Project description:Prenatal exposure to synthetic corticosteroids can significantly alter postnatal development through changes in neurotransmitters, peptides and their receptors, and thus having long-lasting behavioral effects. Some of these changes have been observed in animal experiments, others also in humans prenatally exposed to synthetic corticosteroids. Here, we focused on transcriptomic changes within the ARC of rats prenatally exposed to either betamethasone or saline. The expression of transcriptome has been assessed by novel computational tools to determine complex changes that may have life-long effects on phenotype, i.e., behavior. Total of 18,094 unigenes were quantified in the hypothalamic ARC of P14 male and female rats prenatally exposed to betametasone used in this experiment. Out of these genes, Kyoto Encyclopedia for Genes and Genomes (http://www.genome.jp) selected 112 for the dopaminergic synapse, 75 for the GABAergic and 97 for the glutamatergic synapse. We further analyzed composition, topology and modulatory networks of the genomic fabric of the dopaminergic, GABAergic, and glutamatergic synapse (the transcriptome of the most interconnected and stably expressed gene network responsible for specific transmission). Finally we investigated the M-bM-^@M-^\transcriptomic landscapeM-bM-^@M-^] of the GSF in the ARC of P14 males (M) and females (F) prenatally (G15) exposed to betamethasone (B) or saline (S). We combined in one measure (PWR = Pair-Wise Relevance) expression levels, controls and coordination of all pairs that can be formed by synapse genes with the other synapse genes, higher PWRs indicating larger influence of that gene pair to the fabric modulation. We found that prenatal exposure to betamethasone caused sex-dependent changes in the dopaminergic/GABA/glutamatergic synapse genes:. In males, 10 dopaminergic (9%), 4 GABAergic (5%) and 5 glutamatergic synapse genes (5%) were down-regulated. While in females, 9 dopaminergic (8%), 3 GABAergic (4%) and 6 glutamatergic (6%) synapse genes were downregulated. The data indicate that in both sexes the dopaminergic synapse was the most affected. In contrast, in control animals, no significant differences between male and female were present in these synapse genes. Since the most noticeable transcritpomic changes were found in the transcriptome of DA glutamatergic synapse, we investigated the expression of tyrosine-hydroxylase (TH) NMDA receptor subunits in the ARC. The western blot analyses and immunohistochemistry confirmed the sex-specific differences between prenatally betamethasone-exposed and saline-exposed P15 rats. Accordingly to the changes in gene expression, prenatal exposure to synthetic corticosteroids was associated with postnatal changes in behavior and susceptibility to certain types of seizures. While we did not find any significant impairements in normal behavioral patterns (open field activity), there was a sex-specific change in the novel object recognition test. We found that behavioral lateralization in females is lost after prenatal betamethasone exposure and both male and female prenatally betamethasone exposed rats were avoiding novelty. This trait is similar to children with autism and suggests that certain elements of autistic behaviors can be present after prenatal exposure to synthetic corticosteroids. Additionally, there were changes in the search patterns in the Morris water maze as well as in the Barnes maze. In conclusion, our work is consistent with findings of profound reprogramming changes in the brain after prenatal corticosteroid exposure associated with alterations cognitive functions and seizure susceptibility. Two-sexes (M, F) x two-condition (B = betamethasone prenataly exposed vs S = saline prenataly exposed) experiment. Biological replicates: 4 MS, 4 FS, 4 MB, 4 FB.

Project description:We profiled the whole transcriptomes of female rat hypothalamic arcuate nuclei to determine the remodeling of the genomic fabrics responsible for the glutamatergic, GABAergic, dopaminergic, cholinergic and serotonergic transmission in epilepsy and recovery following different treatments. The rats were prenatally exposed (G15) to betamethasone (or just saline for control) followed by repeated adiministration of N-Methyl-D-Aspartic acid (NMDA) on postnatal days 12, 13 and 15 which triggered infantile spasms. Pups were treated with either ATCH, PMX53 (a potent C5ar1 antagonist) or saline to act as a control, on days 13, 14 and 15 prior to NMDA administration to determine what effects each treatment had on transcriptome recovery. Our Genomic Fabric Paradigm (GFP) is proposed as a transformative research approach to enhance the understanding of the brain transcriptomic alterations in epileptic rats and recovery following various treatments. The genomic fabric of a particular synapse is the structured transcriptome associated with the most interconnected and stably expressed gene network responsible for that type of neurotransmission. GFP refines the description of functional pathways by selecting the most prominent genes and determining their networking. Moreover, it quantifies the remodeling of functional pathways and their interplay in disease and recovery in response to a treatment. We found that priming with betamethasone had substantial consequences on the topology of the genomic fabrics of all kind of synaptic transmission and that NMDA-induced spasms strongly exacerbated the remodeling of these fabrics. Contrary to our findings in male rats, neither ACTH or PMX53 treatment recovered the normal synaptic transcriptomes. One tissue (hypothalamic arcuate nucleus) x two prenatal exposures (B = betamethasone, S = saline) x two conditions for the betamethasone expossed rats (with (Y) without (N) infantile spasms) x three postnatal treatments (A = ACTH, P = PMX53, S = saline) x one sex (M) . Biological replicates: 4 ASNSM, 4 ABNSM, 4 ABYSM, 4 ABYAM, 4 ABYPM. Please note that a the multiple yellow strategy has been adopted, in which differently labeled biological replicas are cohybridized, similarly labeled samples of distinct conditions are compared and the results of the green and red comparisons are averaged.

Project description:Prenatal exposure to synthetic corticosteroids can significantly alter postnatal development through changes in neurotransmitters and their receptors, and thus having long-lasting behavioral effects. Some of these changes have been observed in animal experiments, others also in humans prenatally exposed to synthetic corticosteroids. Here, we focused on transcriptomic changes within the prefrontal cortex of female rats prenatally exposed to either betamethasone or saline. The transcriptome has been assessed by novel computational tools to determine complex changes that may have life-long effects on phenotype, i.e., behavior. We analyzed how composition, topology and modulatory networks of the genomic fabric of the dopaminergic, GABAergic, and glutamatergic synapse (the transcriptome of the most interconnected and stably expressed gene network responsible for specific transmission) are affected by prenatal exposure to corticosteroids and postnatal ketamine/saline treated NMDA-induced seizures.

Project description:Prenatal exposure to synthetic corticosteroids can significantly alter postnatal development through changes in neurotransmitters, peptides and their receptors, and thus having long-lasting behavioral effects. Some of these changes have been observed in animal experiments, others also in humans prenatally exposed to synthetic corticosteroids. Here, we focused on transcriptomic changes within the ARC of rats prenatally exposed to either betamethasone or saline. The expression of transcriptome has been assessed by novel computational tools to determine complex changes that may have life-long effects on phenotype, i.e., behavior. Total of 18,094 unigenes were quantified in the hypothalamic ARC of P14 male and female rats prenatally exposed to betametasone used in this experiment. Out of these genes, Kyoto Encyclopedia for Genes and Genomes (http://www.genome.jp) selected 112 for the dopaminergic synapse, 75 for the GABAergic and 97 for the glutamatergic synapse. We further analyzed composition, topology and modulatory networks of the genomic fabric of the dopaminergic, GABAergic, and glutamatergic synapse (the transcriptome of the most interconnected and stably expressed gene network responsible for specific transmission). Finally we investigated the “transcriptomic landscape” of the GSF in the ARC of P14 males (M) and females (F) prenatally (G15) exposed to betamethasone (B) or saline (S). We combined in one measure (PWR = Pair-Wise Relevance) expression levels, controls and coordination of all pairs that can be formed by synapse genes with the other synapse genes, higher PWRs indicating larger influence of that gene pair to the fabric modulation. We found that prenatal exposure to betamethasone caused sex-dependent changes in the dopaminergic/GABA/glutamatergic synapse genes:. In males, 10 dopaminergic (9%), 4 GABAergic (5%) and 5 glutamatergic synapse genes (5%) were down-regulated. While in females, 9 dopaminergic (8%), 3 GABAergic (4%) and 6 glutamatergic (6%) synapse genes were downregulated. The data indicate that in both sexes the dopaminergic synapse was the most affected. In contrast, in control animals, no significant differences between male and female were present in these synapse genes. Since the most noticeable transcritpomic changes were found in the transcriptome of DA glutamatergic synapse, we investigated the expression of tyrosine-hydroxylase (TH) NMDA receptor subunits in the ARC. The western blot analyses and immunohistochemistry confirmed the sex-specific differences between prenatally betamethasone-exposed and saline-exposed P15 rats. Accordingly to the changes in gene expression, prenatal exposure to synthetic corticosteroids was associated with postnatal changes in behavior and susceptibility to certain types of seizures. While we did not find any significant impairements in normal behavioral patterns (open field activity), there was a sex-specific change in the novel object recognition test. We found that behavioral lateralization in females is lost after prenatal betamethasone exposure and both male and female prenatally betamethasone exposed rats were avoiding novelty. This trait is similar to children with autism and suggests that certain elements of autistic behaviors can be present after prenatal exposure to synthetic corticosteroids. Additionally, there were changes in the search patterns in the Morris water maze as well as in the Barnes maze. In conclusion, our work is consistent with findings of profound reprogramming changes in the brain after prenatal corticosteroid exposure associated with alterations cognitive functions and seizure susceptibility.

Project description:Pulmonary hypertension (PH), a rare disorder is a complication of a number of cardiopulmonary, unrelated systemic diseases, drug toxicity and genetic mutations. Major advances have been made in the field, but the pathogenesis of PH is not yet understood. Several experimental models such as monocrotaline (MCT) and hypoxia have been used to understand the mechanism underlying the pathogenesis of PH. We have recently shown that that the addition of hypoxia to MCT injected rats accelerates the disease process leading to neointima formation. We have profiled the lungs of adult male Sprague-Dawley rats kept for 4 weeks in normal atmospheric conditions or in hypobaric hypoxia (380 mmHg) w/o subcutaneous injection with 40 mg/kg MCT or just saline. While MCT and hypoxia altered expression of few genes when applied separately, together they induced a substantial alteration of the transcriptome. The most profoundly altered pathways by the combined effect of hypoxia and MCT were: endocytosis, apoptosis, HIF-1 signaling pathway and vascular smooth muscle contraction. Two-condition (C = normal atmospheric conditions (control) vs H = hypobaric hypoxia) + two treatment (M = with MCT, O = without MCT) experiment. Four biological replicas of each combination: CO, HO, CM, HM. Differently labeled biological replicates were cohybridized with each array. Results of similarly labeled different conditions were compared then averaged for the two fluorescent labels. For instance: CO1 & CO3 were compared with CM1 & CM3, CO2 & CO4 were compared with CM2 & + CM4, and the results of the comparisons averaged. This design uses 100% of the resources, has a better normlaiztion and allows all possible comparisons among the conditions.

Project description:Objective: Postnatal glucocorticoids (GCs) are widely used in the prevention of chronic lung disease in premature infants. However, their use is associated with neurodevelopmental delay and cerebral palsy. We hypothesized that postnatal dexamethasone or betamethasone in high-dose, but not low-dose, would induce hypomyelination, astrogliosis, and motor impairment in premature rabbit pups. Additionally, these effects would be mediated by glucocorticoid receptors (GRs). Methods: Preterm rabbit pups, delivered by C-section at E29 (term=32d), were treated with a high dose of dexamethasone or vehicle. Myelin basic protein (MBP), glial fibrillary basic protein (GFAP), oligodendrocyte proliferation and maturation, and alteration of transcriptomic profile were evaluated in these pups. Neurobehavioral assessments were performed at 14d. Results: High-dose dexamethasone treatment reduced MBP expression and induced motor-impairment compared with controls. High-dose dexamethasone induced astrogliosis and altered genes associated with myelination, cell-cycle, GR, and MAP-Kinase signaling. Interpretation: High-dose postnatal dexamethasone arrested maturation of oligodendrocytes, and induced hypomyelination, gliosis and motor deficits. GC treatment reduced myelination by genomic GR-dependent mechanisms, and caused astrogliosis by non-genomic mechanisms. Two-condition experiment: forebrains of HDD (high dose dexamethasone) vs. CTR (PBS) post-natally expossed rabbit pups. Biological replicates: 4 CTR replicates, 4 HDD replicates.

Project description:Neuropeptide Y (NPY) is an endogenous modulator of neuronal activity by regulating GABA and glutamate release. Previously, we found that estradiol modulates NPY expression in the hippocampal dentate gyrus. Here we investigated which estrogen receptor type activation is required for the NPY expression. Further, we determined effects of estrogen receptor activation on NPY release. Finally, we determined the contribution of estrogen-mediated remodeling of the GABAergic and glutamatergic network in relation to changes in coupling with NPY in ovariectomized rats. We found that activation of either estrogen receptor type increases NPY expression as well as NPY release in the dentate gyrus. We also found that compared to OVX rats, estrogen replacement increases the likeness of synergistic/antagonistic coupling between the NPY and GABAergic synapse genes while the glutamatergic synapse genes are less likely coupled with NPY. The data together suggest that estrogen plays a critical role in regulation of activity of the NPY system and its coupling to GABAergic and glutamatergic synapses in female rat dentate gyrus. Two-conditions (E = beta-estradiol replacement vs O = oil) experiment. Biological replicates: 4E, 4O.

Project description:To investigate the gene expression profile of genamycin induced nephrotoxicity in a time-series aspect, SD rats were administrated once daily with saline, genamycin 80 mgkg for 28 consecutive days by intramuscular injection folled by 28 days recovery. Kidney samples were collected for microarray analysis and histological examination. There were 4360 and 4323 regulated genes for females and males, respectively, however, the overlapping expression genes coregluated at each time point were few, with 2 for females and 12 for males. By Principle Component Analysis and Hierarchical Cluster, the gene expression patterns were apparently associated with the disease stage of the nephrotoxicity,while GO Annotation showed the biological processes were specific to each course of this nephrotoxicity.Our studymapped the different gene expression patterns at the initiation, development and recovery stage of gentamycin-induced nephrotoxicity Gene expression in kidney from SD rats administrated once daily with saline or 80 mg/kg genamycin by intramuscular injection for 28 consecutive days follwed by 28 days recovery were measured using Aglient Rat Whole Genome 4*44 k array

Project description:The transcriptomes of young male and (in estrus) female hypothalami were profiled and compared to learn about the sex dichotomy of the cytoskeletal genomic fabric(CGF), defined as the most inter-coordinately and stably expressed gene web whose encoding proteins form the intracellular scaffolding. RNA samples collected from hypothalami of 4 young rat males and 4 (in estrus) females were hybridized with Agilent rat (4x44k 60 mer features, 4 microarrays per slide) gene expression chips. Novel analytical tools were used to reveal hidden features of the cytoskeletal transcriptome

Project description:Purpose: Evaluated the transcriptional effects of an effective oral dosing of antental corticosteroids using betamethasone-phophate compared to the clinical treatment with the combination drug betamethasone-phosphate+betamethasone-acetate for fetal lung maturation. Methods: RNA-sequencing of the fetal hippocampus, liver and lung was done. Differential expression analysis was done using read counts. Results: There were no significant differences between oral Beta-P and the clinical treatment in the fetal hippocampus. Small differences were detected in the fetal lung associated with cellular proliferation and in the fetal liver. Conclusions: Oral betamethasone-phosphate is an effective oral treatment that does not cause toxic effect in the fetal brain despite the higher dose.