Effects of single-dose antipurinergic therapy on behavioral and molecular alterations in the valproic acid-induced animal model of autism

Hirsch, Mauro Mozael; Deckmann, Iohanna; Santos-Terra, Júlio; Staevie, Gabriela Zanotto; Fontes-Dutra, Mellanie; Carello‐Collar, Giovanna; Körbes-Rockenbach, Marília; Schwingel, Gustavo Brum; Bauer-Negrini, Guilherme; Rabelo, Bruna; Gonçalves, Maria Carolina Bittencourt; Corrêa-Velloso, Juliana; Naaldijk, Yahaira; Castillo, A.; Schneider, Tomasz; Bambini-Júnior, Victorio; Ulrich, Henning; Gottfried, Carmem

doi:10.1016/j.neuropharm.2019.107930

Cited by 22 publications

(10 citation statements)

References 60 publications

(66 reference statements)

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“…Β-3-tubulin was used as a normalizer for this experiment (Forward: AGACC-TACTGCATCGACAATGAAG Reverse: GCTCATGG-TAGCAGACACAAGG). Beta-3-tubulin was chosen as a housekeeping gene based on a previous report (Hirsch et al, 2019) and on the analysis performed by the BestKeeper calculation, an excel-based tool using pairwise correlations (Pfaffl et al, 2004), which shows that it is the most stable housekeeping gene in cortical samples from VPA animals (Figure S1). This analysis considered the standard deviations included in Table S1.…”

Section: Tissue Samples and Rt-qpcr Proceduresmentioning

confidence: 99%

“…The tissues were then homogenized in TRIzol ® reagent (Invitrogen ® , USA) in a proportion of 10 μl of TRIzol ® per milligram of tissue and preserved at ultrafreezer (À80 C) until further molecular analysis. After homogenization of tissue samples, RNA extraction and RT-qPCR analysis for LHX6 gene expression were performed as previously described (Hirsch et al, 2019). The PCR mix contained 12 μl of cDNA (1:33), 1.0 μl of specific miRNA forward and universal reverse (10 μM) primers, 0.5 μl of 10-μM dNTP mix, 2.4 μl of 10Â PCR buffer (Invitrogen, USA), 0.8 μl of 50-mM MgCl2 (Invitrogen, USA), 2.4 μl of 1Â SYBR™ Green (Molecular Probes, USA), 0.1 μl of Platinum Taq DNA Polymerase (Invitrogen, USA) and sterile distilled water totaling a final volume of 24 μl.…”

Section: Tissue Samples and Rt-qpcr Proceduresmentioning

confidence: 99%

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GABAergic synaptic transmission and cortical oscillation patterns in the primary somatosensory area of a valproic acid rat model of autism spectrum disorder

Fontes-Dutra

Marafiga

Santos-Terra

et al. 2022

Eur J of Neuroscience

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Autism spectrum disorder (ASD) is characterized by impaired social communication and interaction associated with repetitive or stereotyped behaviour. Prenatal valproic acid (VPA) exposure in rodents is a commonly used model of ASD. Resveratrol (RSV) has been shown to prevent interneuronal and behavioural impairments in the VPA model. We investigated the effects of prenatal VPA exposure and RSV on the GABAergic synaptic transmission, brain oscillations and on the genic expression of interneuron‐associated transcription factor LHX6 in the primary somatosensory area (PSSA). Prenatal VPA exposure decreased the sIPSC and mIPSC frequencies and the sIPSC decay kinetics onto layers 4/5 pyramidal cells of PSSA. About 40% of VPA animals exhibited absence‐like spike–wave discharge (SWD) events associated with behaviour arrest and increased power spectrum density of delta, beta and gamma cortical oscillations. VPA animals had reduced LHX6 expression in PSSA, but VPA animals treated with RSV had no changes on synaptic inhibition or LHX6 expression in the PSSA. SWD events associated with behaviour arrest and the abnormal increment of cortical oscillations were also absent in VPA animals treated with RSV. These findings provide new venues to investigate the role of both RSV and VPA in the pathophysiology of ASD and highlight the VPA animal model as an interesting tool to investigate pathways related to the aetiology and possible future therapies to this neuropsychiatric disorder.

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Section: Tissue Samples and Rt-qpcr Proceduresmentioning

confidence: 99%

Section: Tissue Samples and Rt-qpcr Proceduresmentioning

confidence: 99%

GABAergic synaptic transmission and cortical oscillation patterns in the primary somatosensory area of a valproic acid rat model of autism spectrum disorder

Fontes-Dutra

Marafiga

Santos-Terra

et al. 2022

Eur J of Neuroscience

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“…However, the specific genetic differences between mouse strains, and even specific mutations leading to ASD, appear not to have a significant effect on purinergic signaling associated with ASD-like behaviors. Several groups have now shown that treatment with the antipurinergic drug suramin was able to correct all the behavioral abnormalities, and most of the metabolic abnormalities, in the MIA model in C57Bl/6J mice, the Fragile X model in FVB mice [1][2][3], a rat model of ASD caused by prenatal exposure to valproic acid [149], and in a small clinical trial in children with ASD [4]. Metabolomic analysis after correction of the ASD-associated behaviors showed that the top metabolic pathway changed by treatment in all of these studies was purines [1,2,4].…”

Section: Limitationsmentioning

confidence: 99%

Metabolic and behavioral features of acute hyperpurinergia and the maternal immune activation mouse model of autism spectrum disorder

et al. 2021

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Since 2012, studies in mice, rats, and humans have suggested that abnormalities in purinergic signaling may be a final common pathway for many genetic and environmental causes of autism spectrum disorder (ASD). The current study in mice was conducted to characterize the bioenergetic, metabolomic, breathomic, and behavioral features of acute hyperpurinergia triggered by systemic injection of the purinergic agonist and danger signal, extracellular ATP (eATP). Responses were studied in C57BL/6J mice in the maternal immune activation (MIA) model and controls. Basal metabolic rates and locomotor activity were measured in CLAMS cages. Plasma metabolomics measured 401 metabolites. Breathomics measured 98 volatile organic compounds. Intraperitoneal eATP dropped basal metabolic rate measured by whole body oxygen consumption by 74% ± 6% (mean ± SEM) and rectal temperature by 6.2˚ ± 0.3˚C in 30 minutes. Over 200 metabolites from 37 different biochemical pathways where changed. Breathomics showed an increase in exhaled carbon monoxide, dimethylsulfide, and isoprene. Metabolomics revealed an acute increase in lactate, citrate, purines, urea, dopamine, eicosanoids, microbiome metabolites, oxidized glutathione, thiamine, niacinamide, and pyridoxic acid, and decreased folate-methylation-1-carbon intermediates, amino acids, short and medium chain acyl-carnitines, phospholipids, ceramides, sphingomyelins, cholesterol, bile acids, and vitamin D similar to some children with ASD. MIA animals were hypersensitive to postnatal exposure to eATP or poly(IC), which produced a rebound increase in body temperature that lasted several weeks before returning to baseline. Acute hyperpurinergia produced metabolic and behavioral changes in mice. The behaviors and metabolic changes produced by ATP injection were associated with mitochondrial functional changes that were profound but reversible.

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“…However, the speci c genetic differences between mouse strains, and even speci c mutations leading to ASD, appear not to have a signi cant effect on purinergic signaling associated with ASD-like behaviors. Several groups have now shown that treatment with the antipurinergic drug suramin was able to correct all the behavioral abnormalities, and most of the metabolic abnormalities, in the MIA model in C57Bl/6J mice, the Fragile X model in FVB mice [1][2][3], a rat model of ASD caused by prenatal exposure to valproic acid [111], and in a small clinical trial in children with ASD [4]. Metabolomic analysis after correction of the ASD-associated behaviors showed that the top metabolic pathway changed by treatment in all of these studies was purines [1,2,4].…”

Section: Limitationsmentioning

confidence: 99%

Metabolic and Behavioral Features of Acute Hyperpurinergia and the Connection to Autism Spectrum Disorder

Zolkipli‐Cunningham

Naviaux

Nakayama

et al. 2020

Preprint

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Background. Since 2012, studies in mice, rats, and humans have suggested that abnormalities in purinergic signaling may be a final common pathway for many genetic and environmental causes of autism spectrum disorder (ASD). The current study in mice was conducted to characterize the bioenergetic, metabolomic, breathomic, and behavioral features of acute hyperpurinergia triggered by systemic injection of the purinergic agonist and danger signal, extracellular ATP (eATP). Methods. Responses were studied in C57BL/6J mice with ASD-like behaviors in the maternal immune activation (MIA) model and controls. Basal metabolic rates, respiratory exchange ratios (RER = VCO2/VO2), and locomotor activity were measured in CLAMS cages. Plasma metabolomics measured 401 metabolites. Breathomics measured 98 volatile organic compounds. Results. A 0.5 µmol/g dose of ATP dropped whole body oxygen consumption by 74% ± 6% (mean ± SEM, 5,303 to 1,382 ml/kg/hr, p<0.0001) and rectal temperature by 6.2˚ ± 0.3˚C (p<0.0001) in 30 minutes. Over 200 metabolites from 37 different biochemical pathways where changed. MIA animals were hypersensitive to the metabolic and behavioral responses triggered by eATP and poly(IC). Breathomic and metabolomic analysis revealed changes in folate-methylation-1-carbon, purines, pyrimidines, acyl-carnitines, glycolysis, aromatic and branch-chain amino acids, Krebs cycle, glutathione, urea cycle, phospholipids, sphingolipids, eicosanoids, cholesterol, bile acids, vitamins, and microbiome metabolism similar to children with ASD. Limitations. The responses to ATP were studied in only a single genetic strain of mice (C57BL/6J). Although similar to metabolic results reported in FVB mice and a small clinical trial in children with ASD, the generalizability of these results to larger studies in humans is unknown. The chronic effects of repeated postnatal ATP exposures were not tested. Conclusions. Acute hyperpurinergia produced metabolic and behavioral changes in mice that were similar to those found in children with ASD. These behaviors and metabolic changes were associated with mitochondrial functional changes that were profound but reversible.

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Effects of single-dose antipurinergic therapy on behavioral and molecular alterations in the valproic acid-induced animal model of autism

Cited by 22 publications

References 60 publications

GABAergic synaptic transmission and cortical oscillation patterns in the primary somatosensory area of a valproic acid rat model of autism spectrum disorder

GABAergic synaptic transmission and cortical oscillation patterns in the primary somatosensory area of a valproic acid rat model of autism spectrum disorder

Metabolic and behavioral features of acute hyperpurinergia and the maternal immune activation mouse model of autism spectrum disorder

Metabolic and Behavioral Features of Acute Hyperpurinergia and the Connection to Autism Spectrum Disorder

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