Influx-Operated Ca2+ Entry via PKD2-L1 and PKD1-L3 Channels Facilitates Sensory Responses to Polymodal Transient Stimuli

Influx-Operated Ca2+ Entry via PKD2-L1 and PKD1-L3 Channels Facilitates Sensory Responses to Polymodal Transient Stimuli

The polycystic TRP subfamily member PKD2-L1, in complex with PKD1-L3, is involved in physiological responses to diverse stimuli. A major challenge to understanding whether and how PKD2-L1/PKD1-L3 acts as a bona fide molecular transducer is that recombinant channels usually respond with small or unde...

Full description

Bibliographic Details
Main Authors: Mingfeng Hu, Yuxia Liu, Jinzhi Wu, Xiaodong Liu
Format: Article
Language:English
Published: Elsevier 2015-10-01
Series:Cell Reports
Online Access:http://www.sciencedirect.com/science/article/pii/S2211124715010669
id doaj-0e297085e479437c99856985ff20b42c
record_format Article
spelling doaj-0e297085e479437c99856985ff20b42c2020-11-25T01:04:22ZengElsevierCell Reports2211-12472015-10-0113479881110.1016/j.celrep.2015.09.041Influx-Operated Ca2+ Entry via PKD2-L1 and PKD1-L3 Channels Facilitates Sensory Responses to Polymodal Transient StimuliMingfeng Hu0Yuxia Liu1Jinzhi Wu2Xiaodong Liu3X-Lab for Transmembrane Signaling Research, Department of Biomedical Engineering, School of Medicine, Tsinghua University, Beijing 100084, ChinaX-Lab for Transmembrane Signaling Research, Department of Biomedical Engineering, School of Medicine, Tsinghua University, Beijing 100084, ChinaX-Lab for Transmembrane Signaling Research, Department of Biomedical Engineering, School of Medicine, Tsinghua University, Beijing 100084, ChinaX-Lab for Transmembrane Signaling Research, Department of Biomedical Engineering, School of Medicine, Tsinghua University, Beijing 100084, ChinaThe polycystic TRP subfamily member PKD2-L1, in complex with PKD1-L3, is involved in physiological responses to diverse stimuli. A major challenge to understanding whether and how PKD2-L1/PKD1-L3 acts as a bona fide molecular transducer is that recombinant channels usually respond with small or undetectable currents. Here, we discover a type of Ca2+ influx-operated Ca2+ entry (ICE) that generates pronounced Ca2+ spikes. Triggered by rapid onset/offset of Ca2+, voltage, or acid stimuli, Ca2+-dependent activation amplifies a small Ca2+ influx via the channel. Ca2+ concurrently drives a self-limiting negative feedback (Ca2+-dependent inactivation) that is regulated by the Ca2+-binding EF hands of PKD2-L1. Our results suggest a biphasic ICE with opposite Ca2+ feedback regulation that facilitates sensory responses to multimodal transient stimuli. We suggest that such a mechanism may also occur for other sensory modalities and other Ca2+ channels.http://www.sciencedirect.com/science/article/pii/S2211124715010669
collection DOAJ
language English
format Article
sources DOAJ
author Mingfeng Hu
Yuxia Liu
Jinzhi Wu
Xiaodong Liu
spellingShingle Mingfeng Hu
Yuxia Liu
Jinzhi Wu
Xiaodong Liu
Influx-Operated Ca2+ Entry via PKD2-L1 and PKD1-L3 Channels Facilitates Sensory Responses to Polymodal Transient Stimuli
Cell Reports
author_facet Mingfeng Hu
Yuxia Liu
Jinzhi Wu
Xiaodong Liu
author_sort Mingfeng Hu
title Influx-Operated Ca2+ Entry via PKD2-L1 and PKD1-L3 Channels Facilitates Sensory Responses to Polymodal Transient Stimuli
title_short Influx-Operated Ca2+ Entry via PKD2-L1 and PKD1-L3 Channels Facilitates Sensory Responses to Polymodal Transient Stimuli
title_full Influx-Operated Ca2+ Entry via PKD2-L1 and PKD1-L3 Channels Facilitates Sensory Responses to Polymodal Transient Stimuli
title_fullStr Influx-Operated Ca2+ Entry via PKD2-L1 and PKD1-L3 Channels Facilitates Sensory Responses to Polymodal Transient Stimuli
title_full_unstemmed Influx-Operated Ca2+ Entry via PKD2-L1 and PKD1-L3 Channels Facilitates Sensory Responses to Polymodal Transient Stimuli
title_sort influx-operated ca2+ entry via pkd2-l1 and pkd1-l3 channels facilitates sensory responses to polymodal transient stimuli
publisher Elsevier
series Cell Reports
issn 2211-1247
publishDate 2015-10-01
description The polycystic TRP subfamily member PKD2-L1, in complex with PKD1-L3, is involved in physiological responses to diverse stimuli. A major challenge to understanding whether and how PKD2-L1/PKD1-L3 acts as a bona fide molecular transducer is that recombinant channels usually respond with small or undetectable currents. Here, we discover a type of Ca2+ influx-operated Ca2+ entry (ICE) that generates pronounced Ca2+ spikes. Triggered by rapid onset/offset of Ca2+, voltage, or acid stimuli, Ca2+-dependent activation amplifies a small Ca2+ influx via the channel. Ca2+ concurrently drives a self-limiting negative feedback (Ca2+-dependent inactivation) that is regulated by the Ca2+-binding EF hands of PKD2-L1. Our results suggest a biphasic ICE with opposite Ca2+ feedback regulation that facilitates sensory responses to multimodal transient stimuli. We suggest that such a mechanism may also occur for other sensory modalities and other Ca2+ channels.
url http://www.sciencedirect.com/science/article/pii/S2211124715010669
work_keys_str_mv AT mingfenghu influxoperatedca2entryviapkd2l1andpkd1l3channelsfacilitatessensoryresponsestopolymodaltransientstimuli
AT yuxialiu influxoperatedca2entryviapkd2l1andpkd1l3channelsfacilitatessensoryresponsestopolymodaltransientstimuli
AT jinzhiwu influxoperatedca2entryviapkd2l1andpkd1l3channelsfacilitatessensoryresponsestopolymodaltransientstimuli
AT xiaodongliu influxoperatedca2entryviapkd2l1andpkd1l3channelsfacilitatessensoryresponsestopolymodaltransientstimuli
_version_ 1725198574208155648

Similar Items