Depolarization activates the phosphoinositide phosphatase Ci‐VSP, as detected in Xenopus oocytes coexpressing sensors of PIP 2
Voltage‐evoked signals play critical roles in neural activities, muscle contraction and exocytosis. Ciona voltage‐sensor containing phosphatase (Ci‐VSP) consists of the transmembrane voltage sensor domain (VSD) and a cytoplasmic domain of phosphoinositide phosphatase, homologous to phosphatase and t...
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| Veröffentlicht in: | The Journal of physiology 2007-09, Vol.583 (3), p.875-889 |
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| creator | Murata, Yoshimichi Okamura, Yasushi |
| description | Voltage‐evoked signals play critical roles in neural activities, muscle contraction and exocytosis.
Ciona
voltage‐sensor containing phosphatase (Ci‐VSP) consists of the transmembrane voltage sensor domain (VSD) and a cytoplasmic domain of phosphoinositide phosphatase, homologous to phosphatase and tensin homologue deleted on chromosome 10 (PTEN). Previous experiments utilizing potassium channels as the sensor for phosphoinositides have demonstrated that phosphatase activities of Ci‐VSP are voltage dependent. However, it still remained unclear whether enzyme activity is activated by depolarization or hyperpolarization. Further, a large gap in voltage dependency was found between the charge movement of the VSD and potassium channel‐reporting phosphatase activities. In this study, voltage‐dependent dynamics of phosphoinositides mediated by Ci‐VSP were examined by confocal imaging and electrical measurements in
Xenopus
oocytes. Imaging of phosphatidylinositol‐4,5‐bisphosphate (PtdIns(4,5)P
2
) using green fluorescent protein (GFP)‐tagged pleckstrin homology (PH) domains from phospholipase C δ subunit (PLC‐δ) showed that PtdIns(4,5)P
2
concentration is reduced during depolarization. In the presence of Ci‐VSP, IRK1 channels with higher sensitivity to phosphoinositide than GIRK2 channels decreased their magnitude during depolarization over 0 mV, indicating that the PtdIns(4,5)P
2
level is reduced upon depolarization. KCNQ2/3 channels coexpressed with Ci‐VSP exhibited voltage‐dependent decay of the outward current that became sharper with higher depolarization in a voltage range up to 100 mV. These results indicate that Ci‐VSP has an activity that depletes PtdIns(4,5)P
2
unlike PTEN and that depolarization‐activated voltage sensor movement is translated into activation of phosphatase activity. |
| doi_str_mv | 10.1113/jphysiol.2007.134775 |
| format | Article |
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Ciona
voltage‐sensor containing phosphatase (Ci‐VSP) consists of the transmembrane voltage sensor domain (VSD) and a cytoplasmic domain of phosphoinositide phosphatase, homologous to phosphatase and tensin homologue deleted on chromosome 10 (PTEN). Previous experiments utilizing potassium channels as the sensor for phosphoinositides have demonstrated that phosphatase activities of Ci‐VSP are voltage dependent. However, it still remained unclear whether enzyme activity is activated by depolarization or hyperpolarization. Further, a large gap in voltage dependency was found between the charge movement of the VSD and potassium channel‐reporting phosphatase activities. In this study, voltage‐dependent dynamics of phosphoinositides mediated by Ci‐VSP were examined by confocal imaging and electrical measurements in
Xenopus
oocytes. Imaging of phosphatidylinositol‐4,5‐bisphosphate (PtdIns(4,5)P
2
) using green fluorescent protein (GFP)‐tagged pleckstrin homology (PH) domains from phospholipase C δ subunit (PLC‐δ) showed that PtdIns(4,5)P
2
concentration is reduced during depolarization. In the presence of Ci‐VSP, IRK1 channels with higher sensitivity to phosphoinositide than GIRK2 channels decreased their magnitude during depolarization over 0 mV, indicating that the PtdIns(4,5)P
2
level is reduced upon depolarization. KCNQ2/3 channels coexpressed with Ci‐VSP exhibited voltage‐dependent decay of the outward current that became sharper with higher depolarization in a voltage range up to 100 mV. These results indicate that Ci‐VSP has an activity that depletes PtdIns(4,5)P
2
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Ciona
voltage‐sensor containing phosphatase (Ci‐VSP) consists of the transmembrane voltage sensor domain (VSD) and a cytoplasmic domain of phosphoinositide phosphatase, homologous to phosphatase and tensin homologue deleted on chromosome 10 (PTEN). Previous experiments utilizing potassium channels as the sensor for phosphoinositides have demonstrated that phosphatase activities of Ci‐VSP are voltage dependent. However, it still remained unclear whether enzyme activity is activated by depolarization or hyperpolarization. Further, a large gap in voltage dependency was found between the charge movement of the VSD and potassium channel‐reporting phosphatase activities. In this study, voltage‐dependent dynamics of phosphoinositides mediated by Ci‐VSP were examined by confocal imaging and electrical measurements in
Xenopus
oocytes. Imaging of phosphatidylinositol‐4,5‐bisphosphate (PtdIns(4,5)P
2
) using green fluorescent protein (GFP)‐tagged pleckstrin homology (PH) domains from phospholipase C δ subunit (PLC‐δ) showed that PtdIns(4,5)P
2
concentration is reduced during depolarization. In the presence of Ci‐VSP, IRK1 channels with higher sensitivity to phosphoinositide than GIRK2 channels decreased their magnitude during depolarization over 0 mV, indicating that the PtdIns(4,5)P
2
level is reduced upon depolarization. KCNQ2/3 channels coexpressed with Ci‐VSP exhibited voltage‐dependent decay of the outward current that became sharper with higher depolarization in a voltage range up to 100 mV. These results indicate that Ci‐VSP has an activity that depletes PtdIns(4,5)P
2
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Ciona
voltage‐sensor containing phosphatase (Ci‐VSP) consists of the transmembrane voltage sensor domain (VSD) and a cytoplasmic domain of phosphoinositide phosphatase, homologous to phosphatase and tensin homologue deleted on chromosome 10 (PTEN). Previous experiments utilizing potassium channels as the sensor for phosphoinositides have demonstrated that phosphatase activities of Ci‐VSP are voltage dependent. However, it still remained unclear whether enzyme activity is activated by depolarization or hyperpolarization. Further, a large gap in voltage dependency was found between the charge movement of the VSD and potassium channel‐reporting phosphatase activities. In this study, voltage‐dependent dynamics of phosphoinositides mediated by Ci‐VSP were examined by confocal imaging and electrical measurements in
Xenopus
oocytes. Imaging of phosphatidylinositol‐4,5‐bisphosphate (PtdIns(4,5)P
2
) using green fluorescent protein (GFP)‐tagged pleckstrin homology (PH) domains from phospholipase C δ subunit (PLC‐δ) showed that PtdIns(4,5)P
2
concentration is reduced during depolarization. In the presence of Ci‐VSP, IRK1 channels with higher sensitivity to phosphoinositide than GIRK2 channels decreased their magnitude during depolarization over 0 mV, indicating that the PtdIns(4,5)P
2
level is reduced upon depolarization. KCNQ2/3 channels coexpressed with Ci‐VSP exhibited voltage‐dependent decay of the outward current that became sharper with higher depolarization in a voltage range up to 100 mV. These results indicate that Ci‐VSP has an activity that depletes PtdIns(4,5)P
2
unlike PTEN and that depolarization‐activated voltage sensor movement is translated into activation of phosphatase activity.</abstract><doi>10.1113/jphysiol.2007.134775</doi><tpages>15</tpages></addata></record> |
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| title | Depolarization activates the phosphoinositide phosphatase Ci‐VSP, as detected in Xenopus oocytes coexpressing sensors of PIP 2 |
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