Guiying Cui scite author profile

Arginine 352 (R352) in the sixth transmembrane domain of the cystic fibrosis transmembrane conductance regulator (CFTR) previously was reported to form an anion/cation selectivity filter and to provide positive charge in the intracellular vestibule. However, mutations at this site have nonspecific effects, such as inducing susceptibility of endogenous cysteines to chemical modification. We hypothesized that R352 stabilizes channel structure and that charge-destroying mutations at this site disrupt pore architecture, with multiple consequences. We tested the effects of mutations at R352 on conductance, anion selectivity and block by the sulfonylurea drug glipizide, using recordings of wild-type and mutant channels. Charge-altering mutations at R352 destabilized the open state and altered both selectivity and block. In contrast, R352K-CFTR was similar to wild-type. Full conductance state amplitude was similar to that of wild-type CFTR in all mutants except R352E, suggesting that R352 does not itself form an anion coordination site. In an attempt to identify an acidic residue that may interact with R352, we found that permeation properties were similarly affected by charge-reversing mutations at D993. Wild-type-like properties were rescued in R352E/D993R-CFTR, suggesting that R352 and D993 in the wild-type channel may interact to stabilize pore architecture. Finally, R352A-CFTR was sensitive to modification by externally applied MTSEA+, while wild-type and R352E/D993R-CFTR were not. These data suggest that R352 plays an important structural role in CFTR, perhaps reflecting its involvement in forming a salt bridge with residue D993.

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The Best Disease-Linked Cl⁻ChannelhBest1Regulates Ca_V1 (L-type) Ca²⁺Channels via src-Homology-Binding Domains

Yu¹,

Xiao²,

Cui³

et al. 2008

J. Neurosci.

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Mutations in the bestrophinabolished the effects of hBest1 on Ca V 1.3. The effect was specific to hBest1; it was not observed with mouse Best1 (mBest1), mBest2, or mBest3. Wild-type hBest1 and the disease-causing mutants R92S, G299R, and D312N inhibited Ca V currents the same amount, whereas the A146K and G222E mutants were less effective. We propose that hBest1 regulates Ca V channels by interacting with the Ca V ␤ subunit and altering channel availability. Our findings reveal a novel function of bestrophin in regulation of Ca V channels and suggest a possible mechanism for the role of hBest1 in macular degeneration.

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Modeling the Conformational Changes Underlying Channel Opening in CFTR

et al. 2013

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Mutations in the gene encoding the cystic fibrosis transmembrane conductance regulator protein (CFTR) cause cystic fibrosis (CF), the most common life-shortening genetic disease among Caucasians. Although general features of the structure of CFTR have been predicted from homology models, the conformational changes that result in channel opening and closing have yet to be resolved. We created new closed- and open-state homology models of CFTR, and performed targeted molecular dynamics simulations of the conformational transitions in a channel opening event. The simulations predict a conformational wave that starts at the nucleotide binding domains and ends with the formation of an open conduction pathway. Changes in side-chain interactions are observed in all major domains of the protein, and experimental confirmation was obtained for a novel intra-protein salt bridge that breaks near the end of the transition. The models and simulation add to our understanding of the mechanism of ATP-dependent gating in this disease-relevant ion channel.

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Guiying Cui

Ca²⁺‐binding proteins tune Ca²⁺‐feedback to Ca_v1.3 channels in mouse auditory hair cells

Mutations at Arginine 352 Alter the Pore Architecture of CFTR

The Best Disease-Linked Cl⁻ChannelhBest1Regulates Ca_V1 (L-type) Ca²⁺Channels via src-Homology-Binding Domains

Modeling the Conformational Changes Underlying Channel Opening in CFTR

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Guiying Cui

Ca2+‐binding proteins tune Ca2+‐feedback to Cav1.3 channels in mouse auditory hair cells

Mutations at Arginine 352 Alter the Pore Architecture of CFTR

The Best Disease-Linked Cl−ChannelhBest1Regulates CaV1 (L-type) Ca2+Channels via src-Homology-Binding Domains

Modeling the Conformational Changes Underlying Channel Opening in CFTR

Contact Info

Product

Resources

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Ca²⁺‐binding proteins tune Ca²⁺‐feedback to Ca_v1.3 channels in mouse auditory hair cells

The Best Disease-Linked Cl⁻ChannelhBest1Regulates Ca_V1 (L-type) Ca²⁺Channels via src-Homology-Binding Domains