STIM1 regulates Ca<sup>2+</sup> entry via arachidonate‐regulated Ca<sup>2+</sup>‐selective (ARC) channels without store depletion or translocation to the plasma membrane

Mignen, Olivier; Thompson, J.; Shuttleworth, Trevor J.

doi:10.1113/jphysiol.2006.122432

Cited by 179 publications

(248 citation statements)

References 35 publications

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“…In addition, impairment of this complex by shTRPC3 was without effect on TG-evoked SOCE. The role of STIM1 in non-capacitative receptor-regulated Ca 2ϩ entry pathways, such as Ca 2ϩ entry via arachidonate-regulated calcium (ARC) channels (59,60) has previously been demonstrated. Our results reporting the association of STIM1 with type I IP 3 R upon stimulation with ATP or CCh also shows the involvement of STIM1 in ROCE, further suggesting that STIM1 might be a universal regulator of Ca 2ϩ entry.…”

Section: Discussionmentioning

confidence: 99%

TRPC3 Regulates Agonist-stimulated Ca2+ Mobilization by Mediating the Interaction between Type I Inositol 1,4,5-Trisphosphate Receptor, RACK1, and Orai1

Woodard

López

Jardín

et al. 2010

Journal of Biological Chemistry

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(4), a mechanism where the stromal interaction molecule (STIM) 1 has been demonstrated to act as the transmembrane endoplasmic reticulum Ca 2ϩ sensor (5-8). The nature of the plasma membrane Ca 2ϩ permeable channels involved both in ROCE and SOCE are still under investigation but most studies have presented Orai1 as a putative SOC channel (9 -14) and transient receptor potential (TRP) proteins as candidates to mediate both SOCE and ROCE (15-20). These channels have been shown to take part in signaling complexes, including the protein STIM1, which might be essential for the activation mode of the channel (19,(21)(22)(23).In addition, a functional interaction between IP 3 Rs and human TRP channels has been demonstrated by different approaches in several cell types, including human platelets endogenously expressing TRPC1 and IP 3 Rs (24, 25), human embryonic kidney (HEK)-293 cells stably expressing hTRP3 (26) or TRPC1-6 proteins (27), and HEK293T transiently expressing different TRP proteins (28). IP 3 Rs have also been shown to be required for activation of TRPC1 in vascular smooth muscle cells (29) and for the IP 3 -dependent miniature Ca 2ϩ channels (I min ), a Ca 2ϩ -selective channel activated by store depletion, in excised membrane patches from A431 human carcinoma cells (30).A recent study has reported that TRPC3 regulates IP 3 R function by mediating interaction between IP 3 R and the scaffolding protein RACK1 (receptor for activated protein kinase C-1), a protein that plays a key role in transduction of plasma membrane signals to downstream effectors (31, 32), thus regulating agonist-induced Ca 2ϩ release (33). Hence, in the present study we have investigated whether this complex is also important for agonist-induced Ca 2ϩ entry with the participation of proteins involved in Ca 2ϩ entry such as Orai1 and STIM1. We describe for the first time association

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Section: Discussionmentioning

confidence: 99%

TRPC3 Regulates Agonist-stimulated Ca2+ Mobilization by Mediating the Interaction between Type I Inositol 1,4,5-Trisphosphate Receptor, RACK1, and Orai1

Woodard

López

Jardín

et al. 2010

Journal of Biological Chemistry

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“…STIM1 is necessary for their activation, but only the fraction of STIM1 that is constitutively present in the PM (comprising about 10% -20% of the total STIM1 pool in most cells) (Mignen et al 2007). Concatemer studies suggest that ARC channels form as a pentamer of Orai subunits (3 Â Orai1 þ 2 Â Orai3), and glutamine substitutions for glutamates at E106 in Orai1 or the corresponding location in Orai3 (E81) both inhibit conductance, suggesting the formation of a pentameric glutamatergic selectivity filter (Mignen et al 2009).…”

Section: Arc Channelsmentioning

confidence: 99%

Store-Operated Calcium Channels: New Perspectives on Mechanism and Function

Lewis¹

2011

Cold Spring Harbor Perspectives in Biology

177

201

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Store-operated calcium channels (SOCs) are a nearly ubiquitous Ca 2þ entry pathway stimulated by numerous cell surface receptors via the reduction of Ca 2þ concentration in the ER. The discovery of STIM proteins as ER Ca 2þ sensors and Orai proteins as structural components of the Ca 2þ release-activated Ca 2þ (CRAC) channel, a prototypic SOC, opened the floodgates for exploring the molecular mechanism of this pathway and its functions. This review focuses on recent advances made possible by the use of STIM and Orai as molecular tools. I will describe our current understanding of the store-operated Ca 2þ entry mechanism and its emerging roles in physiology and disease, areas of uncertainty in which further progress is needed, and recent findings that are opening new directions for research in this rapidly growing field.

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“…The unusually long coiled-coil domain of STIM1 likely provides the structural features needed for connection between the two membranes to transfer the signal from the ER to the PM that activates CRAC channel. A likely candidate for such interactions is PM-STIM1 (6,11,13,14). However, direct interactions with Orai1 are also possible.…”

Section: Analysis Of the Crac Channel Selectivity By Co-expression Ofmentioning

confidence: 99%

“…STIM1 functions as the Ca 2ϩ sensor in the ER that triggers the CRAC channel activation (5,6,11). However, its translocation to the PM upon activation (11,13) and functional role in the PM have also been demonstrated (6,14). Even though a report by Mignen et al (14) revealed that PM-STIM1 regulates another Ca 2ϩ channel (arachidonate-regulated Ca 2ϩ channels), the same group later revealed that arachidonate-regulated Ca 2ϩ channels have the same molecular identity as CRAC channels (Ref.…”

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confidence: 99%

Voltage Gating at the Selectivity Filter of the Ca2+ Release-activated Ca2+ Channel Induced by Mutation of the Orai1 Protein

Spassova

Hewavitharana

Fandino

et al. 2008

Journal of Biological Chemistry

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The Ca 2؉ release-activated Ca 2؉ (CRAC) channel is a plasma membrane (PM) channel that is uniquely activated when free Ca 2؉ level in the endoplasmic reticulum (ER) is substantially reduced. Several small interfering RNA screens identified two membrane proteins, Orai1 and STIM1, to be essential for the CRAC channel function. STIM1 appears to function in the PM and as the Ca 2؉ sensor in the ER. Orai1 is forming the pore of the CRAC channel. Despite the recent breakthroughs, a mechanistic understanding of the CRAC channel gating is still lacking. Here we reveal new insights on the structure-function relationship of STIM1 and Orai1. Our data suggest that the cytoplasmic coiled-coil region of STIM1 provides structural means for coupling of the ER membrane to the PM to activate the CRAC channel. We mutated two hydrophobic residues in this region to proline (L286P/L292P) to introduce a kink in the first ␣-helix of the coiled-coil domain. This STIM1 mutant caused a dramatic inhibition of the CRAC channel gating compared with the wild type. Structure-function analysis of the Orai1 protein revealed the presence of intrinsic voltage gating of the CRAC channel. A mutation of Orai1 (V102I) close to the selectivity filter modified CRAC channel voltage sensitivity. Expression of the Orai1 V102I mutant resulted in slow voltage gating of the CRAC channel by negative potentials. The results revealed that the alteration of Val 102 develops voltage gating in the CRAC channel. Our data strongly suggest the presence of a novel voltage gating mechanism at the selectivity filter of the CRAC channel.The CRAC 2 channel is activated by depletion of the intracellular Ca 2ϩ stores and mediates sustained Ca 2ϩ entry in hematopoietic cells (1-3) and some other cell types (1, 3). Until recently, the molecular identity of the machinery linking store depletion with Ca 2ϩ entry remained elusive. However, recent studies identified two proteins, STIM1 and Orai1, as being essential for CRAC function (4 -11). Although STIM1 resides predominantly in the ER and the plasma membrane (PM) (11), Orai1 is almost exclusively expressed in the PM (12). STIM1 functions as the Ca 2ϩ sensor in the ER that triggers the CRAC channel activation (5, 6, 11). However, its translocation to the PM upon activation (11, 13) and functional role in the PM have also been demonstrated (6,14). Even though a report by Mignen et al. (14) revealed that PM-STIM1 regulates another Ca 2ϩ channel (arachidonate-regulated Ca 2ϩ channels), the same group later revealed that arachidonate-regulated Ca 2ϩ channels have the same molecular identity as CRAC channels (Ref. 41; see also Ref. 15). STIM1 aggregates into puncta and translocates toward the PM, when the stores are depleted (5, 16). Physical incorporation of STIM1 molecules into the PM after Ca 2ϩ store depletion has been clearly demonstrated (11,13). The time course of the ER Ca 2ϩ depletion followed by CRAC activation correlates with the time course of STIM1 translocation that is ϳ52 s (5, 17).How STIM1 relays signals about ER C...

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STIM1 regulates Ca²⁺ entry via arachidonate‐regulated Ca²⁺‐selective (ARC) channels without store depletion or translocation to the plasma membrane

Cited by 179 publications

References 35 publications

TRPC3 Regulates Agonist-stimulated Ca2+ Mobilization by Mediating the Interaction between Type I Inositol 1,4,5-Trisphosphate Receptor, RACK1, and Orai1

TRPC3 Regulates Agonist-stimulated Ca2+ Mobilization by Mediating the Interaction between Type I Inositol 1,4,5-Trisphosphate Receptor, RACK1, and Orai1

Store-Operated Calcium Channels: New Perspectives on Mechanism and Function

Voltage Gating at the Selectivity Filter of the Ca2+ Release-activated Ca2+ Channel Induced by Mutation of the Orai1 Protein

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STIM1 regulates Ca2+ entry via arachidonate‐regulated Ca2+‐selective (ARC) channels without store depletion or translocation to the plasma membrane

Cited by 179 publications

References 35 publications

TRPC3 Regulates Agonist-stimulated Ca2+ Mobilization by Mediating the Interaction between Type I Inositol 1,4,5-Trisphosphate Receptor, RACK1, and Orai1

TRPC3 Regulates Agonist-stimulated Ca2+ Mobilization by Mediating the Interaction between Type I Inositol 1,4,5-Trisphosphate Receptor, RACK1, and Orai1

Store-Operated Calcium Channels: New Perspectives on Mechanism and Function

Voltage Gating at the Selectivity Filter of the Ca2+ Release-activated Ca2+ Channel Induced by Mutation of the Orai1 Protein

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STIM1 regulates Ca²⁺ entry via arachidonate‐regulated Ca²⁺‐selective (ARC) channels without store depletion or translocation to the plasma membrane