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261.
Bone marrow mesenchymal stem cells (MSCs) are a promising cell source for regenerative medicine; however, their cellular physiology is not fully understood. The present study aimed at exploring the potential roles of the two dominant functional ion channels, intermediate-conductance Ca(2+)-activated potassium (IK(Ca)) and volume-sensitive chloride (I(Cl.vol)) channels, in regulating proliferation of mouse MSCs. We found that inhibition of IK(Ca) with clotrimazole and I(Cl.vol) with 5-nitro-1-(3-phenylpropylamino) benzoic acid (NPPB) reduced cell proliferation in a concentration-dependent manner. Knockdown of KCa3.1 or Clcn3 with specific short interference (si)RNAs significantly reduced IK(Ca) or I(Cl.vol) density and channel protein and produced a remarkable suppression of cell proliferation (by 24.4 +/- 9.6% and 29.5 +/- 7.2%, respectively, P < 0.05 vs. controls). Flow cytometry analysis showed that mouse MSCs retained at G(0)/G(1) phase (control: 51.65 +/- 3.43%) by inhibiting IK(Ca) or I(Cl.vol) using clotrimazole (2 microM: 64.45 +/- 2.20%, P < 0.05) or NPPB (200 microM: 82.89 +/- 2.49%, P < 0.05) or the specific siRNAs, meanwhile distribution of cells in S phase was decreased. Western blot analysis revealed a reduced expression of the cell cycle regulatory proteins cyclin D1 and cyclin E. Collectively, our results have demonstrated that IK(Ca) and I(Cl.vol) channels regulate cell cycle progression and proliferation of mouse MSCs by modulating cyclin D1 and cyclin E expression. 相似文献
262.
Incubation of [3H]-tyrosine methionine5-enkephalin (MET) with human brain preparations (100,000g supernatant; sections of the limbic system, thalamus, basal ganglia, cerebellum, and cortex) results in its rapid and complete
degradation; over 95% of the initial labeled tyrosine is recovered as the free aminoacid within 10 min. Results show a considerable
range in the peptide initial velocity (Iv) and half-life (t1/2) degradation values obtained from different brain sections of individual brains, either from the same or from different main
brain areas. This relatively wide range of values was scattered, failing to identify consistent differences between the various
brains areas studied. Differences in brain tissue storage time or repeated sample freezing and thawing failed to alter significantly
either of these kinetic parameters of MET metabolism. Peptide degradation rate (optimum pH and temperature of 7.4 and 37°C,
respectively) was concentration-dependent inhibited by known aminopeptidase inhibitors (puromycin, bacitracin, and bestatin,
and to a lesser extent by thioridazine). However, it was not significantly affected by either N-carboxymethyl phenyl leucine, captopril or thiorphan [dipeptidyl peptidase(s) or peptidyl dipeptidase(s) inhibitors, respectively].
A better understanding of the mechanisms regulating brain MET metabolism may contribute to the rational design of pharmacological
strategies based in the modulation of its bioavailability. 相似文献
263.
Human ether-à-go-go-related gene (hERG or Kv11.1) encodes the rapidly activated delayed rectifier K(+) current (I(Kr)) in the human heart. Potential regulation of hERG channel by protein tyrosine kinases (PTKs) is not understood. The present study was designed to investigate whether this channel is modulated by PTKs using whole-cell patch clamp technique, and immunoprecipitation and Western blot analysis in HEK 293 cells stably expressing hERG gene. We found that the broad-spectrum PTK inhibitor genistein (30 muM), the selective EGFR (epidermal growth factor receptor) kinase inhibitor AG556 (10 muM) and the Src-family kinase inhibitor PP2 (10 muM) remarkably inhibited hERG channel current (I(hERG)), and the effects were significantly countered by the protein tyrosine phosphatase (PTP) inhibitor orthovanadate (1 mM). Immunoprecipitation and Western blot analysis demonstrated that membrane protein tyrosine phosphorylation of hERG channels was reduced by genistein, AG556, and PP2. The reduction of hERG channel phosphorylation level by genistein, AG556 or PP2 was antagonized by orthovanadate. Single point mutation(s) of Y475A and/or Y611A dramatically attenuated the inhibitory effect of I(hERG) by PP2 and/or AG556. Our results demonstrate the novel information that I(hERG) is modulated not only by Src-family kinases, but also by EGFR kinases. Y475 and/or Y611 are likely the preferred phosphorylation sites. Regulation of hERG channels by PTKs modifies the channel activity and thus likely alters electrophysiological properties including action potential duration and cell excitability in human heart and neurons. 相似文献
264.
Yarosh W Monserrate J Tong JJ Tse S Le PK Nguyen K Brachmann CB Wallace DC Huang T 《PLoS genetics》2008,4(1):e6
Mutations in optic atrophy 1 (OPA1), a nuclear gene encoding a mitochondrial protein, is the most common cause for autosomal dominant optic atrophy (DOA). The condition is characterized by gradual loss of vision, color vision defects, and temporal optic pallor. To understand the molecular mechanism by which OPA1 mutations cause optic atrophy and to facilitate the development of an effective therapeutic agent for optic atrophies, we analyzed phenotypes in the developing and adult Drosophila eyes produced by mutant dOpa1 (CG8479), a Drosophila ortholog of human OPA1. Heterozygous mutation of dOpa1 by a P-element or transposon insertions causes no discernable eye phenotype, whereas the homozygous mutation results in embryonic lethality. Using powerful Drosophila genetic techniques, we created eye-specific somatic clones. The somatic homozygous mutation of dOpa1 in the eyes caused rough (mispatterning) and glossy (decreased lens and pigment deposition) eye phenotypes in adult flies; this phenotype was reversible by precise excision of the inserted P-element. Furthermore, we show the rough eye phenotype is caused by the loss of hexagonal lattice cells in developing eyes, suggesting an increase in lattice cell apoptosis. In adult flies, the dOpa1 mutation caused an increase in reactive oxygen species (ROS) production as well as mitochondrial fragmentation associated with loss and damage of the cone and pigment cells. We show that superoxide dismutase 1 (SOD1), Vitamin E, and genetically overexpressed human SOD1 (hSOD1) is able to reverse the glossy eye phenotype of dOPA1 mutant large clones, further suggesting that ROS play an important role in cone and pigment cell death. Our results show dOpa1 mutations cause cell loss by two distinct pathogenic pathways. This study provides novel insights into the pathogenesis of optic atrophy and demonstrates the promise of antioxidants as therapeutic agents for this condition. 相似文献
265.
266.
The viability of using thiazole orange as an alternative to ethidium bromide in a fluorescent intercalator displacement (FID) assay is explored by profiling the DNA binding affinity and sequence selectivity of netropsin. Utilizing a library of hairpin deoxyoligonucleotides containing all possible four base-pair sequences, the method provides a high resolution profile of the DNA binding properties of small molecules in a high throughput format. 相似文献
267.
Squalamine, a novel cationic steroid, specifically inhibits the brush-border Na+/H+ exchanger isoform NHE3 总被引:1,自引:0,他引:1
Akhter S.; Nath S. K.; Tse C. M.; Williams J.; Zasloff M.; Donowitz M. 《American journal of physiology. Cell physiology》1999,276(1):C136
Squalamine, anendogenous molecule found in the liver and other tissues ofSqualus acanthias, hasantibiotic properties and causes changes in endothelial cell shape. Thelatter suggested that its potential targets might include transportproteins that control cell volume or cell shape. The effect of purifiedsqualamine was examined on clonedNa+/H+exchanger isoforms NHE1, NHE2, and NHE3 stably transfected in PS120fibroblasts. Squalamine (1-h pretreatment) decreased the maximalvelocity of rabbit NHE3 in a concentration-dependent manner (13, 47, and 57% inhibition with 3, 5, and 7 µg/ml, respectively) and alsoincreasedK'[H+]i.Squalamine did not affect rabbit NHE1 or NHE2 function. The inhibitoryeffect of squalamine was 1) timedependent, with no effect of immediate addition and maximum effect with1 h of exposure, and 2) fullyreversible. Squalamine pretreatment of the ileum for 60 min inhibitedbrush-border membrane vesicleNa+/H+activity by 51%. Further investigation into the mechanism of squalamine's effects showed that squalamine required the COOH-terminal 76 amino acids of NHE3. Squalamine had no cytotoxic effect at theconcentrations studied, as indicated by monitoring lactate dehydrogenase release. These results indicate that squalamine 1) is a specific inhibitor of thebrush-border NHE isoform NHE3 and not NHE1 or NHE2,2) acts in a nontoxic and fullyreversible manner, and 3) has adelayed effect, indicating that it may influence brush-borderNa+/H+exchanger function indirectly, through an intracellular signaling pathway or by acting as an intracellular modulator. 相似文献
268.
Estrogen binding proteins in mouse liver cytosol were characterized by separation on Sephadex G-75 columns, by Scatchard plot analysis, and by hormonal competition studies. A high affinity receptor (56-70 fmol/mg cytosolic protein) with a mol. wt greater than 75,000, Kd of 5.7-8.4 X 10(-10) M was identified in male and female C3H liver. A second high capacity low affinity (HCLA) binder (200-300 fmol/mg cytosolic protein) with a mol. wt of about 50,000, Kd of 1.7-7.2 X 10(-8) was also identified. Following partial purification of the estrogen binders by ammonium sulfate precipitation, Scatchard plot analysis revealed selective removal of HCLA. On Sephadex G-75 filtration, the purification also resulted in selective removal of the 17 beta-estradiol binding component with a mol. wt of 50,000. Comparison with rat cytosol separations show that the sexual dimorphism in HCLA binding proteins (5 times higher in male than female rat liver) was absent in the mouse liver. These studies document the presence of a specific high affinity estrogen binding protein in mouse liver and indicate that the sexual dimorphism in HCLA proteins is not a universal feature of all rodent species. 相似文献
269.
270.
Xing Liu Rong Suo Calista Zhuo Yi Chan Tong Liu Gary Tse GuangPing Li 《Journal of cellular physiology》2019,234(11):19180-19188
Proprotein convertase subtilisin/kexin type 9 (PCSK9) binds to low-density lipoprotein receptor (LDLR) to trigger endocytosis and lysosome degradation in hepatocytes, regulating intracellular and plasma cholesterol levels. The discovery of PCSK9 has provided a new target for the management of hypercholesterolemia and cardiovascular risk reduction. There is emerging evidence that shows that PCSK9 may influence the activity of various cell types through either LDLR-dependent or LDLR-independent mechanisms. Changes in the circulating PCSK9 levels have been observed during infection and proinflammatory conditions. Furthermore, PCSK9 as a secreted protein has both local and systemic effects on cellular function. In this review, we summarize the roles of PCSK9 in inflammation. 相似文献