AI Article Synopsis
- Mammalian lipoxygenases (LOXs) play a role in cell differentiation and are linked to inflammatory and hyperproliferative diseases.
- The structure of lipoxygenases features a small N-terminal β-barrel domain and a larger C-terminal subunit containing the catalytic non-heme iron.
- Research involving truncation of various LOX isoforms indicates that while the C2-domain is not crucial for catalytic activity, it significantly affects membrane binding and reaction kinetics, suggesting the N-terminal β-barrel domain is important for regulation.
Article Abstract
Mammalian lipoxygenases (LOXs) have been implicated in cell differentiation and in the pathogenesis of inflammatory and hyperproliferative diseases. The available structural information indicated that lipoxygenases constitute single polypeptide chain enzymes consisting of a small N-terminal β-barrel domain and a larger C-terminal subunit that harbors the catalytic non-heme iron. Because of its structural similarity to C2-domains of lipases the N-terminal β-barrel domain of lipoxygenases, which comprises about 110 amino acids, has been implicated in membrane binding and activity regulation. To explore the functional relevance of the C2-domain in more detail and to develop a more comprehensive hypothesis on the biological role of this structural subunit we performed gene technical truncation on various mammalian LOX isoforms (12/15-LOXs of various species, human 15-LOX2, mouse 5-LOX) and quantified catalytic activity and membrane binding properties of the truncated recombinant enzyme species. We found that the C2-domain is not essential for catalytic activity and does hardly impact reaction specificity. Truncated enzyme species exhibit impaired membrane binding properties and altered reaction kinetics. Taken together, our data suggests a regulatory importance of the N-terminal β-barrel domain for mammalian lipoxygenase isoforms.
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| http://dx.doi.org/10.1016/j.abb.2011.09.004 | DOI Listing |
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