Structure and Function of CLCA Proteins

Loewen, Matthew E.; Forsyth, G. W.

doi:10.1152/physrev.00016.2004

Cited by 120 publications

(130 citation statements)

References 209 publications

(382 reference statements)

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“…While intelectin has been previously implicated in immunity to nematodes [6], the demonstration of a secreted CLCA protein in response to parasite challenge is novel. CLCA proteins are putative Ca 2+ -activated Cl -channels or channel regulators but have also been shown to affect epithelial secretion, cell-cell adhesion, apoptosis, cell cycle control, and mucus production (for review, see [16,30]). hCLCA1 and mCLCA3 (alias gob-5) are distributed in mucin producing goblet cells [16].…”

Section: Discussionmentioning

confidence: 99%

“…CLCA proteins are putative Ca 2+ -activated Cl -channels or channel regulators but have also been shown to affect epithelial secretion, cell-cell adhesion, apoptosis, cell cycle control, and mucus production (for review, see [16,30]). hCLCA1 and mCLCA3 (alias gob-5) are distributed in mucin producing goblet cells [16]. Recent studies have shown that all subunits of hCLCA1 and mCLCA3 are secreted soluble proteins rather than being trans-membrane proteins [7,23].…”

Section: Discussionmentioning

confidence: 99%

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Proteomic approach to identify candidate effector molecules during the in vitro immune exclusion of infectiveTeladorsagia circumcinctain the abomasum of sheep

Athanasiadou

Pemberton²,

Jackson³

et al. 2008

Vet. Res.

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-In the present study we have employed an in vitro organ challenge model to study the post-challenge responses in parasite naïve and immune gastric tissue of sheep, in an attempt to identify the host derived factors involved in immune exclusion of Teladorsagia circumcincta larvae. Proteins present in the epithelial cells and mucus from ovine abomasa following parasite challenge in previously naïve and immune animals were analysed through Matrix Assisted Laser Desorption/Ionization-Time of Flight (MALDI-Tof)-MS and shotgun proteomics. MALDI-ToF analysis of epithelial cell lysates revealed that a number of proteins identified were differentially expressed in naïve and immune cells. These included intelectin and lysozymes, which were present at higher levels in epithelial cell lysates derived from immune samples. A large number of proteins were identified in the mucosal wash from immune tissue which were not present in the mucosal wash of the naïve tissue. Some of these proteins were present in washes of immune tissue prior to the parasite challenge including immunoglobulin A, galectin 14 and 15 and sheep mast cell protease 1. However, other proteins, such as calcium activated chloride channel and intelectin were only detected in the washings from the challenged tissue. The latter may be related to an enhanced mucus release, which may result in entrapment of infective larvae and thus reduced establishment in tissue that has been previously challenged with the parasite. In conclusion, several proteins have been identified which may be involved, either directly or indirectly, in the exclusion and immune elimination of incoming infective larvae. In the present study, the usefulness of the in vitro model has been confirmed, and the global proteomic approach has identified proteins that had not previously been associated with parasite exclusion from abomasal mucosa, such as the calcium activated chloride channel.immunity / mucus / proteomics / sheep / Teladorsagia circumcincta

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Proteomic approach to identify candidate effector molecules during the in vitro immune exclusion of infectiveTeladorsagia circumcinctain the abomasum of sheep

Athanasiadou

Pemberton²,

Jackson³

et al. 2008

Vet. Res.

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Section: Introductionmentioning

confidence: 99%

“…16 Furthermore, interactions between chloride and various amino acid sidechains are responsible for chloride ion selectivity and transport in various ion channels including the ClC type. [17][18][19][20] The present study provides new insights into how the local chloride binding environment is manifested in the chlorine CS tensor.Another major thrust of the present work is to determine how sensitive the chlorine EFG and nuclear magnetic shielding tensors are to the local molecular structure surrounding the chloride ions, specifically the positions of the protons to which they are hydrogen-bonded. Ashbrook and Duer have recently described in detail how structural information may be extracted from solid-state NMR experiments performed on quadrupolar nuclei.…”

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confidence: 99%

Chlorine-35/37 NMR Spectroscopy of Solid Amino Acid Hydrochlorides: Refinement of Hydrogen-Bonded Proton Positions Using Experiment and Theory

2006

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Trends in the chlorine chemical shift (CS) tensors of amino acid hydrochlorides are investigated in the context of new data obtained at 21.1 T and extensive quantum chemical calculations. The analysis of chlorine-35/37 NMR spectra of solid L-tryptophan hydrochloride obtained at two magnetic field strengths yields the chlorine electric field gradient (EFG) and CS tensors, and their relative orientations. The chlorine CS tensor is also determined for the first time for DL-arginine hydrochloride monohydrate. The drastic influence of 1 H decoupling at 21.1 T on the spectral features of salts with particularly small 35 Cl quadrupolar coupling constants (C Q ) is demonstrated. The chlorine CS tensor spans (Ω) of hydrochloride salts of hydrophobic amino acids are found to be larger than those for salts of hydrophilic amino acids. A new combined experimental-theoretical procedure is described in which quantum chemical geometry optimizations of hydrogen-bonded proton positions around the chloride ions in a series of amino acid hydrochlorides are cross-validated against the experimental chlorine EFG and CS tensor data. The conclusion is reached that the relatively computationally inexpensive B3LYP/ 3-21G* method provides proton positions which are suitable for subsequent higher-level calculations of the chlorine EFG tensors. The computed value of Ω is less sensitive to the proton positions. Following this cross-validation procedure, |C Q ( 35 Cl)| is generally predicted within 15% of the experimental value for a range of HCl salts. The results suggest the applicability of chlorine NMR interaction tensors in the refinement of proton positions in structurally similar compounds, e.g., chloride ion channels, for which neutron diffraction data are unavailable. IntroductionThe availability of high-field solid-state nuclear magnetic resonance (NMR) spectrometers, e.g., those with 1 H resonance frequencies of 800 MHz, 900 MHz, and above, has created new opportunities for the study of quadrupolar nuclei (I > 1/ 2) with low resonance frequencies or large quadrupole moments, and for nuclei with both of these properties. For example, Stebbins et al. have described applications of 18.8 and 21.1 T solid-state 27 Al, 17 O, 39 K, and 35 Cl NMR spectroscopy to study oxide materials. 1-3 Gan et al. used magnetic fields as high as 40 T to achieve chemical shift resolution between four different aluminum environments in aluminoborate. 4 Ellis and colleagues have applied high-field 67 Zn NMR at low temperature to study zinc binding environments of biological relevance. 5,6,7,8 Magicangle-spinning (MAS) NMR in a magnetic field of 19.6 T has been applied by Wu and co-workers to detect potassium cations in guanine-quadruplex structures 9 as well as to explore cation-π interactions in alkali metal tetraphenylborates. 10 Cross and coworkers have demonstrated the utility of 17 O solid-state NMR at 21.1 T for characterizing the ion channel gramicidin. 11,12 The major reason that higher fields are so beneficial for the study of quadrupolar nuclei in ...

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“…In the absence of specific pharmacological modulators, the identification of the ion channel(s) underlying this current is an important first step necessary for the development of tools designed to study this phenomenon. Members of three families of proteins have been shown to induce I Cl(Ca) when expressed in heterologous cellular systems: calcium-activated chloride channels (CLCAs), bestrophins and members of the tweety gene family (for reviews see [4,[7][8][9]16] ). In order to assess these molecules as candidates underlying sensory neuron I Cl(Ca) we analyzed expression of members of the 3 families by RT-PCR on normal and axotomized DRGs.…”

Section: Introductionmentioning

confidence: 99%

Expression of three distinct families of calcium-activated chloride channel genes in the mouse dorsal root ganglion

et al. 2007

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Objective A calcium-activated chloride current (I Cl(Ca) ) has been observed in medium-sized sensory neurons of the dorsal root ganglion (DRG). Axotomy of the sciatic nerve induces a similar current in the majority of medium and large diameter neurons. Our aim is to identify the molecule(s) underlying this current. Methods Using conventional and quantitative RT-PCR, we examined the expression in DRG of members of three families of genes, which have been shown to have I Cl(Ca) current inducing properties. Results We showed the detection of transcripts representing several members of these families, i.e. chloride channel calciumactivated (CLCA), Bestrophin and Tweety gene families in adult DRG, in the normal state and 3 d after sciatic nerve section, a model for peripheral nerve injury. Conclusion Our analysis revealed that that mBest1 and Tweety2 appear as the best candidates to play a role in the injury-induced I Cl(Ca) in DRG neurons.

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Structure and Function of CLCA Proteins

Cited by 120 publications

References 209 publications

Proteomic approach to identify candidate effector molecules during the in vitro immune exclusion of infectiveTeladorsagia circumcinctain the abomasum of sheep

Proteomic approach to identify candidate effector molecules during the in vitro immune exclusion of infectiveTeladorsagia circumcinctain the abomasum of sheep

Chlorine-35/37 NMR Spectroscopy of Solid Amino Acid Hydrochlorides: Refinement of Hydrogen-Bonded Proton Positions Using Experiment and Theory

Expression of three distinct families of calcium-activated chloride channel genes in the mouse dorsal root ganglion

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