Identification of Small Peptides that Inhibit NADPH Oxidase (Nox2) Activation
Nicotinamide adenine phosphate (NADPH) oxidase type 2 (Nox2), a major source of reactive oxygen species in lungs, plays an important role in tissue damage associated with acute inflammatory diseases. The phospholipase A<sub>2</sub> (PLA<sub>2</sub>) activity of peroxiredoxin...
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| Main Authors: | , , |
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| Format: | Book |
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MDPI AG,
2018-12-01T00:00:00Z.
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| Summary: | Nicotinamide adenine phosphate (NADPH) oxidase type 2 (Nox2), a major source of reactive oxygen species in lungs, plays an important role in tissue damage associated with acute inflammatory diseases. The phospholipase A<sub>2</sub> (PLA<sub>2</sub>) activity of peroxiredoxin 6 (Prdx6), called aiPLA<sub>2</sub>, is required for Nox2 activation through its role in the cellular generation of Rac, a key cytosolic component of the activation cascade. Lung surfactant protein A (SP-A) binds to Prdx6, inhibits its aiPLA<sub>2</sub> activity, and prevents activation of Nox2. Based on protein docking software, we previously identified a 16 amino acid (aa) peptide derived from rat SP-A as the Prdx6 binding motif. We now identify the minimal effective sequences of rat/mouse and human SP-A as 9-aa sequences that we have called PLA<sub>2</sub>-inhibitory peptide (PIP).These sequences are PIP-1, rat/mouse; PIP-2, human; and PIP-3, a hybrid of PIPs 1&2. aiPLA<sub>2</sub> activity in vitro was inhibited by 50% with ~7⁻10 µg PIP/µg Prdx6. Inhibition of the aiPLA<sub>2</sub> activity and Nox2 activation of lungs in vivo was similar for intratracheal (IT) and intravenous (IV) administration of PIP-2, but required its incorporation into liposomes as a delivery vehicle; tissue ½ time for decrease of the in vivo inhibition of aiPLA<sub>2</sub> activity after PIP-2 administration was ~50 h. These properties suggest that PIP-2 could be an effective therapeutic agent to prevent tissue injury associated with lung inflammation. |
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| Item Description: | 2076-3921 10.3390/antiox7120181 |