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991.
Lanthanides have been reported to induce apoptosis in cancer cell lines. Human cervical cancer cell line HeLa was found to be more sensitive to dicitratolanthanum (III) complex ([LaCit2]3−) than other cancer cell lines. However, the effect and mechanism of dicitratoytterbium (III) complex ([YbCit2]3−) on HeLa cells is unknown. Using biochemical and comparative proteomic analyses, [YbCit2]3− was found to inhibit HeLa cell growth and induce apoptosis. Similar to the effects of [LaCit2]3−, proteomics results from [YbCit2]3−-treated cells revealed profound changes in proteins relating to mitochondria and oxidative stress, suggesting that mitochondrial dysfunction plays a key role in [YbCit2]3−-induced apoptosis. This was confirmed by the decreased mitochondrial transmembrane potential and the increased generation of reactive oxygen species in [YbCit2]3−-treated cells. Western blot analysis showed that [YbCit2]3−-induced apoptosis was accompanied by the activation of caspase-9 and specific proteolytic cleavage of PARP, leading to an increase in the pro-apoptotic protein Bax and a decrease in the anti-apoptotic protein Bcl-2. These results suggest a mitochondrial pathway of cell apoptosis in [YbCit2]3−-treated cells, which will help us understand the molecular mechanisms of lanthanide-induced apoptosis in tumor cells. 相似文献
992.
Zaldivar D García MC Sánchez JA 《Biochemical and biophysical research communications》2005,338(3):1572-1577
The actions of the ciliary neurotrophic factor (CNTF) were assessed on adult mouse skeletal muscle L-type Ca2+ currents and on Ca2+ release from sarcoplasmic reticulum. Currents were measured with the whole cell patch clamp technique. Ca2+ signals in response to single action potentials were recorded with Fluo3-AM. CNTF (20 ng/ml) reversibly reduced the amplitude of Ca2+ channel currents by 50% within 15 min. In addition, CNTF greatly increased the rate of inactivation during depolarizing pulses and shifted the steady state inactivation curve by -12 mV. The effects of CNTF were mimicked by the PKC activator PMA and prevented by the PKC-inhibitor chelerythrine. In contrast to the effects on the Ca2+ conductance, charge movement and Ca2+ signals remained unaffected by CNTF. These results suggest that CNTF can rapidly decrease muscle Ca2+ channel currents by promoting inactivation, probably through an intracellular PKC-dependent mechanism. 相似文献
993.
Reger TS Yang ZQ Schlegel KA Shu Y Mattern C Cube R Rittle KE McGaughey GB Hartman GD Tang C Ballard J Kuo Y Prueksaritanont T Nuss CE Doran SM Fox SV Garson SL Li Y Kraus RL Uebele VN Renger JJ Barrow JC 《Bioorganic & medicinal chemistry letters》2011,21(6):1692-1696
A novel series of amide T-type calcium channel antagonists were prepared and evaluated using in vitro and in vivo assays. Optimization of the screening hit 3 led to identification of the potent and selective T-type antagonist 37 that displayed in vivo efficacy in rodent models of epilepsy and sleep. 相似文献
994.
《Bioorganic & medicinal chemistry》2016,24(21):5028-5035
A new series of aryls, including benzo[d]imidazole/isoxazole/pyrazole, conjugated to 3N-substituted-azabicyclo[3.1.0]hexane derivatives were designed and synthesized as inhibitors of T-type calcium channels. Among the synthesized compounds, 3N-R-substituted azabicyclo[3.1.0]hexane carboxamide derivatives containing 5-isobutyl-1-phenyl-pyrazole ring exhibited potent and selective T-channel inhibition and good metabolic stability without CYP450 inhibition. Compounds 10d and 10e contained hydrophobic substituents at the 3N-position and exhibited potent in vitro efficacy, as well as neuropathic pain alleviation in rats. 相似文献
995.
996.
997.
C. L. Devlin P. J. S. Smith 《Journal of comparative physiology. B, Biochemical, systemic, and environmental physiology》1996,166(4):270-277
To determine possible sources of Ca2+ during excitation-contraction coupling in smooth muscle, a vibrating Ca2+-selective electrode was used to measure Ca2+ flux during the process of contraction. The smooth muscle model was the longitudinal muscle of the body wall of a sea cucumberSclerodactyla briareus. Because acetylcholine caused slow contractions of the muscle that were inhibited by Ca2+ channel blockers diltiazem and verapamil in earlier mechanical studies, we chose a vibrating Ca2+-selective electrode as our method to test the hypothesis that acetylcholine may be stimulating Ca2+ influx across the sarcolemma, providing a Ca2+ source during excitation-contraction coupling. Acetylcholine treatment stimulated a net Ca2+ efflux that was both dose and time dependent. We then tested two L-type Ca2+ channel blockers, diltiazem and verapamil, and two non-specific Ca2+ blockers, cobalt (Co2+) and lanthanum (La3+) on acetylcholine-induced Ca2+ flux. All four Ca2+ blockers tested potently inhibited Ca2+ efflux induced by physiological doses of acetylcholine. We propose that the acetylcholine-induced Ca2+ efflux was the result of, first, Ca2+ influx through voltage-sensitive L-type Ca2+ channels, then the rapid extrusion of Ca2+ by an outwardly directed carrier such as the Na–Ca exchanger as suggested by Li+ substitution experiments. The vibrating Ca2+ electrode has provided new insights on the active and complex role the sarcolemma plays in Ca2+ homeostasis and regulating Ca2+ redistribution during excitation-contraction coupling.Abbreviations
ACh
acetylcholine
-
E-C coupling
excitation-contraction coupling
-
LMBW
longitudinal muscle of the body wall 相似文献
998.
电压-门控Na+通道由1个可单独发挥作用的α亚单位和2~4个起辅助作用的β亚单位构成,在可兴奋细胞动作电位的产生及传导等过程中起重要作用.采用RT-PCR法对5个不同发育阶段(P1、P9、P40、P80、P120)Wistar大鼠16种不同组织的9种Na+通道α亚单位及1种β亚单位的mRNA进行检测发现:同种类型Na+通道mRNA在大鼠不同组织中的表达不同,不同类型Na+通道mRNA在大鼠同一组织中的表达不同.其中,神经系统和心肌组织中Na+通道mRNA的表达最高,随着日龄的增加,Na+通道mRNA在不同组织中表达的变化趋势不同.Na+通道在全身组织中的广泛分布及随发育周期的不同变化趋势,为离子通道病的研究及治疗提供了理论基础. 相似文献
999.
Kourie JI Kenna BL Tew D Jobling MF Curtain CC Masters CL Barnham KJ Cappai R 《The Journal of membrane biology》2003,193(1):35-45
We have shown previously that the protease-resistant and neurotoxic prion peptide fragment PrP[106-126] of human PrP incorporates into lipid bilayer membranes to form heterogeneous ion channels, one of which is a Cu(2+)-sensitive fast cation channel. To investigate the role of PrP[106-126]'s hydrophobic core, AGAAAAGA, on its ability to form ion channels and their regulation with Cu(2+), we used the lipid-bilayer technique to examine membrane currents induced as a result of PrP[106-126] (AA/SS) and PrP[106-126] (VVAA/SSSS) interaction with lipid membranes and channel formation. Channel analysis of the mutant (VVAAA/SSS), which has a reduced hydrophobicity due to substitution of hydrophobic residues with the hydrophilic serine residue, showed a significant change in channel activity, which reflects a decrease in the beta-sheet structure, as shown by CD spectroscopy. One of the channels formed by the PrP[106-126] mutant has fast kinetics with three modes: burst, open and spike. The biophysical properties of this channel are similar to those of channels formed with other aggregation-prone amyloids, indicating their ability to form the common beta sheet-based channel structure. The current-voltage (I-V) relationship of the fast cation channel, which had a reversal potential, E(rev), between -40 and -10 mV, close to the equilibrium potential for K(+) ( E(K) = -35 mV), exhibited a sigmoidal shape. The value of the maximal slope conductance (g(max)) was 58 pS at positive potentials between 0 and 140 mV. Cu(2+) shifted the kinetics of the channel from being in the open and "burst" states to the spike mode. Cu(2+) reduced the probability of the channel being open (P(o)) and the mean open time (T(o)) and increased the channel's opening frequency (F(o)) and the mean closed time (T(c)) at a membrane potential ( V(m)) between +20 and + 140 mV. The fact that Cu(2+) induced changes in the kinetics of this channel with no changes in its conductance, indicates that Cu(2+) binds at the mouth of the channel via a fast channel block mechanism. The Cu(2+)-induced changes in the kinetic parameters of this channel suggest that the hydrophobic core is not a ligand Cu(2+) site, and they are in agreement with the suggestion that the Cu(2+)-binding site is located at M(109) and H(111) of this prion fragment. Although the data indicate that the hydrophobic core sequence plays a role in PrP[106-126] channel formation, it is not a binding site for Cu(2+). We suggest that the role of the hydrophobic region in modulating PrP toxicity is to influence PrP assembly into neurotoxic channel conformations. Such conformations may underlie toxicity observed in prion diseases. We further suggest that the conversions of the normal cellular isoform of prion protein (PrP(c)) to abnormal scrapie isoform (PrP(Sc)) and intermediates represent conversions to protease-resistant neurotoxic channel conformations. 相似文献
1000.
Eleni Roussa Petra Wittschen Natascha A. Wolff Blazej Torchalski Achim D. Gruber Frank Thévenod 《The journal of histochemistry and cytochemistry》2010,58(7):653-668
mCLCA1/2 are members of the CLCA protein family that are widely expressed in secretory epithelia, but their putative physiological role still awaits elucidation. mCLCA1/2 have 95% amino acid identity, but currently no specific antibody is available. We have generated a rabbit polyclonal antibody (pAb849) against aa 424–443 of mCLCA1/2. In HEK293 cells transfected with mCLCA1; pAb849 detected two specific protein bands at ∼125 kDa and 90 kDa, representing full-length precursor and N-terminal cleavage product, respectively. pAb849 also immunoprecipitated mCLCA1 and labeled the protein by immunostaining. But pAb849 crossreacted with mCLCA3/4/6 despite ≤80% amino acid identity of the antigenic epitope. We therefore investigated the cellular localization of mCLCA1/2 in epithelial tissues, which do not express mCLCA3/4/6 (salivary glands, pancreas, kidney) or express mCLCA3/6 with known localization (mucus cells of stomach and small intestine; villi of small intestine). mCLCA1/2 mRNA and protein expression were found in both parotid and submandibular gland, and immunohistochemistry revealed labeling in parotid acinar cells, in the luminal membrane of parotid duct cells, and in the duct cells of submandibular gland. In exocrine pancreas, mCLCA1/2 expression was restricted to acinar zymogen granule membranes, as assessed by immunoblotting, immunohistochemistry, and preembedding immunoperoxidase and immunogold electron microscopy. Moreover, mCLCA1/2 immunolabeling was present in luminal membranes of gastric parietal cells and small intestinal crypt enterocytes, whereas in the kidney, mCLCA1/2 protein was localized to proximal and distal tubules. The apical membrane localization and overall distribution pattern of mCLCA1/2 favor a transmembrane protein implicated in transepithelial ion transport and protein secretion. (J Histochem Cytochem 58:653–668, 2010) 相似文献