Adsorption of GST-PI3K[gamma] at the Air-Buffer Interface and at Substrate and Nonsubstrate Phospholipid Monolayers

The recruitment of phosphoinositide 3-kinase... (PI3K...) to the cell membrane is a crucial requirement for the initiation of inflammation cascades by second-messenger production. In addition to identifying other regulation pathways, it has been found that PI3K... is able to bind phospholipids direc...

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Bibliographic Details
Published in:Biophysical journal 2009-02, Vol.96 (3), p.1016
Main Authors: Hermelink, Antje, Kirsch, Cornelia, Klinger, Reinhard, Reiter, Gerald, Brezesinski, Gerald
Format: Article
Language:English
Subjects:
Adsorption
Binding sites
Kinases
Lipids
Proteins
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Summary:The recruitment of phosphoinositide 3-kinase... (PI3K...) to the cell membrane is a crucial requirement for the initiation of inflammation cascades by second-messenger production. In addition to identifying other regulation pathways, it has been found that PI3K... is able to bind phospholipids directly. In this study, the adsorption behavior of glutathione S-transferase (GST)-PI3K... to nonsubstrate model phospholipids, as well as to commercially available substrate inositol phospholipids (phosphoinositides), was investigated by use of infrared reflection-absorption spectroscopy (IRRAS). The nonsubstrate phospholipid monolayers also yielded important information about structural requirements for protein adsorption. The enzyme did not interact with condensed zwitterionic or anionic monolayers; however, it could penetrate into uncompressed fluid monolayers. Compression to values above its equilibrium pressure led to a squeezing out and desorption of the protein. Protein affinity for the monolayer surface increased considerably when the lipid had an anionic headgroup and contained an arachidonoyl fatty acyl chain in sn-2 position. Similar results on a much higher level were observed with substrate phosphoinositides. No structural response of GST-PI3K... to lipid interaction was detected by IRRAS. On the other hand, protein adsorption caused a condensing effect in phosphoinositide monolayers. In addition, the protein reduced the charge density at the interface probably by shifting the pK values of the phosphate groups attached to the inositol headgroups. Because of their strongly polar headgroups, an interaction of the inositides with the water molecules of the subphase can be expected. This interaction is disturbed by protein adsorption, causing the ionization state of the phosphates to change. (ProQuest: ... denotes formulae/symbols omitted.)
ISSN:0006-3495
1542-0086