Your search keyword '"mRNA patterns"' showing total 5 results

1. Perinatal Pb2+ exposure alters the expression of genes related to the neurodevelopmental GABA-shift in postnatal rats

Author

Lorenz S. Neuwirth, Greg R. Phillips, and Abdeslem El Idrissi

Subjects

GABA-shift, Lead exposure, Neurodevelopment, Neurotoxicant, mRNA patterns, Prefrontal cortex, Medicine

Abstract

Abstract Background Lead (Pb2+) is an environmental neurotoxicant that disrupts neurodevelopment, communication, and organization through competition with Ca2+ signaling. How perinatal Pb2+ exposure affects Ca2+-related gene regulation remains unclear. However, Ca2+ activates the L-Type voltage sensitive calcium channel β-3 subunit (Ca-β3), which autoregulates neuronal excitability and plays a role in the GABA-shift from excitatory-to-inhibitory neurotransmission. Method A total of eight females (n = 4 Control and n = 4 Perinatal) and four males (n = 2 Control and n = 2 Perinatal) rats were used as breeders to serve as Dams and Sires. The Dam’s litters each ranged from N = 6–10 pups per litter (M = 8, SD = 2), irrespective of Pb2+ treatment, with a majority of males over females. Since there were more males in each of the litters than females, to best assess and equally control for Pb2+− and litter-effects across all developmental time-points under study, female pups were excluded due to an insufficient sample size availability from the litter’s obtained. From the included pup litters, 24 experimentally naïve male Long Evans hooded rat pups (Control N = 12; Pb2+ N = 12) were used in the present study. Brains were extracted from rat prefrontal cortex (PFC) and hippocampus (HP) at postnatal day (PND) 2, 7, 14 and 22, were homogenized in 1 mL of TRIzol reagent per 100 mg of tissue using a glass-Teflon homogenizer. Post-centrifugation, RNA was extracted with chloroform and precipitated with isopropyl alcohol. RNA samples were then re-suspended in 100 μL of DEPC treated H2O. Next, 10 μg of total RNA was treated with RNase-free DNase (Qiagen) at 37 °C for 1 h and re-purified by a 3:1 phenol/chloroform extraction followed by an ethanol precipitation. From the purified RNA, 1 μg was used in the SYBR GreenER Two-Step qRT-PCR kit (Invitrogen) for first strand cDNA synthesis and the quantitative real-time PCR (qRT-PCR). The effects of perinatal Pb2+ exposure on genes related to early neuronal development and the GABA-shift were evaluated through the expression of: Ca-β3, GABAAR-β3, NKCC1, KCC2, and GAD 80, 86, 65, and 67 isoforms. Results Perinatal Pb2+ exposure significantly altered the GABA-shift neurodevelopmental GOI expression as a function of Pb2+ exposure and age across postnatal development. Dramatic changes were observed with Ca-β3 expression consistent with a Pb2+ competition with L-type calcium channels. By PND 22, Ca-β3 mRNA was reduced by 1-fold and 1.5-fold in PFC and HP respectively, relative to controls. All HP GABA-β3 mRNA levels were particularly vulnerable to Pb2+ at PND 2 and 7, and both PFC and HP were negatively impacted by Pb2+ at PND 22. Additionally, Pb2+ altered both the PFC and HP immature GAD 80/86 mRNA expression particularly at PND 2, whereas mature GAD 65/67 were most significantly affected by Pb2+ at PND 22. Conclusions Perinatal Pb2+ exposure disrupts the expression of mRNAs related to the GABA-shift, potentially altering the establishment, organization, and excitability of neural circuits across development. These findings offer new insights into the altered effects Pb2+ has on the GABAergic system preceding what is known regarding Pb2+ insults unto the glutamatergic system.

Published

2018

2. Perinatal Pb2+ exposure alters the expression of genes related to the neurodevelopmental GABA-shift in postnatal rats

Author

Abdeslem El Idrissi, Greg R. Phillips, and Lorenz S. Neuwirth

Subjects

Male, 0301 basic medicine, L-type calcium channels, Endocrinology, Diabetes and Metabolism, Clinical Biochemistry, Glutamate decarboxylase, Neurodevelopment, lcsh:Medicine, Biology, Hippocampus, Prefrontal cortex, Andrology, 03 medical and health sciences, Lead exposure, 0302 clinical medicine, Pregnancy, Animals, Hippocampus (mythology), Rats, Long-Evans, Pharmacology (medical), L-type calcium channel, GABA-shift, Neurotoxicant, Molecular Biology, gamma-Aminobutyric Acid, Frontoexecutive dysfunction, Regulation of gene expression, Messenger RNA, Voltage-dependent calcium channel, Research, Biochemistry (medical), lcsh:R, Gene Expression Regulation, Developmental, RNA, Cell Biology, General Medicine, Rats, Postnatal development, 030104 developmental biology, Lead, Prenatal Exposure Delayed Effects, mRNA patterns, GABAergic, Environmental Pollutants, Female, 030217 neurology & neurosurgery

Abstract

Background Lead (Pb2+) is an environmental neurotoxicant that disrupts neurodevelopment, communication, and organization through competition with Ca2+ signaling. How perinatal Pb2+ exposure affects Ca2+-related gene regulation remains unclear. However, Ca2+ activates the L-Type voltage sensitive calcium channel β-3 subunit (Ca-β3), which autoregulates neuronal excitability and plays a role in the GABA-shift from excitatory-to-inhibitory neurotransmission. Method A total of eight females (n = 4 Control and n = 4 Perinatal) and four males (n = 2 Control and n = 2 Perinatal) rats were used as breeders to serve as Dams and Sires. The Dam’s litters each ranged from N = 6–10 pups per litter (M = 8, SD = 2), irrespective of Pb2+ treatment, with a majority of males over females. Since there were more males in each of the litters than females, to best assess and equally control for Pb2+− and litter-effects across all developmental time-points under study, female pups were excluded due to an insufficient sample size availability from the litter’s obtained. From the included pup litters, 24 experimentally naïve male Long Evans hooded rat pups (Control N = 12; Pb2+ N = 12) were used in the present study. Brains were extracted from rat prefrontal cortex (PFC) and hippocampus (HP) at postnatal day (PND) 2, 7, 14 and 22, were homogenized in 1 mL of TRIzol reagent per 100 mg of tissue using a glass-Teflon homogenizer. Post-centrifugation, RNA was extracted with chloroform and precipitated with isopropyl alcohol. RNA samples were then re-suspended in 100 μL of DEPC treated H2O. Next, 10 μg of total RNA was treated with RNase-free DNase (Qiagen) at 37 °C for 1 h and re-purified by a 3:1 phenol/chloroform extraction followed by an ethanol precipitation. From the purified RNA, 1 μg was used in the SYBR GreenER Two-Step qRT-PCR kit (Invitrogen) for first strand cDNA synthesis and the quantitative real-time PCR (qRT-PCR). The effects of perinatal Pb2+ exposure on genes related to early neuronal development and the GABA-shift were evaluated through the expression of: Ca-β3, GABAAR-β3, NKCC1, KCC2, and GAD 80, 86, 65, and 67 isoforms. Results Perinatal Pb2+ exposure significantly altered the GABA-shift neurodevelopmental GOI expression as a function of Pb2+ exposure and age across postnatal development. Dramatic changes were observed with Ca-β3 expression consistent with a Pb2+ competition with L-type calcium channels. By PND 22, Ca-β3 mRNA was reduced by 1-fold and 1.5-fold in PFC and HP respectively, relative to controls. All HP GABA-β3 mRNA levels were particularly vulnerable to Pb2+ at PND 2 and 7, and both PFC and HP were negatively impacted by Pb2+ at PND 22. Additionally, Pb2+ altered both the PFC and HP immature GAD 80/86 mRNA expression particularly at PND 2, whereas mature GAD 65/67 were most significantly affected by Pb2+ at PND 22. Conclusions Perinatal Pb2+ exposure disrupts the expression of mRNAs related to the GABA-shift, potentially altering the establishment, organization, and excitability of neural circuits across development. These findings offer new insights into the altered effects Pb2+ has on the GABAergic system preceding what is known regarding Pb2+ insults unto the glutamatergic system.

Published

2018

3. Perinatal Pb2+ exposure alters the expression of genes related to the neurodevelopmental GABA-shift in postnatal rats

Author

Neuwirth, Lorenz S., Phillips, Greg R., and El Idrissi, Abdeslem

Published

2018

4. Perinatal Pb2+ exposure alters the expression of genes related to the neurodevelopmental GABA-shift in postnatal rats.

Author

Neuwirth, Lorenz S., Phillips, Greg R., and El Idrissi, Abdeslem

Subjects

*GABA, *LEAD, *NEURODEVELOPMENTAL treatment, *MESSENGER RNA, *NEUROTOXIC agents, *PREFRONTAL cortex, *HIPPOCAMPUS (Brain)

Abstract

Background: Lead (Pb2+) is an environmental neurotoxicant that disrupts neurodevelopment, communication, and organization through competition with Ca2+ signaling. How perinatal Pb2+ exposure affects Ca2+-related gene regulation remains unclear. However, Ca2+ activates the L-Type voltage sensitive calcium channel β-3 subunit (Ca-β3), which autoregulates neuronal excitability and plays a role in the GABA-shift from excitatory-to-inhibitory neurotransmission. Method: A total of eight females (n = 4 Control and n = 4 Perinatal) and four males (n = 2 Control and n = 2 Perinatal) rats were used as breeders to serve as Dams and Sires. The Dam's litters each ranged from N = 6–10 pups per litter (M = 8, SD = 2), irrespective of Pb2+ treatment, with a majority of males over females. Since there were more males in each of the litters than females, to best assess and equally control for Pb2+− and litter-effects across all developmental time-points under study, female pups were excluded due to an insufficient sample size availability from the litter's obtained. From the included pup litters, 24 experimentally naïve male Long Evans hooded rat pups (Control N = 12; Pb2+N = 12) were used in the present study. Brains were extracted from rat prefrontal cortex (PFC) and hippocampus (HP) at postnatal day (PND) 2, 7, 14 and 22, were homogenized in 1 mL of TRIzol reagent per 100 mg of tissue using a glass-Teflon homogenizer. Post-centrifugation, RNA was extracted with chloroform and precipitated with isopropyl alcohol. RNA samples were then re-suspended in 100 μL of DEPC treated H2O. Next, 10 μg of total RNA was treated with RNase-free DNase (Qiagen) at 37 °C for 1 h and re-purified by a 3:1 phenol/chloroform extraction followed by an ethanol precipitation. From the purified RNA, 1 μg was used in the SYBR GreenER Two-Step qRT-PCR kit (Invitrogen) for first strand cDNA synthesis and the quantitative real-time PCR (qRT-PCR). The effects of perinatal Pb2+ exposure on genes related to early neuronal development and the GABA-shift were evaluated through the expression of: Ca-β3, GABAAR-β3, NKCC1, KCC2, and GAD 80, 86, 65, and 67 isoforms. Results: Perinatal Pb2+ exposure significantly altered the GABA-shift neurodevelopmental GOI expression as a function of Pb2+ exposure and age across postnatal development. Dramatic changes were observed with Ca-β3 expression consistent with a Pb2+ competition with L-type calcium channels. By PND 22, Ca-β3 mRNA was reduced by 1-fold and 1.5-fold in PFC and HP respectively, relative to controls. All HP GABA-β3 mRNA levels were particularly vulnerable to Pb2+ at PND 2 and 7, and both PFC and HP were negatively impacted by Pb2+ at PND 22. Additionally, Pb2+ altered both the PFC and HP immature GAD 80/86 mRNA expression particularly at PND 2, whereas mature GAD 65/67 were most significantly affected by Pb2+ at PND 22. Conclusions: Perinatal Pb2+ exposure disrupts the expression of mRNAs related to the GABA-shift, potentially altering the establishment, organization, and excitability of neural circuits across development. These findings offer new insights into the altered effects Pb2+ has on the GABAergic system preceding what is known regarding Pb2+ insults unto the glutamatergic system. [ABSTRACT FROM AUTHOR]

Published

2018

5. Expression of vox and vent mRNAs and encoded proteins in zebrafish embryos.

Author

Pshennikova ES, Tereshina MB, and Voronina AS

Abstract

In Danio rerio (zebrafish), members of the vent gene-family ( vox/vega1 , vent/vega2 ) are considered as ventralizing factors. We investigated not only the expression of their mRNAs by in situ hybridization at different stages of embryonic development, but also the spatial distribution of the encoded proteins by whole-mount immunostaining. We showed vox mRNA to be available in embryos since early cleavage and later on. Vent mRNA appeared after zygotic genome activation only. The vox and vent proteins were revealed at stage of eight blastomeres. At blastula and gastrula the vox and vent protein staining areas completely overlapped those of the mRNAs. They were expressed uniformly throughout the embryo except for a small region of clearing on the dorsal side. From the bud stage throughout somitogenesis, the vox and vent proteins staining progressively covered the embryos except for dorsal side: at the bud stage it resembled that of mRNA and at the beginning of somitogenesis it was clearly seen along the axis structures. At the pharyngula period stages the proteins were located in neural crest zone, but their mRNAs appeared to be in the tail tips. Thus during embryogenesis, the spatial distributions of a protein and its mRNA may not always quite coincide. We observed such mismatches in embryos at the cleavage stage and in the pharyngula period., Competing Interests: Conflicts of Interest: The authors have no conflicts of interest to declare.

Published

2017