Distinct Structural Determinants of Efficacy and Sensitivity in the Ligand-binding Domain of Cyclic Nucleotide-gated Channels

Young, Edgar C.; Krougliak, Natalia

doi:10.1074/jbc.m310545200

Cited by 25 publications

(35 citation statements)

References 36 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…We used the X-fA4 chimera of the bovine CNGA1 and catfish CNGA2 and CNGA4, which had been shown to form functional channels 14 . Although many of the spots bleached in 4 steps, as expected (Fig.…”

mentioning

confidence: 99%

Subunit counting in membrane-bound proteins

2007

View full text Add to dashboard Cite

The subunit number and stoichiometry of membrane-bound proteins are difficult to determine without disrupting their membrane environment. Here we describe a single-molecule technique for counting subunits of proteins in live cell membranes by observing bleaching steps of GFP fused to a protein of interest. After testing the method with proteins of known stoichiometry expressed in Xenopus laevis oocytes, we resolved the composition of NMDA receptors composed of NR1 and NR3 subunits.Many membrane proteins form multimers before they achieve a functional state and are transported to the plasma membrane of the cell. The stoichiometry of a complex is precisely regulated and is fundamental to its functional properties. Subunit stoichiometry is usually assessed via bulk biochemical and macroscopic functional analyses. For example, the multimeric state of K + channels in the squid giant axon was originally predicted from the shape of the current trace during opening of the channels in voltage clamp 1 . A kinetic analysis of inactivation 2 and an analysis of currents in mixed subunit channels 3 indicated that the channels are probably composed of four similar or identical subunits, which was later confirmed by crystallography 4 . Sometimes macroscopic functional recordings do not distinguish stoichiometry precisely. For example, CNG channels for years had been assumed to be composed of a 2:2 stoichiometry of CNGA1 and CNGB1 subunits 5 , but has been shown to actually be composed of a 3:1 CNGA1 to CNGB1 stoichiometry by biochemical analysis 6 and using fluorescence energy resonance transfer between fluorescent proteins fused to CNGA1 and CNGB1 ( ref. 7 ).The well-studied glutamate-gated NMDA receptors are tetramers containing two NR1 and two NR2 subunits. This stoichiometry had been deduced from macroscopic functional analysis, in which coexpression of wild-type and mutant subunits resulted in a triphasic response to agonists that could be explained by mixture of receptors containing zero, one or two mutant NR1 or NR2 subunits 8 , and from single-channel recordings that showed distinct behaviors consistent with the possible mixed stoichiometries 9 , and confirmed by crystallography 10 . Less is known about NMDA receptors containing the more recently discovered NR3 subunit, which is thought to be involved in synaptic development 11 . Initially it was thought that NR3 coassembles with NR1 and NR2 to form glutamate-gated receptors with unique properties 11 . More recently, and quite surprisingly, the NR3 subunit ligand binding domain had been found to bind glycine and not glutamate, and

show abstract

mentioning

confidence: 99%

Subunit counting in membrane-bound proteins

2007

View full text Add to dashboard Cite

show abstract

“…For that purpose, we used two membrane channels as sensors for cAMP and its effector PKA: the cyclic nucleotide gated channel (CNG), a cAMP-gated Ca 2+ channel; and the cystic fibrosis transmembrane regulator (CFTR), a PKA-activated Cl − channel (Biel and Michalakis, 2009;Hanrahan et al, 1996). Both channels have been expressed and well characterized in Xenopus oocytes (Bear et al, 1991;Nache et al, 2012;Weber et al, 2001;Young and Krougliak, 2004). A rise in cAMP gates CNG channels, which permeate both mono-and divalent cations, including Ca 2+ .…”

Section: Resultsmentioning

confidence: 99%

“…This suggests that basal cAMP levels, at least in the sub-plasma membrane domain detected by the CNG channel, were unchanged up to 30 min after P4 treatment. However, the CNG channel clone used is gated by both cGMP and cAMP (Young and Krougliak, 2004), so the lack of response could be because the effect was masked by cGMP in the oocyte.…”

Section: Resultsmentioning

confidence: 99%

“…We used CNG-expressing oocytes to determine the level of endogenous cAMP in the oocyte and the effectiveness of db-cAMP. Young and Krougliak have previously characterized in Xenopus oocytes the cAMP dose dependence of the recombinant CNG channel, x-fA4, that we used here (Young and Krougliak, 2004). They showed a steep dose dependence of I CNG on cAMP concentrations with a K 1/2 of 1 μM and a saturating current above 200 μM cAMP (see figure 2C in Young and Krougliak, 2004).…”

Section: Increasing Camp Levels Do Not Affect Oocyte Maturationmentioning

confidence: 96%

“…The CNG channel chimeric clone X-fA4 was a gift from Edgar Young (Simon Fraser University, Canada) (Young and Krougliak, 2004). AKAR2 (Lam et al, 2012) was purchased from Addgene and subcloned into the BamHI-EcoRI sites of pSGEM.…”

Section: Molecular Biologymentioning

confidence: 99%

See 2 more Smart Citations

Xenopus oocyte prophase I meiotic arrest is released independently from a decrease in cAMP levels or PKA activity

et al. 2016

View full text Add to dashboard Cite

Vertebrate oocytes arrest at prophase of meiosis I as a result of high levels of cyclic adenosine monophosphate (cAMP) and protein kinase A (PKA) activity. In Xenopus, progesterone is believed to release meiotic arrest by inhibiting adenylate cyclase, lowering cAMP levels and repressing PKA. However, the exact timing and extent of the cAMP decrease is unclear, with conflicting reports in the literature. Using various in vivo reporters for cAMP and PKA at the single-cell level in real time, we fail to detect any significant changes in cAMP or PKA in response to progesterone. More interestingly, there was no correlation between the levels of PKA inhibition and the release of meiotic arrest. Furthermore, we devised conditions whereby meiotic arrest could be released in the presence of sustained high levels of cAMP. Consistently, lowering endogenous cAMP levels by >65% for prolonged time periods failed to induce spontaneous maturation. These results argue that the release of oocyte meiotic arrest in Xenopus is independent of a reduction in either cAMP levels or PKA activity, but rather proceeds through a parallel cAMP/PKAindependent pathway.

show abstract