2006
DOI: 10.1074/jbc.m603930200
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Identification of Two Domains Involved in the Assembly of Transient Receptor Potential Canonical Channels

Abstract: Transient receptor potential canonical (TRPC) channels are associated with calcium entry activity in nonexcitable cells. TRPCs can form homo-or heterotetrameric channels, in which case they can assemble together within a subfamily groups. TRPC1, 4, and 5 represent one group, and TRPC3, 6, and 7 represent the other. The molecular determinants involved in promoting subunit tetramerization are not known. To identify them, we generated chimeras by swapping the different domains of TRPC4 with the same regions in TR… Show more

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Cited by 49 publications
(34 citation statements)
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“…However, the TRP and TRPL do not heteromultimerize because of the difference in their C-termini, resulting in repulsion and dissociation of the subunits. This model fits well with previous in vitro results from Drosophila, as well as mammalian TRPC channels (Engelke et al, 2002;Lepage et al, 2006;Lepage et al, 2009;Liu et al, 2005;Xu et al, 2000;Xu et al, 1997), showing that N-terminal but not the C-terminal fragments of these channel subunits interact.…”
Section: Discussionsupporting
confidence: 76%
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“…However, the TRP and TRPL do not heteromultimerize because of the difference in their C-termini, resulting in repulsion and dissociation of the subunits. This model fits well with previous in vitro results from Drosophila, as well as mammalian TRPC channels (Engelke et al, 2002;Lepage et al, 2006;Lepage et al, 2009;Liu et al, 2005;Xu et al, 2000;Xu et al, 1997), showing that N-terminal but not the C-terminal fragments of these channel subunits interact.…”
Section: Discussionsupporting
confidence: 76%
“…This model also explains why TRP and TRPL do not interact, as the C-terminal pattern of their cc-domains differs. However, this model is inconsistent with previous data showing that the N-terminal region determines subunit assembly, while the C-terminal region does not participate in subunit assembly (Engelke et al, 2002;Lepage et al, 2006;Lepage et al, 2009;Liu et al, 2005;Xu et al, 2000;Xu et al, 1997). In order to reconcile this apparent contradiction, we partially adapted a previously proposed model in which the N-terminal interaction assembles the channels.…”
Section: Discussioncontrasting
confidence: 52%
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“…Cardiac myocyte-targeted overexpression of either protein stimulates chamber hypertrophy and dysfunction coupled to Cn/NFAT activation in a feed-forward manner, because both channel genes also contain NFAT consensus sequences in their promoters (3,4). To date, genetic lossof-function studies have relied almost entirely on myocyte-targeted expression of dominant negative proteins (8) which suppresses hormone-stimulated or pressure-overload induced hypertrophy; however, because the channels can form heterotetramers (13), this approach may afford a poison peptide effect, in which a mutated channel protein interacts with other subtypes. If so, then this effect should differ from a pure gene deletion model, although this has not been reported to date.…”
Section: Gq-coupled Protein Receptorsmentioning
confidence: 99%
“…For example, in TRPC, tetramerization occurs through interaction of association domain 1 (AD1) (N-terminal region) followed by interaction with AD2 (putative pore region S4-S5 and C-terminal region). 13,51 However, in spite of several studies, the molecular mechanism underlying the assembly of TRPV monomers into functional tetramer is still at infancy. In addition, the regions of TRPV channels and the sequence specificity, which regulates the homo-or hetero-tetramer formation, are not well understood.…”
Section: Can These Mutations Affect Trpv4 Oligomerization?mentioning
confidence: 99%