The Expression and Initial Biophysical Characterization of the Human Ion Channel TRPM8 Pore Domain Plus

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Description
Transient receptor potential (TRP) channels are a superfamily of ion channels found in plasma membranes of both single-celled and multicellular organisms. TRP channels all share the common aspect of having six transmembrane helices and a TRP domain. These structures tetramerize

Transient receptor potential (TRP) channels are a superfamily of ion channels found in plasma membranes of both single-celled and multicellular organisms. TRP channels all share the common aspect of having six transmembrane helices and a TRP domain. These structures tetramerize to form a receptor-activated non-selective ion channel. The specific protein being investigated in this thesis is the human transient receptor potential melastatin 8 (hTRPM8), a channel activated by the chemical ligand menthol and temperatures below 25 °C. TRPM8 is responsible for cold sensing and is related to pain relief associated with cooling compounds. TRPM8 has also been found to play a role in the regulation of various types of tumors. The structure of TRPM8 has been obtained through cryo-electron microscopy, but the functional contribution of individual portions of the protein to the overall protein function is unknown.
To gain more information about the function of the transmembrane region of hTRPM8, it was expressed in Escherichia coli (E. coli) and purified in detergent membrane mimics for experimentation. The construct contains the S4-S5 linker, pore domain (S5 and S6 transmembrane helices), pore helix, and TRP box. hTRPM8-PD+ was purified in the detergents n-Dodecyl-B-D-Maltoside (DDM), 16:0 Lyso PG, 1-Palmitoyl-2-hydroxy-sn-glycero-3-phosphoglycerol (LPPG), and 14:0 Lyso PG, 1-Myristoyl-2-hydroxy-sn-glycero-3-phosphoglycerol (LMPG) to determine which detergent resulted in a hTRPM8-PD+ sample of the most stability, purity, and highest concentrations. Following bacterial expression and protein purification, hTRPM8-PD+ was studied and characterized with circular dichroism (CD) spectroscopy to learn more about the secondary structures and thermodynamic properties of the construct. Further studies can be done with more circular dichroism (CD) spectroscopy, planar lipid bilayer (BLM) electrophysiology, and nuclear magnetic resonance spectroscopy (NMR) to gain more understanding of how the pore domain plus contributes to the activity of the whole protein construct.
Date Created
2019-12
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