Wade Takeguchi scite author profile

Restoration of chloride conductance via the introduction of an anion selective pore, formed by a channel-forming peptide, has been hypothesized as a novel treatment modality for patients with cystic fibrosis (CF). Delivery of these peptide sequences to airway cells from an aqueous environment in the absence of organic solvents is paramount. New highly soluble COOH- and NH(2)-terminal truncated peptides, derived from the second transmembrane segment of the glycine receptor alpha-subunit (M2GlyR), were generated, with decreasing numbers of amino acid residues. NH(2)-terminal lysyl-adducted truncated peptides with lengths of 22, 25, and 27 amino acid residues are equally able to stimulate short circuit current (I(SC)). Peptides with as few as 16 amino acid residues are able to stimulate I(SC), although to a lesser degree. In contrast, COOH-terminal truncated peptides show greatly reduced induced I(SC) values for all peptides fewer than 27 residues in length and show no measurable activity for peptides fewer than 21 residues in length. CD spectra for both the NH(2)- and COOH-truncated peptides have random structure in aqueous solution, and those sequences that stimulated the highest maximal I(SC) are predominantly helical in 40% trifluoroethanol. Peptides with a decreased propensity to form helical structures in TFE also failed to stimulate I(SC). Palindromic peptide sequences based on both the NH(2)- and COOH-terminal halves of M2GlyR were synthesized to test roles of the COOH- and NH(2)-terminal halves of the molecule in solution aggregation and channel forming ability. On the basis of the study presented here, there are distinct, nonoverlapping regions of the M2GlyR sequence that define solution aggregation and membrane channel assembly. Peptides that eliminate solution aggregation with complete retention of channel forming activity were generated.

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Activity and Structural Comparisons of Solution Associating and Monomeric Channel-Forming Peptides Derived from the Glycine Receptor M2 Segment

Cook

Prakash

Zhang

et al. 2004

Biophysical Journal

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A number of channel-forming peptides derived from the second transmembrane (TM) segment (M2) of the glycine receptor alpha(1) subunit (M2GlyR), including the 22-residue sequence NK(4)-M2GlyR p22 wild type (WT) (KKKKPARVGLGITTVLTMTTQS), induce anion permeation across epithelial cell monolayers. In vitro assays suggest that this peptide or related sequences might function as a candidate for ion channel replacement therapy in treating channelopathies such as cystic fibrosis (CF). The wild-type sequence forms soluble associations in water that diminish its efficacy. Introduction of a single substitution S22W at the C-terminus, NK(4)-M2GlyR p22 S22W, eliminates the formation of higher molecular weight associations in solution. The S22W peptide also reduces the concentration of peptide required for half-maximal anion transport induced across Madin-Darby canine kidney cells (MDCK) monolayers. A combination of 2D double quantum filtered correlation spectroscopy (DQF-COSY), total correlation spectroscopy (TOCSY), nuclear Overhauser effect spectroscopy (NOESY), and rotating frame nuclear Overhauser effect spectroscopy (ROESY) data were recorded for both the associating WT and nonassociating S22W peptides and used to compare the primary structures and to assign the secondary structures. High-resolution structural studies were recorded in the solvent system (40% 2,2,2-Trifluoroethanol (TFE)/water), which gave the largest structural difference between the two peptides. Nuclear Overhauser effect crosspeak intensity provided interproton distances and the torsion angles were measured by spin-spin coupling constants. These constraints were put into the DYANA modeling program to generate a group of structures. These studies yielded energy-minimized structures for this mixed solvent environment. Structure for both peptides is confined to the 15-residue transmembrane segments. The energy-minimized structure for the WT peptide shows a partially helical extended structure. The S22W peptide adopts a bent conformation forming a hydrophobic pocket by hydrophobic interactions.

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Redesigning Channel-Forming Peptides: Amino Acid Substitutions that Enhance Rates of Supramolecular Self-Assembly and Raise Ion Transport Activity

Shank

Broughman

Takeguchi

et al. 2006

Biophysical Journal

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Three series of 22-residue peptides derived from the transmembrane M2 segment of the glycine receptor a1-subunit (M2GlyR) have been designed, synthesized, and tested to determine the plasticity of a channel-forming sequence and to define whether channel pores with enhanced conductive properties could be created. Sixteen sequences were examined for aqueous solubility, solution-association tendency, secondary structure, and half-maximal concentration for supramolecular assembly, channel activity, and ion transport properties across epithelial monolayers. All peptides interact strongly with membranes: associating with, inserting across, and assembling to form homooligomeric bundles when in micromolar concentrations. Single and double amino acid replacements involving arginine and/or aromatic amino acids within the final five C-terminal residues of the peptide cause dramatic effects on the concentration dependence, yielding a range of K 1/2 values from 36 6 5 to 390 6 220 mM for transport activity. New water/lipid interfacial boundaries were established for the transmembrane segment using charged or aromatic amino acids, thus limiting the peptides' ability to move perpendicularly to the plane of the bilayer. Formation of discrete water/lipid interfacial boundaries appears to be necessary for efficient supramolecular assembly and high anion transport activity. A peptide sequence is identified that may show efficacy in channel replacement therapy for channelopathies such as cystic fibrosis.

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Evaluating potential quagga mussel control measures in Colorado River water

Takeguchi¹,

Liang²,

Yates³

2012

Journal AWWA

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This bench-scale system was part of the test apparatus for the flow-through experiments to evaluate the effects of the various molluscicides. Flow-through pilot-scale ozone experiments were conducted at the Metropolitan Water District of Southern California Mobile Pilot Plant. Takeguchi et al | http://dx.A comparison of the white internal organ (circled) of a healthy control quagga mussel (A) and that of a test quagga mussel (B) dosed with polydiallyl dimethyl ammonium chloride (polyDADMAC) indicates that the polyDADMAC-dosed mussel displayed significant enlargement of the internal organ. Takeguchi et al | http://dx.

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Bench‐scale ozonation for removing constituents of emerging concern

Sun¹,

Maceikd²,

Takeguchi³

et al. 2014

Journal AWWA

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This study assessed the efficiencies of removing constituents of emerging concern (CECs) with ozone and ozone in combination with hydrogen peroxide in a bench‐scale flow‐through system designed to predict full‐scale removals. Five CECs were selected for evaluation: atrazine, caffeine, carbamazepine, primidone, and tris (2‐chloroethyl) phosphate. Two modeling compounds, 2‐methylisoborneol and geosmin, were used to establish bench‐scale operating conditions that mimicked previous pilot‐ and demonstration‐scale removals. The study demonstrated that CEC removal efficiencies in bench‐scale systems are generally consistent with removals in full‐scale systems. Thus, the bench‐scale system can be used to predict full‐scale removals. Additionally, bench‐scale results showed that CEC removal efficiencies were generally higher in State Project water (SPW) than in Colorado River water (CRW) or the SPW/CRW blend. These results were likely a consequence of the rapid formation of hydroxyl radicals in SPW.

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Wade Takeguchi

Distinct Structural Elements That Direct Solution Aggregation and Membrane Assembly in the Channel-Forming Peptide M2GlyR

Activity and Structural Comparisons of Solution Associating and Monomeric Channel-Forming Peptides Derived from the Glycine Receptor M2 Segment

Redesigning Channel-Forming Peptides: Amino Acid Substitutions that Enhance Rates of Supramolecular Self-Assembly and Raise Ion Transport Activity

Evaluating potential quagga mussel control measures in Colorado River water

Bench‐scale ozonation for removing constituents of emerging concern

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