Structural requisites of 2‐(<i>p</i>‐chlorophenoxy)propionic acid analogues for activity on native rat skeletal muscle chloride conductance and on heterologously expressed CLC‐1

Liantonio, Antonella; A, De Luca; Pierno, Sabata; Didonna, Maria Paola; Loiodice, Fulvio; Fracchiolla, Giuseppe; Tortorella, Paolo; Laghezza, Antonio; Bonerba, Elisabetta; Traverso, Sonia; Elia, Laura; Picollo, Alessandra; Pusch, Michael; Camerino, Diana Conte

doi:10.1038/sj.bjp.0705364

Cited by 24 publications

(28 citation statements)

References 26 publications

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“…In the last few years, the study of 2-(p-chlorophenoxy)propionic acid (CPP) derivatives and fenamates, allowed us to open the way toward a pharmacological characterization of heterologously expressed CLC-K channels (12,13,(17)(18)(19)(20). Particularly, we discovered the presence of an activating and a blocking extracellular drug-binding site.…”

Section: Discussionmentioning

confidence: 99%

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Molecular switch for CLC-K Cl ⁻ channel block/activation: Optimal pharmacophoric requirements towards high-affinity ligands

Liantonio

Picollo

Carbonara

et al. 2008

Proc. Natl. Acad. Sci. U.S.A.

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ClC-Ka and ClC-Kb Cl ؊ channels are pivotal for renal salt reabsorption and water balance. There is growing interest in identifying ligands that allow pharmacological interventions aimed to modulate their activity. Starting from available ligands, we followed a rational chemical strategy, accompanied by computational modeling and electrophysiological techniques, to identify the molecular requisites for binding to a blocking or to an activating binding site on ClC-Ka. The major molecular determinant that distinguishes activators from blockers is the level of planarity of the aromatic portions of the molecules: only molecules with perfectly coplanar aromatic groups display potentiating activity. Combining several molecular features of various CLC-K ligands, we discovered that phenyl-benzofuran carboxylic acid derivatives yield the most potent ClC-Ka inhibitors so far described (affinity <10 M). The increase in affinity compared with 3-phenyl-2-p-chlorophenoxypropionic acid (3-phenyl-CPP) stems primarily from the conformational constraint provided by the phenyl-benzofuran ring. Several other key structural elements for high blocking potency were identified through a detailed structure-activity relationship study. Surprisingly, some benzofuran-based drugs inhibit ClC-Kb with a similar affinity of <10 M, thus representing the first inhibitors for this CLC-K isoform identified so far. Based on our data, we established a pharmacophore model that will be useful for the development of drugs targeting CLC-K channels.kidney ͉ molecular modeling ͉ pharmacology

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Section: Discussionmentioning

confidence: 99%

“…In the last few years, working with two structurally unrelated classes of compounds (CPP derivatives and fenamates), we identified CLC-K activators and inhibitors with moderate affinity (12,13,(17)(18)(19)(20). The only CLC-K opener identified was niflumic acid (NFA).…”

mentioning

confidence: 99%

Molecular switch for CLC-K Cl ⁻ channel block/activation: Optimal pharmacophoric requirements towards high-affinity ligands

Liantonio

Picollo

Carbonara

et al. 2008

Proc. Natl. Acad. Sci. U.S.A.

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“…Finally, to investigate the elution order of the enantiomers of this series, some compounds (1-3, 12, 15, 16) were synthesized in optically active form. For these derivatives, the absolute configuration was already known (1-3, 15) 25 or assigned by chemical correlation (12,16).…”

Section: Resultsmentioning

confidence: 99%

Elucidation of the enantioselective recognition mechanism of a penicillin G acylase‐based chiral stationary phase towards a series of 2‐aryloxy‐2‐arylacetic acids

et al. 2006

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A series of structurally related 2-aryloxy-2-arylacetic acids (1-3, 5-16) together with a thioisostere derivative (4) have been synthesized and characterized by GC-MS and 1H NMR. The designed compounds were analyzed on a Penicillin G Acylase chiral stationary phase (PGA-CSP) and the influence of the structure variations on retention and enantioselectivity was investigated. The chromatographic study includes the direct separation of the enantiomers of the synthesized compounds and the determination of the elution order of selected racemic mixtures. 10 out of 16 racemates were separated; high chromatographic enantioseparation factors (alpha > 2) were achieved for some compounds. For the enantiomers of four compounds whose absolute configuration was known (1, 3, 12, 16), the elution order was R:S with the exception of 2-(4-chloro-phenoxy)phenylacetic acid (1), for which the elution order was reversed. Preliminary molecular modeling studies suggest that both polar and charge-transfer interactions as well as steric effects play an important role in determining the retention factors and the enantioselectivities observed.

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“…In this regard, it is interesting to notice that the activity of derivative N11 is specific for the renal CLC-K1 channel. Indeed, this derivative binds CLC-1 with a much smaller potency with respect to CPP, producing only a slight inhibition of native gCl of rat skeletal muscle fibers as well as of expressed CLC-1 channel (19). Recently, the inhibitor binding site for 9-AC and the more simple clofibrate derivative p-chlorophenoxy-acetic acid (CPA) have been mapped on CLC-1 (27).…”

Section: Discussionmentioning

confidence: 99%

“…All tested compounds were synthesized in our laboratory as racemate mixtures according to procedures previously reported: CPP (N1) (15); CPV (N2) and CPPA (N12) (16); N11 (17); N3, N6, N9, and N10 (18); N4, N5, and N7 (19). Derivative N8 was Figure 1.…”

Section: Expression Of Clc-k1 Channel In Xenopus Laevis Oocytesmentioning

confidence: 99%

Investigations of Pharmacologic Properties of the Renal CLC-K1 Chloride Channel Co-expressed with Barttin by the Use of 2-(p-Chlorophenoxy)Propionic Acid Derivatives and Other Structurally Unrelated Chloride Channels Blockers

Liantonio¹,

Pusch

Picollo

et al. 2004

Journal of the American Society of Nephrology

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Abstract. CLC-K chloride channels are expressed in the kidney, where they play a pivotal role in the mechanisms of urine concentration and Na ϩ reabsorption. The identification of barttin as an essential ␤-subunit of CLC-K channels allowed performance of a pharmacologic characterization of wild-type CLC-K1 expressed in Xenopus oocytes. To this end, a series of 2-(p-chlorophenoxy)propionic acid (CPP) derivatives were screened using the two-microelectrode voltage-clamp technique. Several chemical modifications regarding the phenoxy group of the side chain (elimination of the oxygen atom or of methylenic groups, substitutions of the chlorine atom) did not alter the drug blocking activity, with five different derivatives showing a similar potency. Among these, a derivative of CPP carrying a benzyl group on the chiral center in the place of the methyl group represented the minimal structure for blocking CLC-K1. It inhibited the channel from the extracellular side with an affinity in the 150 M range. The blocking potency of this compound is fourfold increased by lowering the extracellular chloride concentration, suggesting that the drug interacts with the channel pore. Concomitantly, the effect of some "classical" Cl Ϫ channel blockers (9-anthracenecarboxylic acid,

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Structural requisites of 2‐(p‐chlorophenoxy)propionic acid analogues for activity on native rat skeletal muscle chloride conductance and on heterologously expressed CLC‐1

Cited by 24 publications

References 26 publications

Molecular switch for CLC-K Cl ⁻ channel block/activation: Optimal pharmacophoric requirements towards high-affinity ligands

Molecular switch for CLC-K Cl ⁻ channel block/activation: Optimal pharmacophoric requirements towards high-affinity ligands

Elucidation of the enantioselective recognition mechanism of a penicillin G acylase‐based chiral stationary phase towards a series of 2‐aryloxy‐2‐arylacetic acids

Investigations of Pharmacologic Properties of the Renal CLC-K1 Chloride Channel Co-expressed with Barttin by the Use of 2-(p-Chlorophenoxy)Propionic Acid Derivatives and Other Structurally Unrelated Chloride Channels Blockers

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Structural requisites of 2‐(p‐chlorophenoxy)propionic acid analogues for activity on native rat skeletal muscle chloride conductance and on heterologously expressed CLC‐1

Cited by 24 publications

References 26 publications

Molecular switch for CLC-K Cl − channel block/activation: Optimal pharmacophoric requirements towards high-affinity ligands

Molecular switch for CLC-K Cl − channel block/activation: Optimal pharmacophoric requirements towards high-affinity ligands

Elucidation of the enantioselective recognition mechanism of a penicillin G acylase‐based chiral stationary phase towards a series of 2‐aryloxy‐2‐arylacetic acids

Investigations of Pharmacologic Properties of the Renal CLC-K1 Chloride Channel Co-expressed with Barttin by the Use of 2-(p-Chlorophenoxy)Propionic Acid Derivatives and Other Structurally Unrelated Chloride Channels Blockers

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Molecular switch for CLC-K Cl ⁻ channel block/activation: Optimal pharmacophoric requirements towards high-affinity ligands

Molecular switch for CLC-K Cl ⁻ channel block/activation: Optimal pharmacophoric requirements towards high-affinity ligands