Tomoko Yamasaki scite author profile

The superoxide-producing NAD(P)H oxidase Nox4 was initially identified as an enzyme that is highly expressed in the kidney and is possibly involved in oxygen sensing and cellular senescence. Although the oxidase is also abundant in vascular endothelial cells, its role remains to be elucidated. Here we show that Nox4 preferentially localizes to the nucleus of human umbilical vein endothelial cells (HUVECs), by immunocytochemistry and immunoelectron microscopy using three kinds of affinity-purified antibodies raised against distinct immunogens from human Nox4. Silencing of Nox4 by RNA interference (RNAi) abrogates nuclear signals given with the antibodies, confirming the nuclear localization of Nox4. The nuclear fraction of HUVECs exhibits an NAD(P)Hdependent superoxide-producing activity in a manner dependent on Nox4, which activity can be enhanced upon cell stimulation with phorbol 12-myristate 13-acetate. This stimulant also facilitates gene expression as estimated in the present transfection assay of HUVECs using a reporter regulated by the Maf-recognition element MARE, a DNA sequence that constitutes a part of oxidative stress response. Both basal and stimulated transcriptional activities are impaired by RNAi-mediated Nox4 silencing. Thus Nox4 appears to produce superoxide in the nucleus of HUVECs, thereby regulating gene expression via a mechanism for oxidative stress response.

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Enhanced expression of NADPH oxidase Nox4 in human gliomas and its roles in cell proliferation and survival

Shono

Yokoyama²,

Uesaka

et al. 2008

Intl Journal of Cancer

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Reactive oxygen species (ROS) have been attracting attention as mediators of various cell-signaling pathways. Nox-family NADPH oxidases have proven to be a major source of ROS production in various cell types and have crucial roles in various physiological and pathological processes. In this study, we show that Nox4, a member of Nox family, is prominently expressed in various neuroepithelial tumors by reverse transcription-polymerase chain reaction (RT-PCR) and immunohistochemical studies. We quantified Nox4 mRNA expression by real-time PCR in tumor specimens from 58 patients with astrocytomas and found that the expression levels of Nox4 mRNA in glioblastomas (WHO grade IV) were significantly higher than those in other astrocytomas (WHO grade II and III). In addition, we show that specific knockdown of Nox4 expression by RNA interference results in cell-growth inhibition and enhances induction of apoptosis by chemotherapeutic agents, such as cisplatin, in cultured glioma cell lines. Based on these observations, enhanced expression of Nox4 appears to be involved in cell proliferation and survival in glioma cells.

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Superoxide Production at Phagosomal Cup/Phagosome through βI Protein Kinase C during FcγR-Mediated Phagocytosis in Microglia

Ueyama

Lennartz

Noda

et al. 2004

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Protein kinase C (PKC) plays a prominent role in immune signaling. To elucidate the signal transduction in a respiratory burst and isoform-specific function of PKC during FcγR-mediated phagocytosis, we used live, digital fluorescence imaging of mouse microglial cells expressing GFP-tagged molecules. βI PKC, εPKC, and diacylglycerol kinase (DGK) β dynamically and transiently accumulated around IgG-opsonized beads (BIgG). Moreover, the accumulation of p47phox, an essential cytosolic component of NADPH oxidase and a substrate for βI PKC, at the phagosomal cup/phagosome was apparent during BIgG ingestion. Superoxide (O2−) production was profoundly inhibited by Gö6976, a cPKC inhibitor, and dramatically increased by the DGK inhibitor, R59949. Ultrastructural analysis revealed that BIgG induced O2− production at the phagosome but not at the intracellular granules. We conclude that activation/accumulation of βI PKC is involved in O2− production, and that O2− production is primarily initiated at the phagosomal cup/phagosome. This study also suggests that DGKβ plays a prominent role in regulation of O2− production during FcγR-mediated phagocytosis.

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Expression and function of Noxo1γ, an alternative splicing form of the NADPH oxidase organizer 1

et al. 2006

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Activation of the superoxide‐producing NADPH oxidase Nox1 requires both the organizer protein Noxo1 and the activator protein Noxa1. Here we describe an alternative splicing form of Noxo1, Noxo1γ, which is expressed in the testis and fetal brain. The Noxo1γ protein contains an additional five amino acids in the N‐terminal PX domain, a phosphoinositide‐binding module; the domain plays an essential role in supporting superoxide production by NADPH oxidase (Nox) family oxidases including Nox1, gp91phox/Nox2, and Nox3, as shown in this study. The PX domain isolated from Noxo1γ shows a lower affinity for phosphoinositides than that from the classical splicing form Noxo1β. Consistent with this, in resting cells, Noxo1γ is poorly localized to the membrane, and thus less effective in activating Nox1 than Noxo1β, which is constitutively present at the membrane. On the other hand, cell stimulation with phorbol 12‐myristate 13‐acetate (PMA), an activator of Nox1–3, facilitates membrane translocation of Noxo1γ; as a result, Noxo1γ is equivalent to Noxo1β in Nox1 activation in PMA‐stimulated cells. The effect of the five‐amino‐acid insertion in the Noxo1 PX domain appears to depend on the type of Nox; in activation of gp91phox/Nox2, Noxo1γ is less active than Noxo1β even in the presence of PMA, whereas Noxo1γ and Noxo1β support the superoxide‐producing activity of Nox3 to the same extent in a manner independent of cell stimulation.

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Tomoko Yamasaki

The superoxide‐producing NAD(P)H oxidase Nox4 in the nucleus of human vascular endothelial cells

Enhanced expression of NADPH oxidase Nox4 in human gliomas and its roles in cell proliferation and survival

Superoxide Production at Phagosomal Cup/Phagosome through βI Protein Kinase C during FcγR-Mediated Phagocytosis in Microglia

Expression and function of Noxo1γ, an alternative splicing form of the NADPH oxidase organizer 1

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