The Human NADPH Oxidase, Nox4, Regulates Cytoskeletal Organization in Two Cancer Cell Lines, HepG2 and SH-SY5Y.

Simon Auer,Elisabeth Haschke-Becher,Janne Cadamuro,Elmar Aigner,Mentor Sopjani,Maria Karolin Streubel,Roland Geisberger,Johannes Bischof,Mark Rinnerthaler,Klaus Richter,Michael Breitenbach,Thomas Klaus Felder,Hannelore Breitenbach-Koller

doi:10.3389/fonc.2017.00111

Simon Auer, Elisabeth Haschke-Becher + Show 11 more

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https://doi.org/10.3389/fonc.2017.00111

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NADPH oxidases of human cells are not only functional in defense against invading microorganisms and for oxidative reactions needed for specialized biosynthetic pathways but also during the past few years have been established as signaling modules. It has been shown that human Nox4 is expressed in most somatic cell types and produces hydrogen peroxide, which signals to remodel the actin cytoskeleton. This correlates well with the function of Yno1, the only NADPH oxidase of yeast cells. Using two established tumor cell lines, which are derived from hepatic and neuroblastoma tumors, respectively, we are showing here that in both tumor models Nox4 is expressed in the ER (like the yeast NADPH oxidase), where according to published literature, it produces hydrogen peroxide. Reducing this biochemical activity by downregulating Nox4 transcription leads to loss of F-actin stress fibers. This phenotype is reversible by adding hydrogen peroxide to the cells. The effect of the Nox4 silencer RNA is specific for this gene as it does not influence the expression of Nox2. In the case of the SH-SY5Y neuronal cell line, Nox4 inhibition leads to loss of cell mobility as measured in scratch assays. We propose that inhibition of Nox4 (which is known to be strongly expressed in many tumors) could be studied as a new target for cancer treatment, in particular for inhibition of metastasis.

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In an article that appeared in 2012, we showed that the monocellular yeast, Saccharomyces cerevisiae, contains a genuine NADPH oxidase, Yno1, and provided evidence for a function of this enzyme in regulation of the actin cytoskeleton of the yeast cell [1]
The amount of Nox4 mRNA in liver is smaller compared to brain, and again, the liver-derived cancer cell line contains about three times less Nox4 mRNA compared to liver
The results shown so far point to a possible explanation for the mechanism of action of Nox4 in the two tumor cell lines: Nox4 seems to create a signaling substance, which is probably H2O2 and needed for regulation of the branching mechanism of the dynamic actin cytoskeleton of living cells

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In an article that appeared in 2012, we showed that the monocellular yeast, Saccharomyces cerevisiae, contains a genuine NADPH oxidase, Yno, and provided evidence for a function of this enzyme in regulation of the actin cytoskeleton of the yeast cell [1]. Nox in Cancer Cell Lines of human cancer cells. Nox displays the largest sequence identity and similarity of all human Nox enzymes to the yeast NADPH oxidase, Yno. Direct pairwise sequence comparisons [2] of Yno with all seven human Nox enzymes shows that Nox is the best match for Yno. In a sequence window of 553 amino acids, the two NADPH oxidase sequences share 29.3% identity and 50% similarity. In a window of 565 amino acids, Yno and Nox share 23% identity and 42% sequence similarity

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