| Literature DB >> 26071843 |
Kristyna Bousova1, Michaela Jirku2, Ladislav Bumba3, Lucie Bednarova4, Miroslav Sulc3, Miloslav Franek5, Ladislav Vyklicky6, Jiri Vondrasek4, Jan Teisinger7.
Abstract
The transient receptor potential melastatin 4 (TRPM4) is a calcium-activated non-selective ion channel broadly expressed in a variety of tissues. Receptor has been identified as a crucial modulator of numerous calcium dependent mechanisms in the cell such as immune response, cardiac conduction, neurotransmission and insulin secretion. It is known that phosphoinositide lipids (PIPs) play a unique role in the regulation of TRP channel function. However the molecular mechanism of this process is still unknown. We characterized the binding site of PIP2 and its structural analogue PIP3 in the E733-W772 proximal region of the TRPM4 N-terminus via biophysical and molecular modeling methods. The specific positions R755 and R767 in this domain were identified as being important for interactions with PIP2/PIP3 ligands. Their mutations caused a partial loss of PIP2/PIP3 binding specificity. The interaction of PIP3 with TRPM4 channels has never been described before. These findings provide new insight into the ligand binding domains of the TRPM4 channel.Entities:
Keywords: Binding site; Circular dichroism; Molecular modeling; PIP2; Surface plasmon resonance; TRPM4 channel
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Year: 2015 PMID: 26071843 DOI: 10.1016/j.bpc.2015.06.004
Source DB: PubMed Journal: Biophys Chem ISSN: 0301-4622 Impact factor: 2.352