pregnancy, Internal medicine, 0103 physical sciences, medicine, Animals, General Materials Science, оптическая когерентная томография, medicine.diagnostic_test, business.industry, Neurogenesis, головной мозг, General Engineering, Brain, General Chemistry, Maternal alcohol, In utero, Prenatal alcohol exposure, Fetal Alcohol Spectrum Disorder, Cardiology, Blood Vessels, Female, medicine.symptom, business, 030217 neurology & neurosurgery, Vasoconstriction, Tomography, Optical Coherence

Abstract

Prenatal alcohol exposure (PAE) can result in a range of anomalies including brain and behavioral dysfunctions, collectively termed fetal alcohol spectrum disorder. PAE during the 1st and 2nd trimester is common, and research in animal models has documented significant neural developmental deficits associated with PAE during this period. However, little is known about the immediate effects of PAE on fetal brain vasculature. In this study, we used in utero speckle variance optical coherence tomography, a high spatial- and temporal-resolution imaging modality, to evaluate dynamic changes in microvasculature of the 2nd trimester equivalent murine fetal brain, minutes after binge-like maternal alcohol exposure. Acute binge-like PAE resulted in a rapid (

Published

2018

50. List of Contributors

Author

Neha Aggarwal, Yasuto Araki, Erfan Aref-Eshghi, Takahiro Arima, Yunfeng Bai, Bahar Barani, Megan Beetch, Georgina E.T. Blake, Graham C. Burdge, Deanna Alexis Carere, Pearl Chang, Pao-Yang Chen, Mariano Colón-Caraballo, Fabio Coppedè, Buddhadeb Dawn, Pierre-Antoine Dugué, Sarah El-Heis, Eliana Portilla Fernandez, Idhaliz Flores-Caldera, Oscar H. Franco, Andrea Fuso, Mohsen Ghanbari, Asish K. Ghosh, Peter D. Gluckman, Keith M. Godfrey, Moloya Gohain, Steven G. Gray, Mark A. Hanson, Hiromitsu Hattori, Christian M. Hedrich, Hitoshi Hiura, John L. Hopper, Amir Hosseini, Cathrine Hoyo, Fei-Man Hsu, Wilfried Karmaus, Norio Kobayashi, Jannet Kocerha, Alexander K. Koliada, Leila Larijani, Sophie A. Lelièvre, Shuai Li, Karen A. Lillycrop, Jui-Hsien Lu, Katarzyna Lubecka, Oleh V. Lushchak, Masato Maekawa, Amanda H. Mahnke, Giuseppina Mastrototaro, Roger L. Milne, Toshihide Mimura, Janos Minarovits, Saverio Minucci, Rajesh C. Miranda, Vasavi Mohan, Taulant Muka, Nandini Mukherjee, Apiwat Mutirangura, Jana Nano, Khue Vu Nguyen, Hans Helmut Niller, Hiroaki Okae, Sarah S. Park, Kamthorn Pruksananonda, Sheeja Rajasingh, Johnson Rajasingh, Joanna Rakoczy, Derrick E. Rancourt, David I. Rodenhiser, Bekim Sadikovic, Sabita N. Saldanha, Nihal A. Salem, Saheli Samanta, Laila C. Schenkel, Alessandro Sessa, David A. Skaar, Patricia Sorrow, Barbara Stefanska, Souta Takahashi, Sravya Thumoju, Trygve O. Tollefsbol, Jenna Troup, Alexander M. Tseng, Alexander M. Vaiserman, Douglas E. Vaughan, Sumei Wang, Ruilan Wang, Artisa Wasinarom, Yoshihisa Watanabe, Erica D. Watson, Wanyin Wu, Zhigang Zhou, and Ali H. Ziyab

Published

2018