The nucleoli matrix proteins with molecular masses 40 and 27 kDa are transported as peripheral chromosomal material

Using immunofluoresence method, sera M-311 and K-30 obtained from patients with autoimmune disease were shown to stain interphase nuclei and the periphery of chromosomes. Western blotting revealed a polypeptide with mol. mass 27 kDa in serum K-30. Both proteins were localized in the karyoplasm. One of them (27 kDa) has a diffuse form and contains small granules, while the other (40 kDa) is in the form of small clearly outlined granules. Both proteins are also revealed around the nucleolar periphery, making a continental ring, while the main part of the nucleolus remains unstained. During pro- and metaphase, these proteins were associated with the chromosomal periphery: 27 kDa protein formed separate groups, and 40 kDa protein was seen over the whole chromosomal periphery. After nuclear and chromosomal decondensation, induced by hypotonic treatment (15% of culture medium solution), both antibodies stain diffusively interphase nuclei, but in mitotic cells they stained the surface of the swollen chromosomes. After chromatin recondensation in isotonic medium these proteins were localized similarly as in normal cells. Thus, both proteins maintained their association with the periphery of chromosomes. To reveal the nuclear protein matrix, cells were treated with 2M NaCl, DNAase and RNAase A. After this procedure, the antibodies stained only the nucleolar periphery, and no fluorescence in the karyoplasm was seen. It shows that of all the components of the nuclear protein matrix (lamina, internuclear network, residual nucleoli) only 27 and 40 kDa proteins are contained in the nucleolar rim. The data allow to suggest that the nucleolar matrix proteins may be transported to new cell nuclei as part of the peripheral chromosomal material likely as other nucleolar (fibrillarin, B-23, and others) or some non-nuclear components of the nuclear protein matrix are transported.     

Nuclear matrix proteins (with molecular masses of 38 and 50 kDa) are transported by chromosomes in mitosis

Using the immunofluorescence method, sera M-68 and K-43 from patients with autoimmune diseases were shown to stain interphase nuclei and the periphery of mitotic chromosomes of pig embryo kidney cells. Western blotting revealed a polypeptide with a molecular mass of 50 kDa in M-68 serum and polypeptide with a molecular mass 38 kDa in K-43 serum. In the nuclear protein matrix, the antibodies to protein with a molecular mass of 38 kDa stained only the nucleolar periphery, while the antibodies to protein with a molecular mass of 50 kDa stained not only the nucleolar periphery, but also all interphase nuclei. It was shown that, among all components of the nuclear protein matrix (lamina, internuclear network, residual nucleoli), only the nucleolar periphery contained the 38-kDa protein, while the 50-kDa protein was part of the residual nucleolar periphery and participated in the formation of a nuclear-protein network. Both proteins in interphase cell in situ were located in nuclei, but one of them with a molecular mass of 50 kDa was in the form of small, clearly outlined granules, while the other protein (38 kDa) was in the form of small, bright granules on a background of a diffusely stained nucleus. Both proteins also were revealed as a continuous rim around the nucleolar periphery. During all mitotic stages, the 50-kDa protein was seen over the whole chromosomal periphery as a sheath, while the 38-kDa protein formed individual fragments and granules around them. After the decondensation of the nucleus and chromosomes induced by hypotonic treatment, both antibodies stained interphase nuclei diffusely, whereas, in mitotic cells, they stained the surfaces of swollen chromosomes. Polypeptide with a molecular mass of 50 kDa maintained a strong connection with the periphery of the chromosome in the norm during decondensation induced by hypotonic treatment and during subsequent recondensation in isotonic medium, while, during recondensation, protein with a molecular mass of 38 kDa partially lost contact with the chromosome and, at the same time, appeared in the form of granules in the cytoplasm. The obtained data allow one to conclude that nuclear matrix proteins can be transferred with peripheral chromosomal material; similar to the main nucleolar proteins (fibrillarin, B-23, nucleolin, et al.) and some non-nucleolar components of the nuclear protein matrix, they can also have connections of different stabilities with chromosomal periphery.     

Localization of fibrillarin, 53 kDa protein and Ag-NOR proteins in the nuclei of giant antipodal cells of the wheat Triticum aestivum

Distribution of nucleolar argentophylic proteins, fibrillarin and 53 kDa protein, in highly polyploid nuclei of antipodal cells of Triticum aestivum L. was studied at different stages of the embryo sac development. The main results are as follows. 1. Ag-NOR proteins and fibrillarin form clusters are distributed in the giant nucleoli, whereas 53 kDa protein is mainly localized on the nucleolar periphery. Ag-NOR proteins and fibrillarin are accumulated as globular nucleolar-like particles--micronucleoli. 2. Dynamics of Ag-NOR proteins, fibrillarin and 53 kDa protein depends on the proliferative activity of endosperm cells. In embryo sacs with non-dividing endosperm cells at interphase stages, Ag-NOR proteins and fibrillarin were observed only within nucleoli and micronucleoli. In embryo sacs with dividing endosperm cells, fibrillarin and 53 kDa protein formed heterogeneous globular bodies varying in size. Simultaneously, some argentophylic material was observed in giant chromosomes. This may be due, presumably, to a partial or complete disappearance of the nucleoli of antipods and transition of some nucleolar components into the peripheral material of giant polytene chromosomes. We suggest that giant nuclei of antipodal cells may undergo cyclic transformation similar to those in the nuclei of dividing cells.     

Premature assembly of nucleolus-derived foci induced by a reversible hypotonic shock in metaphase CV1 and HeLa cells

The assembly of nucleolus-derived foci (NDF) in the cytoplasm of telophase cells is an early stage of nucleolus reassembly during mitosis. In current literature, significant attention is paid to the molecular composition of NDF and their participation in reassembly of the mature nucleolus. However, very little is known about mechanisms controlling the NDF formation. The authors have demonstrated for the first time that a reversible action of low ionic strength buffers (lypotonic shock treatment) on living mitotic human HeLa and green monkey CV1 cells triggers a premature assembly of NDF at metaphase. Like the true NDF, i. e., those assembled in telophase mitosis, NDF prematurally induced at metaphase contain RNA and proteins required for rRNA processing (fibrillarin, B23/nucliophosmin, C23/nucleolin), but lack UBF, an auxiliary factor of RNA polymerase I. We have assumed that a reversible action of hypotonic shock on metaphase cells may result in temporal increase in intracellular [Ca2+](i) that, in its turn, may induce a premature assembly of NDF under isotonic conditions. The structural integrity of the mitotic spindle apparently plays an essential role in the response of metaphase cells to hypotonic shock treatments.     

Red cell volume regulation: the pivotal role of ionic strength in controlling swelling-dependent transport systems.

A volume increase of trout erythrocytes can be induced either by beta-adrenergic stimulation of a Na+/H+ antiport in an isotonic medium (isotonic swelling) or by suspending red cells in an hypotonic medium (hypotonic swelling). In both cases cells regulate their volume by a loss of osmolytes via specific pathways. After hypotonic swelling several volume-dependent pathways were activated allowing K+, Na+, taurine and choline to diffuse. All these pathways were fully inhibited by furosemide and inhibitors of the anion exchanger (DIDS, niflumic acid), and the K+ loss was mediated essentially via a 'Cl(-)-independent' pathway. After isotonic swelling, the taurine, choline and Na+ pathways were practically not activated and the K+ loss was strictly 'Cl(-)-dependent'. Thus cellular swelling is a prerequisite for activation of these pathways but, for a given volume increase, the degree of activation and the degree of anion-dependence of the K+ pathway depend on the nature of the stimulus, whether hormonal or by reduction of osmolality. It appears that the pattern of the response induced by hormonal stimulation is not triggered by either cellular cAMP (since it can be reproduced in the absence of hormone by isotonic swelling in an ammonium-containing saline) or by the tonicity of the medium in which swelling occurs since after swelling in an isotonic medium containing urea, the cells adopt the regulatory pattern normally observed after hypotonic swelling. We demonstrated that the stimulus is the change in cellular ionic strength induced by swelling: when ionic strength drops, the cells adopt the hypotonic swelling pattern; when ionic strength increases, the isotonic swelling pattern is activated. To explain this modulating effect of ionic strength a speculative model is proposed, which also allows the integration of two further sets of experimental results: (i) all the volume-activated transport systems are blocked by inhibitors of the anion exchanger and (ii) a Cl(-)-dependent, DIDS-sensitive K+ pathway can be activated in static volume trout red cells (i.e., in the absence of volume increase) by the conformational change of hemoglobin induced by the binding of O2 or CO to the heme.     

Differential decondensation of mitotic chromosomes in SPEV tissue cultured cells induced by repeated hypotonic shock

A new method of differential decondensation of mitotic chromosomes has been proposed by means of repeated treatment of live cells with 15% Hanks' balanced salt solution. The procedure of cell treatment includes three stages: the first hypotonic shock, cultivation in isotonic medium, and the second hypotonic shock. As a result, after a standard methanol-acetic acid fixation and Giemsa staining some discrete Giemsa-positive globules are revealed in mitotic chromosomes. Such globules are symmetrically arranged in axial regions of sister chromatids. The comparative analysis of marker chromosomes has revealed a topological conformity of these globules to G-bands of chromosomes. It has been shown that it is the first hypotonic shock that triggers induction of structural modification of chromatin in interphase nuclei and in mitotic chromosomes. Of interest is the fact that the effect of the first shock is prolonged in time and is realized during at least one cell cycle, with the normal structure of mitotic chromosomes being restored after S-phase of the successive cell cycle.     

In nucleoli, the steady state of nucleolar proteins is leptomycin B-sensitive.

BACKGROUND INFORMATION: The nucleolus is a dynamic structure. It has been demonstrated that nucleolar proteins rapidly associate with and dissociate from nucleolar components in continuous exchanges with the nucleoplasm using GFP (green fluorescent protein)-tagged proteins. However, how the exchanges within one nucleolus and between nucleoli within the nuclear volume occurred is still poorly understood. RESULTS: The movement of PAGFP (photoactivatable GFP)-tagged proteins that become visible after photoactivation can be followed. In the present study, we establish the protocol allowing quantification of the traffic of PAGFP-tagged nucleolar proteins in nuclei containing two nucleoli. The traffic in the activated area, at the periphery of the activated area and to the neighbouring nucleolus is measured. Protein B23 is rapidly replaced in the activated area, and at the periphery of the activated area the steady state suggests intranucleolar recycling of B23; this recycling is LMB (leptomycin B)-sensitive. The pool of activated B23 is equally distributed in the volume of the two nucleoli within 2 min. The three-dimensional distribution of the proteins Nop52 and fibrillarin is less rapid than that of B23 but is also LMB-sensitive. In contrast, traffic of fibrillarin from the nucleoli to the CB (Cajal body) was not modified by LMB. CONCLUSIONS: We propose that the steady state of nucleolar proteins in nucleoli depends on the affinity of the proteins for their partners and on intranucleolar recycling. This steady state can be impaired by LMB but not the uptake in the neighbouring nucleolus or the CB.     

In nucleoli, the steady state of nucleolar proteins is leptomycin B-sensitive

Background information. The nucleolus is a dynamic structure. It has been demonstrated that nucleolar proteins rapidly associate with and dissociate from nucleolar components in continuous exchanges with the nucleoplasm using GFP (green fluorescent protein)‐tagged proteins. However, how the exchanges within one nucleolus and between nucleoli within the nuclear volume occurred is still poorly understood. Results. The movement of PAGFP (photoactivatable GFP)‐tagged proteins that become visible after photoactivation can be followed. In the present study, we establish the protocol allowing quantification of the traffic of PAGFP‐tagged nucleolar proteins in nuclei containing two nucleoli. The traffic in the activated area, at the periphery of the activated area and to the neighbouring nucleolus is measured. Protein B23 is rapidly replaced in the activated area, and at the periphery of the activated area the steady state suggests intranucleolar recycling of B23; this recycling is LMB (leptomycin B)‐sensitive. The pool of activated B23 is equally distributed in the volume of the two nucleoli within 2 min. The three‐dimensional distribution of the proteins Nop52 and fibrillarin is less rapid than that of B23 but is also LMB‐sensitive. In contrast, traffic of fibrillarin from the nucleoli to the CB (Cajal body) was not modified by LMB. Conclusions. We propose that the steady state of nucleolar proteins in nucleoli depends on the affinity of the proteins for their partners and on intranucleolar recycling. This steady state can be impaired by LMB but not the uptake in the neighbouring nucleolus or the CB.     

Utilization of membranous lipid substrates by membranous enzymes: activation of the latent sphingomyelinase of hen erythrocyte membrane

Previous studies demonstrated that hen erythrocytes have an inoperative, latent sphingomyelinase which is activated when the cells are hemolyzed in a hypotonic medium. Within minutes after hemolysis about 60-80% of the sphingomyelin (SPM) of the RBC "ghost" membrane was hydrolyzed. In this paper, expression of sphingomyelinase activity was further investigated. The percentage of total SPM hydrolyzed depended on the volume of the hypotonic hemolyzing buffer. Thus, suspending the erythrocytes in 4 vol of the buffer resulted in clumping of the hemolyzed "ghosts" and no hydrolysis of SPM. In comparison, suspension in 19 vol of the hypotonic buffer showed no clumping and sphingomyelinase activity was fully expressed. But centrifugation of the latter or, alternatively, addition of concanavalin A induced clumping and elimination of sphingomyelinase activity. Hen RBC could also be hemolyzed in an isotonic medium in the presence of Triton X-100, mellitin, halothane, and phospholipase C. Activation of the latent sphingomyelinase occurred at concentrations of these reagents which caused cell lysis. Hen RBC were dispersed in an isotonic medium containing glutaraldehyde (0.1%) or formaldehyde (10%). This rendered the cells resistant to hemolysis, even when subsequently dispersed in a hypotonic medium or water. But incubation of the "fixed" cells in a hypotonic or isotonic medium activated the enzyme, resulting in hydrolysis of 60% of the cellular SPM. In contrast, when glutaraldehyde was included in the hypotonic buffer, hemolysis occurred but sphingomyelinase activity was eliminated.     

渗透压对血管内皮细胞中NO合成酶活性的影响及其机制研究

目的：研究非等渗压浓度对血管内皮细胞NO合成酶活性的影响,并探索其发生机制。方法：使血管内皮细胞暴露于低渗（205mOsm)或高渗透压（410mOsm)培养液,用Griess法测定NO合成酶（NOS）活性,以Northern blot ting观测细胞iNOS和eNOS基因表达的变化。结果： 非等渗压浓度可使血管内皮细胞中NOS活性显著升高。细胞NOS活性变化具有明显的时间效应规律,低渗透压浓度效应产生的效应早于高渗透压浓度,且低渗透压浓度的影响较高渗透压浓度更为明显。Dexamethasone对这种非等渗透压诱导的NOS活性没有明显作用,给予cycloheximide,不影响非等渗压诱导的这种差异。Nothern blot分析表明：非等渗压浓度不诱导iNOS基因表达,而使eNOSmRNA表达增加。结论：非等渗透压浓度诱导血管内皮细胞NOS活性升高,eNOS基因表达增强是其主要机制之一。     

The chromosome periphery during mitosis

A complex structure, visible by electron microscopy, surrounds each chromosome during mitosis. The organization of this structure is distinct from that of the chromosomes and the cytoplasm. It forms a perichromosomal layer that can be isolated together with the chromosomes. This layer covers the chromosomes except in centromeric regions. The perichromosomal layer includes nuclear and nucleolar proteins as well as ribonucleoproteins (RNPs). The list of proteins and RNAs identified includes nuclear matrix proteins (perichromin, peripherin), nucleolar proteins (perichro-monucleolin, Ki-67 antigen, B23 protein, fibrillarin, p103, p52), ribosomal proteins (S1) and snRNAs (U3 RNAs). Only limited information is available about how and when the perichromosomal layer is formed. During early prophase, the proteins extend from the nucleoli towards the periphery of the nucleus. Thin cordon-like structures reach the nuclear envelope delimiting areas in which chromosomes condense. At telophase, the proteins are associated with the part of the chromosomes remaining condensed and accumulate in newly formed nucleoli in regions where chromatin is already decondensed. The perichromosomal layer contains several different classes of proteins and RNPs and it has been attributed various roles: (1) in chromosome organization, (2) as a barrier around the chromosomes, (3) involvement in compartmentation of the cells in prophase and telophase and (4) a binding site for chromosomal passenger proteins necessary to the early process of nuclear assembly.     

Double immunolocalization of major nucleolar proteins, fibrillarin and B23, in dividing mammalian cultured cells.

Using specific autoimmune sera to the nucleolar protein fibrillarin and monoclonal antibodies to B23/nucleophosmin, we localized early and late nucleolar rRNA-processing factors in cycling human HeLa and pig PK cells. It was shown that, at the electron microscopic level, fibrillarin was located over the nucleolar fibrillar compartment, but was absent in the fibrillar centres. During mitosis, fibrillarin was located within the same domains as B23, namely, the cytoplasm, the perichromosomal layer, prenucleolar bodies, and the nucleolar cytoplasmic derivatives, but the kinetics of the two proteins during mitosis was essentially different. Thus, fibrillarin dissociated from the nucleolar remnant at prophase of mitosis or following actinomycin D treatments after B23, but was found to be more prominent within the perichromosomal layer at metaphase, and earlier migrated to the reassembled nucleoli at telophase. In contrast to B23, fibrillarin was found to be resistant to the treatment with 2 M NaCl.     

Differences in Ca2+-mediation of hypotonic and Na+-nutrient regulatory volume decrease in suspensions of jejunal enterocytes

We determined differences in the Ca2+ signalling of K+ and Cl- conductances required for Regulatory Volume Decrease (RVD) in jejunal villus enterocytes passively swollen (0.5 or 0.95.isotonic) compared with swelling because of the absorption of D-glucose (D-Glc) or L-Alanine (L-Ala). Cell volume was measured using electronic cell sizing. In nominally Ca(2+)-free medium containing EGTA (100 microM) RVD after 0.5 or 0.95.isotonic challenge was prevented. L-Ala swelling and subsequent RVD was influenced in Ca(2+)-free medium. Villus cells were incubated with 10 microM of the acetomethoxy derivative of 1,2.bis (2-aminophenoxy) ethane N,N,N1,N1 tetracetic acid (BAPTA-AM) and RVD after 0.5.isotonic swelling or L-Ala swelling was prevented. Niguldipine (0.1 microM), nifedipine (5 microM), diltiazem (100 microM), Ni2+, and Co2+ (1 mM) all prevented hypotonic RVD but had no effect on RVD after L-Ala addition. Charybdotoxin (25 nM) a potent inhibitor of Ca(2+)-activated K+ channels, had no effect on hypotonic RVD but prevented RVD of villus cells swollen by D-Glc. We used the calmodulin antagonists, naphthalene sulfonamide derivatives W-7 and W-13, to assess calmodulin activation of K+ and Cl- conductance in these two models. L-Ala swelling and subsequent RVD was not influenced by 25 microM W-7; hypotonic RVD was prevented by 25 microM W-7 or 100 microM W-13. The W-13 inhibition of RVD was by-passed with 0.5 microM gramicidin. Our data show that hypotonic RVD requires extracellular Ca2+ and that the K+ conductance activated is not charybdotoxin sensitive but requires calmodulin.(ABSTRACT TRUNCATED AT 250 WORDS)     

Chromosome distribution in a23 chinese hamster fibroblasts

This study deals with a systematic chromosome position analysis of 116 anti-mitotic and hypotonic treated a₂₃ chinese hamster cells. No chromosome or pair of chromosomes was found to be located nearer the center or the periphery of the metaphase plate than would be expected by the reference distribution. The homologous chromosomes of pair 2 lie nearer to each other but they do not form a specific angle. The same relative position was shown for the chromosome groups 1–2, 1-E1 and 2-E5 (E standing for an extra chromosome). On the other hand the chromosomes of the combinations X-7, X-8, 7–8, 8–11 and X-E2 were lying further from each other, while chromosomes 10-E1 had a greater mean angle. The non random distribution of the chromosomes 1 and 2 may be interpreted as function of their possibly more frequent participation in the organization of nucleoli. — To obtain more information about the influence of preparation techniques on the alteration of the chromosome position in metaphase plates, this study deals with some overall considerations about chromosome position. It is shown that in a₂₃ cells the smaller chromosomes do not tend to lie nearer the metaphase plate center (as it happens in human cells). Also a significant correlation between the chromosome position with respect to the metaphase plate center and the mean interchromosomal distances was not found in this type of cells.     

Functional role of aquaglyceroporin 7 expression in the pancreatic beta-cell line BRIN-BD11

Both mouse and rat pancreatic islet β-cells were recently found to express aquaglyceroporin 7 (AQP7). In the present study, the expression and role of AQP7 in the function of BRIN-BD11 cells were investigated. AQP7 mRNA and protein were detected by RT-PCR and Western blot analysis, respectively. In an isoosmolar medium, the net uptake of [2-³H]glycerol displayed an exponential time course reaching an equilibrium plateau value close to its extracellular concentration. Within 2 min of incubation in a hypotonic medium (caused by a 50 mM decrease in NaCl concentration), the [2-³H]glycerol uptake averaged 143.2 ± 3.8% (n = 24; P < 0.001) of its control value in isotonic medium, declining thereafter consistently with previously demonstrated volume regulatory decrease. When isoosmolarity was restored by the addition of 100 mM urea to the hypotonic medium, [2-³H]glycerol uptake remained higher (112.1 ± 2.8%, n = 24; P < 0.001) than its matched control under isotonic conditions, indicating rapid entry of urea and water. Insulin release by BRIN-BD11 cells was 3 times higher in hypotonic than in isotonic medium. When glycerol (100 mM) or urea (100 mM) were incorporated in the hypotonic medium, the insulin release remained significantly higher than that found in the control isotonic medium, averaging respectively 120.2 ± 4.2 and 107.0 ± 3.8% of the paired value recorded in the hypotonic medium. These findings document the rapid entry of glycerol and urea in BRIN-BD11 cells, likely mediated by AQP7. J. Cell. Physiol. 221: 424–429, 2009. © 2009 Wiley-Liss, Inc.     

Change in adaptability and kinetics of T-lymphocyte adaptation to hypotonia in pathological states of mammals]

The kinetics of adaptation of the volume of T-lymphocytes and their membrane potential in a hypotonic medium is investigated. It is shown to have a quasiperiodic character. The shortest adaptation period T = 2 min characterizes the adaptation of T-lymphocytes test animals, the most complete adaptation of the volume and the membrane potential in hypotonic medium. Upon adaptation their values are only 6% higher than respective values in an isotonic medium. If an aseptic inflammatory process develops in a mammalian organism, the adaptation period increases to T = 2.5 min, while the volume and the membrane potential remains 28% higher than in an isotonic medium. In the course of development of induced cancerogenesis, 10 min after the cells have been placed in a hypotonic medium, their size is equal to that at the point of maximal swelling, while the membrane potential is 20% lower than that in an isotonic medium. The reason for the varying adaptability of T-lymphocytes is, in our opinion, that, as the inflammation develops, the concentration of corticosteroids increases, the concentration of intracellular K+ decreases, the concentration of macromolecules increases and the potential of the plasmatic membrane of the cell rises, thus leading to the slowing down of the process of adaptation and its decreased extent. The lack of regulation of the volume by T-lymphocytes of mammals in the organisms of which cancerogenesis develops, testifies to the fact that, in such a case, cells lose their adaptability to changing external conditions. Therefore, the disappearance of adaptability of T-lymphocytes on the third day of development of cancerogenesis represents an early test of the process.     

Beta-adrenergic stimulation of volume-sensitive chloride transport in lamprey erythrocytes

We measured the effects of a beta-adrenergic agonist, isoproterenol, on chloride transport and volume regulation of lamprey (Lampetra fluviatilis) erythrocytes in isotonic (288 mosm L(-1)) and hypotonic (192 mosm L(-1)) medium. Isoproterenol at a high concentration (10(-5) M) did not influence chloride transport in isotonic medium but markedly increased chloride fluxes in hypotonic conditions: unidirectional flux increased from 100 mmol kg dcw(-1) h(-1) in the absence to 350 mmol kg dcw(-1) h(-1) (dcw=dry cell weight) in the presence of isoproterenol. Simultaneously, the half-time for volume recovery decreased from 27 to 9 min. Isoproterenol caused an increase in cellular cyclic AMP (cAMP) concentration. The stimulation of chloride transport in hypotonic conditions could be induced by application of the permeable cAMP analogue, 8-bromo-cyclic AMP, suggesting that the effect of beta-adrenergic stimulation on chloride transport occurs downstream of cAMP production. As isoproterenol did not affect unidirectional rubidium fluxes in hypotonic conditions, the transport pathway influenced by beta-adrenergic stimulation is most likely the swelling-activated chloride channel. Because the beta-adrenergic agonist only influenced the transport in hypotonic conditions despite the fact that cAMP concentration also increased in isotonic conditions, the activation may involve a volume-dependent conformational change in the chloride channel.