HIV‐1 Tat C modulates NOX2 and NOX4 expressions through miR‐17 in a human microglial cell line

HIV‐1 invades CNS in the early course of infection, which can lead to the cascade of neuroinflammation. NADPH oxidases (NOXs) are the major producers of reactive oxygen species (ROS), which play important roles during pathogenic insults. The molecular mechanism of ROS generation via microRNA‐mediate...

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Published in	Journal of neurochemistry Vol. 131; no. 6; pp. 803 - 815
Main Authors	Jadhav, Vaishnavi Sunil, Krause, Karl‐Heinz, Singh, Sunit K.
Format	Journal Article
Language	English
Published	England Blackwell Publishing Ltd 01.12.2014
Subjects	Cell Line Cells, Cultured Cellular biology CNS Cytokines HIV HIV-1 - isolation & purification HIV-1 - metabolism HIV‐1 Tat Human immunodeficiency virus Human immunodeficiency virus 1 Humans Membrane Glycoproteins - metabolism microglia Microglia - metabolism microRNA MicroRNAs - metabolism Mutagenesis, Site-Directed - methods NADPH Oxidase 2 NADPH Oxidase 4 NADPH oxidases NADPH Oxidases - metabolism Neurological disorders Proteins Reactive Oxygen Species - metabolism ROS tat Gene Products, Human Immunodeficiency Virus - isolation & purification tat Gene Products, Human Immunodeficiency Virus - metabolism CNS HIV-1 Tat microRNA NADPH oxidases microglia ROS
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Abstract	HIV‐1 invades CNS in the early course of infection, which can lead to the cascade of neuroinflammation. NADPH oxidases (NOXs) are the major producers of reactive oxygen species (ROS), which play important roles during pathogenic insults. The molecular mechanism of ROS generation via microRNA‐mediated pathway in human microglial cells in response to HIV‐1 Tat protein has been demonstrated in this study. Over‐expression and knockdown of microRNAs, luciferase reporter assay, and site‐directed mutagenesis are main molecular techniques used in this study. A significant reduction in miR‐17 levels and increased NOX2, NOX4 expression levels along with ROS production were observed in human microglial cells upon HIV‐1 Tat C exposure. The validation of NOX2 and NOX4 as direct targets of miR‐17 was done by luciferase reporter assay. The over‐expression and knockdown of miR‐17 in human microglial cells showed the direct role of miR‐17 in regulation of NOX2, NOX4 expression and intracellular ROS generation. We demonstrated the regulatory role of cellular miR‐17 in ROS generation through over‐expression and knockdown of miR‐17 in human microglial cells exposed to HIV‐1 Tat C protein. Activated microglial cells mediated neuroinflammatory events are observed in HIV‐associated neurological disorders. The reduction in miR‐17 levels was observed in microglial cells exposed to HIV‐1 Tat C protein. miR‐17 regulated the expression of NOX2 and NOX4, which in turn regulated the reactive oxygen species (ROS) production in microglial cells. Increased ROS production led to the activation of microglial cells and increased cytokine production. This study thus demonstrated a novel miR‐17‐mediated regulatory pathway of ROS production in microglial cells. HMC3 = human microglia clone 3 cell lines. Activated microglial cells mediated neuroinflammatory events are observed in HIV‐associated neurological disorders. The reduction in miR‐17 levels was observed in microglial cells exposed to HIV‐1 Tat C protein. miR‐17 regulated the expression of NOX2 and NOX4, which in turn regulated the reactive oxygen species (ROS) production in microglial cells. Increased ROS production led to the activation of microglial cells and increased cytokine production. This study thus demonstrated a novel miR‐17‐mediated regulatory pathway of ROS production in microglial cells. HMC3 = human microglia clone 3 cell lines.
AbstractList	HIV-1 invades CNS in the early course of infection, which can lead to the cascade of neuroinflammation. NADPH oxidases (NOXs) are the major producers of reactive oxygen species (ROS), which play important roles during pathogenic insults. The molecular mechanism of ROS generation via microRNA-mediated pathway in human microglial cells in response to HIV-1 Tat protein has been demonstrated in this study. Over-expression and knockdown of microRNAs, luciferase reporter assay, and site-directed mutagenesis are main molecular techniques used in this study. A significant reduction in miR-17 levels and increased NOX2, NOX4 expression levels along with ROS production were observed in human microglial cells upon HIV-1 Tat C exposure. The validation of NOX2 and NOX4 as direct targets of miR-17 was done by luciferase reporter assay. The over-expression and knockdown of miR-17 in human microglial cells showed the direct role of miR-17 in regulation of NOX2, NOX4 expression and intracellular ROS generation. We demonstrated the regulatory role of cellular miR-17 in ROS generation through over-expression and knockdown of miR-17 in human microglial cells exposed to HIV-1 Tat C protein. Activated microglial cells mediated neuroinflammatory events are observed in HIV-associated neurological disorders. The reduction in miR-17 levels was observed in microglial cells exposed to HIV-1 Tat C protein. miR-17 regulated the expression of NOX2 and NOX4, which in turn regulated the reactive oxygen species (ROS) production in microglial cells. Increased ROS production led to the activation of microglial cells and increased cytokine production. This study thus demonstrated a novel miR-17-mediated regulatory pathway of ROS production in microglial cells. HMC3 = human microglia clone 3 cell lines. HIV-1 invades CNS in the early course of infection, which can lead to the cascade of neuroinflammation. NADPH oxidases (NOXs) are the major producers of reactive oxygen species (ROS), which play important roles during pathogenic insults. The molecular mechanism of ROS generation via microRNA-mediated pathway in human microglial cells in response to HIV-1 Tat protein has been demonstrated in this study. Over-expression and knockdown of microRNAs, luciferase reporter assay, and site-directed mutagenesis are main molecular techniques used in this study. A significant reduction in miR-17 levels and increased NOX2, NOX4 expression levels along with ROS production were observed in human microglial cells upon HIV-1 Tat C exposure. The validation of NOX2 and NOX4 as direct targets of miR-17 was done by luciferase reporter assay. The over-expression and knockdown of miR-17 in human microglial cells showed the direct role of miR-17 in regulation of NOX2, NOX4 expression and intracellular ROS generation. We demonstrated the regulatory role of cellular miR-17 in ROS generation through over-expression and knockdown of miR-17 in human microglial cells exposed to HIV-1 Tat C protein. Activated microglial cells mediated neuroinflammatory events are observed in HIV-associated neurological disorders. The reduction in miR-17 levels was observed in microglial cells exposed to HIV-1 Tat C protein. miR-17 regulated the expression of NOX2 and NOX4, which in turn regulated the reactive oxygen species (ROS) production in microglial cells. Increased ROS production led to the activation of microglial cells and increased cytokine production. This study thus demonstrated a novel miR-17-mediated regulatory pathway of ROS production in microglial cells. HMC3 = human microglia clone 3 cell lines.HIV-1 invades CNS in the early course of infection, which can lead to the cascade of neuroinflammation. NADPH oxidases (NOXs) are the major producers of reactive oxygen species (ROS), which play important roles during pathogenic insults. The molecular mechanism of ROS generation via microRNA-mediated pathway in human microglial cells in response to HIV-1 Tat protein has been demonstrated in this study. Over-expression and knockdown of microRNAs, luciferase reporter assay, and site-directed mutagenesis are main molecular techniques used in this study. A significant reduction in miR-17 levels and increased NOX2, NOX4 expression levels along with ROS production were observed in human microglial cells upon HIV-1 Tat C exposure. The validation of NOX2 and NOX4 as direct targets of miR-17 was done by luciferase reporter assay. The over-expression and knockdown of miR-17 in human microglial cells showed the direct role of miR-17 in regulation of NOX2, NOX4 expression and intracellular ROS generation. We demonstrated the regulatory role of cellular miR-17 in ROS generation through over-expression and knockdown of miR-17 in human microglial cells exposed to HIV-1 Tat C protein. Activated microglial cells mediated neuroinflammatory events are observed in HIV-associated neurological disorders. The reduction in miR-17 levels was observed in microglial cells exposed to HIV-1 Tat C protein. miR-17 regulated the expression of NOX2 and NOX4, which in turn regulated the reactive oxygen species (ROS) production in microglial cells. Increased ROS production led to the activation of microglial cells and increased cytokine production. This study thus demonstrated a novel miR-17-mediated regulatory pathway of ROS production in microglial cells. HMC3 = human microglia clone 3 cell lines. HIV-1 invades CNS in the early course of infection, which can lead to the cascade of neuroinflammation. NADPH oxidases (NOXs) are the major producers of reactive oxygen species (ROS), which play important roles during pathogenic insults. The molecular mechanism of ROS generation via microRNA-mediated pathway in human microglial cells in response to HIV-1 Tat protein has been demonstrated in this study. Over-expression and knockdown of microRNAs, luciferase reporter assay, and site-directed mutagenesis are main molecular techniques used in this study. A significant reduction in miR-17 levels and increased NOX2, NOX4 expression levels along with ROS production were observed in human microglial cells upon HIV-1 Tat C exposure. The validation of NOX2 and NOX4 as direct targets of miR-17 was done by luciferase reporter assay. The over-expression and knockdown of miR-17 in human microglial cells showed the direct role of miR-17 in regulation of NOX2, NOX4 expression and intracellular ROS generation. We demonstrated the regulatory role of cellular miR-17 in ROS generation through over-expression and knockdown of miR-17 in human microglial cells exposed to HIV-1 Tat C protein. Activated microglial cells mediated neuroinflammatory events are observed in HIV-associated neurological disorders. The reduction in miR-17 levels was observed in microglial cells exposed to HIV-1 Tat C protein. miR-17 regulated the expression of NOX2 and NOX4, which in turn regulated the reactive oxygen species (ROS) production in microglial cells. Increased ROS production led to the activation of microglial cells and increased cytokine production. This study thus demonstrated a novel miR-17-mediated regulatory pathway of ROS production in microglial cells. HMC3 = human microglia clone 3 cell lines. Activated microglial cells mediated neuroinflammatory events are observed in HIV-associated neurological disorders. The reduction in miR-17 levels was observed in microglial cells exposed to HIV-1 Tat C protein. miR-17 regulated the expression of NOX2 and NOX4, which in turn regulated the reactive oxygen species (ROS) production in microglial cells. Increased ROS production led to the activation of microglial cells and increased cytokine production. This study thus demonstrated a novel miR-17-mediated regulatory pathway of ROS production in microglial cells. HMC3 = human microglia clone 3 cell lines. HIV‐1 invades CNS in the early course of infection, which can lead to the cascade of neuroinflammation. NADPH oxidases (NOXs) are the major producers of reactive oxygen species (ROS), which play important roles during pathogenic insults. The molecular mechanism of ROS generation via microRNA‐mediated pathway in human microglial cells in response to HIV‐1 Tat protein has been demonstrated in this study. Over‐expression and knockdown of microRNAs, luciferase reporter assay, and site‐directed mutagenesis are main molecular techniques used in this study. A significant reduction in miR‐17 levels and increased NOX2, NOX4 expression levels along with ROS production were observed in human microglial cells upon HIV‐1 Tat C exposure. The validation of NOX2 and NOX4 as direct targets of miR‐17 was done by luciferase reporter assay. The over‐expression and knockdown of miR‐17 in human microglial cells showed the direct role of miR‐17 in regulation of NOX2, NOX4 expression and intracellular ROS generation. We demonstrated the regulatory role of cellular miR‐17 in ROS generation through over‐expression and knockdown of miR‐17 in human microglial cells exposed to HIV‐1 Tat C protein. Activated microglial cells mediated neuroinflammatory events are observed in HIV‐associated neurological disorders. The reduction in miR‐17 levels was observed in microglial cells exposed to HIV‐1 Tat C protein. miR‐17 regulated the expression of NOX2 and NOX4, which in turn regulated the reactive oxygen species (ROS) production in microglial cells. Increased ROS production led to the activation of microglial cells and increased cytokine production. This study thus demonstrated a novel miR‐17‐mediated regulatory pathway of ROS production in microglial cells. HMC3 = human microglia clone 3 cell lines. Activated microglial cells mediated neuroinflammatory events are observed in HIV‐associated neurological disorders. The reduction in miR‐17 levels was observed in microglial cells exposed to HIV‐1 Tat C protein. miR‐17 regulated the expression of NOX2 and NOX4, which in turn regulated the reactive oxygen species (ROS) production in microglial cells. Increased ROS production led to the activation of microglial cells and increased cytokine production. This study thus demonstrated a novel miR‐17‐mediated regulatory pathway of ROS production in microglial cells. HMC3 = human microglia clone 3 cell lines. HIV-1 invades CNS in the early course of infection, which can lead to the cascade of neuroinflammation. NADPH oxidases (NOXs) are the major producers of reactive oxygen species (ROS), which play important roles during pathogenic insults. The molecular mechanism of ROS generation via microRNA-mediated pathway in human microglial cells in response to HIV-1 Tat protein has been demonstrated in this study. Over-expression and knockdown of microRNAs, luciferase reporter assay, and site-directed mutagenesis are main molecular techniques used in this study. A significant reduction in miR-17 levels and increased NOX2, NOX4 expression levels along with ROS production were observed in human microglial cells upon HIV-1 Tat C exposure. The validation of NOX2 and NOX4 as direct targets of miR-17 was done by luciferase reporter assay. The over-expression and knockdown of miR-17 in human microglial cells showed the direct role of miR-17 in regulation of NOX2, NOX4 expression and intracellular ROS generation. We demonstrated the regulatory role of cellular miR-17 in ROS generation through over-expression and knockdown of miR-17 in human microglial cells exposed to HIV-1 Tat C protein. Activated microglial cells mediated neuroinflammatory events are observed in HIV-associated neurological disorders. The reduction in miR-17 levels was observed in microglial cells exposed to HIV-1 Tat C protein. miR-17 regulated the expression of NOX2 and NOX4, which in turn regulated the reactive oxygen species (ROS) production in microglial cells. Increased ROS production led to the activation of microglial cells and increased cytokine production. This study thus demonstrated a novel miR-17-mediated regulatory pathway of ROS production in microglial cells. HMC3 = human microglia clone 3 cell lines.
Author	Krause, Karl‐Heinz Jadhav, Vaishnavi Sunil Singh, Sunit K.
Author_xml	– sequence: 1 givenname: Vaishnavi Sunil surname: Jadhav fullname: Jadhav, Vaishnavi Sunil organization: CSIR‐Centre for Cellular and Molecular Biology (CCMB) – sequence: 2 givenname: Karl‐Heinz surname: Krause fullname: Krause, Karl‐Heinz organization: Centre Medical Universitaire – sequence: 3 givenname: Sunit K. surname: Singh fullname: Singh, Sunit K. organization: CSIR‐Centre for Cellular and Molecular Biology (CCMB)
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Snippet	HIV‐1 invades CNS in the early course of infection, which can lead to the cascade of neuroinflammation. NADPH oxidases (NOXs) are the major producers of... HIV-1 invades CNS in the early course of infection, which can lead to the cascade of neuroinflammation. NADPH oxidases (NOXs) are the major producers of...
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SubjectTerms	Cell Line Cells, Cultured Cellular biology CNS Cytokines HIV HIV-1 - isolation & purification HIV-1 - metabolism HIV‐1 Tat Human immunodeficiency virus Human immunodeficiency virus 1 Humans Membrane Glycoproteins - metabolism microglia Microglia - metabolism microRNA MicroRNAs - metabolism Mutagenesis, Site-Directed - methods NADPH Oxidase 2 NADPH Oxidase 4 NADPH oxidases NADPH Oxidases - metabolism Neurological disorders Proteins Reactive Oxygen Species - metabolism ROS tat Gene Products, Human Immunodeficiency Virus - isolation & purification tat Gene Products, Human Immunodeficiency Virus - metabolism
Title	HIV‐1 Tat C modulates NOX2 and NOX4 expressions through miR‐17 in a human microglial cell line
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