Abstract
Nox2 oxidase is one isoform in a family of seven NADPH oxidases that generate reactive oxygen species (ROS) and thereby contribute to physiological and pathological processes including host defense, redox signaling and oxidative tissue damage. While alternative mRNA splicing has been shown to influence the activity of several Nox-family proteins, functionally relevant splice variants of Nox2 have not previously been identified. We immunoscreened several mouse tissues and cells for the presence of truncated Nox2 proteins and identified a 30 kDa protein in lung, spleen and macrophages. RT-PCR analysis of mRNA from primary and immortalised (RAW264.7) mouse macrophages, and from human alveolar macrophages, identified a truncated Nox2 transcript which, upon sequence analysis, was found to be a product of the ‘exon skipping’ mode of alternative splicing, lacking exons 4–10 of the Nox2 gene. The predicted protein is comparable in size to that identified by immunoscreening and contains two transmembrane helices and an extended cytosolic C-terminus with binding sites for NADPH and the Nox organiser protein p47phox. Importantly, selective siRNA-mediated knockdown of the transcript reduced expression of the 30 kDa protein in macrophages, and suppressed phorbol ester-stimulated ROS production by 50%. We thus provide the first evidence that Nox2 undergoes alternative mRNA splicing to yield a 30 kDa protein – herein termed Nox2β – that regulates NADPH oxidase activity in macrophages from mice and humans. The discovery of Nox2β paves the way for future examination of its role in physiological and pathological processes.
Highlights
The Nox2 isoform of the NADPH oxidase family of superoxide generating enzymes is expressed in many cell types and participates in a wide range of cellular processes including pathogen clearance [1], signal transduction [2,3], apoptosis [4], proliferation [5], [6] and oxygen sensing [7]
We found that alveolar macrophages from wild type mice expressed high levels of the truncated Nox2 protein, as did mouse peritoneal macrophages, and the immortalised mouse macrophage cell line RAW264.7 (Figure 2)
This study has identified a novel splice variant of Nox2 that is expressed in mouse and human macrophages and is an important contributor to the NADPH oxidase activity of these cells
Summary
The Nox2 isoform of the NADPH oxidase family of superoxide generating enzymes is expressed in many cell types and participates in a wide range of cellular processes including pathogen clearance [1], signal transduction [2,3], apoptosis [4], proliferation [5], [6] and oxygen sensing [7]. We found that alveolar macrophages from wild type mice expressed high levels of the truncated Nox2 protein, as did mouse peritoneal macrophages, and the immortalised mouse macrophage cell line RAW264.7 (Figure 2).
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