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Phosphoinositides modulation of ion channels. Gildas Loussouarn. Phosphoinositides modulation of ion channels. Requirements for biosensors Plasma membrane influences channel activity PIP 2 modulates many ion channels PIP 2 antagonizes channel rundown
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Phosphoinositides modulation of ion channels Gildas Loussouarn
Phosphoinositides modulation of ion channels • Requirements for biosensors • Plasma membrane influences channel activity • PIP2 modulates many ion channels • PIP2 antagonizes channel rundown • PIP2 and KATP channels: PIP2 modulates ATP sensitivity • PIP2 and KCNQ1 channels: PIP2 modulates voltage dependent activation • PIP2 and Kv channels: PIP2 modulates voltage dependent inactivation • PIP2 signal transduction • A major mechanism for PIP2 action: stabilization of the open state • Localization of PIP2 activation gate • Many residues critical for PIP2 regulation are facing the membrane • Mutations of membrane facing positive residues decrease the stabilization of the open state • Comparison between KATP and KCNQ1 • Biosensor durability and repeatability depends on PIP2 stability • Circumvent PIP2 modulation of ion channels
Requirements for biosensors • durability : robustness, function guaranteed for long period of time • repeatability : a correct measure guaranteed for long period of time • easy calibration • Compatibility with a complex sensor (ion channel + membrane)? From Shim and Gu, 2007, Anal. Chem. 79:2207-2213 Pancrazio et al, 1999, Annals of Biomedical Engineering. 27:697-711
Kir1 • Plasma membrane influences channel activity • PIP2 modulates many ion channels Adapted from yu et al, 2005, Pharmacol Rev. 57:387-95
Plasma membrane influences channel activity • PIP2 antagonizes channel rundown
Plasma membrane influences channel activity • PIP2 antagonizes channel rundown
Plasma membrane influences channel activity • PIP2 antagonizes channel rundown cell attached patch excision Inside-out patch excision KCNQ1 For many channels , patch excision leads ultimately to 0 current Loussouarn et al, 2003, EMBO J 22:5412-21
cell attached patch excision Inside-out +PIP2 PIP2 • Plasma membrane influences channel activity • PIP2 antagonizes channel rundown Zhang et al, 2003, Neuron 37 963–975
Kir1 • Plasma membrane influences channel activity • PIP2 modulates many ion channels Adapted from yu et al, 2005, Pharmacol Rev. 57:387-95
cell attached patch excision Inside-out +PIP2 PIP2 • Plasma membrane influences channel activity • PIP2 antagonizes channel rundown Voltage-gated calcium channels KCNQ1 Wu et al, 2002, Nature 419:947-952 Loussouarn et al, 2003, EMBO J 22:5412-21
Plasma membrane influences channel activity • PIP2 antagonizes channel rundown cell attached patch excision Inside-out +PIP2 PIP2 ATP KCNQ1 MgATP + PIP2 PIP2 MgATP Ctrl Loussouarn et al, 2003, EMBO J 22:5412-21
Plasma membrane influences channel activity • PIP2 and KATP channels: PIP2 modulates ATP sensitivity KATP Shyng and Nichols, 1998, Science 282:1138-41
Plasma membrane influences channel activity • PIP2 and KCNQ1 channels: PIP2 modulates voltage dependent activation Loussouarn et al, 2003, EMBO J 22:5412-21
Plasma membrane influences channel activity • PIP2 and Kv channels: PIP2 modulates voltage dependent inactivation Closed Open Inactivated Adapted from Oliver et al, 2004, Science 304:265-70
Plasma membrane influences channel activity • PIP2 and Kv channels: PIP2 modulates voltage dependent inactivation Adapted from Oliver et al, 2004, Science 304:265-70
Plasma membrane influences channel activity • PIP2 signal transduction Gamper et al, 2004, J Neurosci 24:10980-92
Plasma membrane influences channel activity • For many channels: • PIP2 is necessary for channel function : biosensor durability • PIP2 modulates channels sensitivity (to ATP, Vm…) : repeatability, calibration) Are those two properties linked ?
Closed Open • A major mechanism for PIP2 action: stabilization of the open state • Localization of PIP2 activation gate Adapted from Yang et al, 2003, Nature Neuroscience 6:811-818 And Nishida et al, 2007, EMBO J Epub ahead of print]
A major mechanism for PIP2 action: stabilization of the open state • Localization of PIP2 activation gate Adapted from Yang et al, 2003, Nature Neuroscience 6:811-818
A major mechanism for PIP2 action: stabilization of the open state • Many residues critical for PIP2 gating are facing the membrane Adapted from Nishida et al, 2007, EMBO J Epub ahead of print]
A major mechanism for PIP2 action: stabilization of the open state • Many residues critical for PIP2 gating are facing the membrane Kir3.1 Kir1.1 Logothetis et al, 2007, J Physiol
A major mechanism for PIP2 action: stabilization of the open state • Mutations of membrane facing positive residues decrease the stabilization of the open state Kir1.1=ROMK1 Lopes et al, 2002, Neuron 34, 933–944
A major mechanism for PIP2 action: stabilization of the open state • Mutations of membrane facing positive residues decrease the stabilization of the open state WT Kir6.2=KATP R177A Shyng and Nichols, 1998, Science 282:1138-41
A major mechanism for PIP2 action: stabilization of the open state • Mutations of membrane facing positive residues decrease the stabilization of the open state Shyng and al, 2000, 116 : 599–607
PIP2 4 4 CATP C O ATP Enkvetchakul et al 2000, Biophys J, 78:2334-2348 PIP2 V CS4off O CS4on Loussouarn et al 2003, EMBO J, 22:5412-5421 • A major mechanism for PIP2 action: stabilization of the open state • Comparison between KATP and KCNQ1
A major mechanism for PIP2 action: stabilization of the open state • Comparison between KATP and KCNQ1 Enkvetchakul and al, 2001, Biophysical Journal 80 719–728
A major mechanism for PIP2 action: stabilization of the open state • Biosensor durability and repeatability depends on PIP2 stability Enkvetchakul and al, 2001, Biophysical Journal 80 719–728
A major mechanism for PIP2 action: stabilization of the open state • For many channels: • PIP2 is necessary for channel function : biosensor durability • PIP2 modulates channels sensitivity (to ATP, Vm…) : repeatability, calibration) • And those two properties are linked
R T P Q S • Circumvent PIP2 modulation of ion channels KCNQ1 mutation provokes the Long QT syndrome WT KCNQ1 mut KCNQ1 INa ICa,L ICa,T INa/Ca Ito1 Ito2 IKs IKr GIRK KCNQ1 IK1
Circumvent PIP2 modulation of ion channels Personnal communication from A. Thomas and R. Brasseur, Centre de Biophysique Moléculaire Numérique, Université de Gembloux
CONCLUSION • durability : robustness, function guaranteed for long period of time • repeatability : a correct measure guaranteed for long period of time • easy calibration : PIP2? • Compatibility with a complex sensor (ion channel + membrane)? PKA,PKC, MgATP…. PIP2
Acknowledgements Julien Piron Frank Choveau Nicolas Rodriguez +Isabelle Baró Collaborators: Thierry Rose (Institut Pasteur) ANR, GRRC (F. Choveau), AFM (J. Piron)