Nicotine-Induced Apoptosis in Human Renal Proximal Tubular Epithelial Cells

Background

Nicotine is, to a large extent, responsible for smoking-mediated renal dysfunction. This study investigated nicotine’s effects on renal tubular epithelial cell apoptosis in vitro and it explored the mechanisms underlying its effects.

Methods

Human proximal tubular epithelial (HK-2) cells were treated with nicotine. Cell viability was examined by using the WST-1 assay. Intracellular levels of reactive oxygen species (ROS) and the expression of mitogen-activated protein kinase (MAPK) and nuclear factor-κB (NF-κB) proteins were determined. The messenger ribonucleic acid and the protein expression associated with the nicotine acetylcholine receptors (nAChRs) in HK-2 cells was examined, and apoptosis was detected using flow cytometry, cell cycle analysis, and immunoblot analysis.

Results

The HK-2 cells were endowed with nAChRs. Nicotine treatment reduced cell viability dose dependently, increased ROS levels, and increased extracellular signal-regulated kinase (ERK), c-Jun N-terminal kinase (JNK), and p38 MAPK expression. Nicotine increased NF-κB activation, which was attenuated by N-acetyl-L-cysteine, and ERK and JNK inhibitors, but was not affected by a p38 MAPK inhibitor. Nicotine increased the Bax/Bcl-2 ratio, which was attenuated by N-acetyl-L-cysteine, the NF-κB inhibitor, Bay 11–7082, and hexamethonium, a non-specific nAChR blocker. Flow cytometry revealed nicotine-induced G2/M phase arrest. While nicotine treatment increased the expression of phosphorylated cdc2 and histone H3, a marker of G2/M phase arrest, hexamethonium and Bay 11–7082 pretreatment reduced their expression.

Conclusions

Nicotine caused apoptosis in HK-2 cells by inducing ROS generation that activated the NF-κB signaling pathway via the MAPK pathway and it arrested the cell cycle at the G2/M phase. Nicotine-induced apoptosis in HK-2 cells involves the nAChRs.     

Clusterin抑制人肾近曲小管上皮HK-2细胞的凋亡

Clusterin是一种硫酸糖蛋白.最近研究发现,clusterin具有抗凋亡作用,同时对肾细胞具有保护作用,但抗凋亡的具体机制仍不清楚.为研究clusterin及其不同功能区域在人肾近曲小管上皮HK-2细胞中的抗凋亡作用,构建了含有全长及缺失前导序列的clusterin重组质粒（分别命名为pIRES2-EGFP/cluac和pIRES2-EGFP/clubc）.将重组质粒转染人肾近曲小管上皮HK-2细胞后,检测转染细胞中clusterin的表达及其抗Na₂SeO₃（10μmol/L）诱导的凋亡作用.Western印迹显示,转染pIRES2-EGFP/cluac的HK-2细胞培养上清及细胞裂解液中均可检测到clusterin蛋白表达,但转染pIRES2-EGFP/clubc的HK-2细胞仅在裂解液中检测到clusterin,在培养上清液中未检测到该蛋白表达.流式细胞术检验显示,HK-2 /clubc细胞实验组出现明显凋亡峰,而 HK-2 /cluac细胞组则未见凋亡;两组的凋亡百分率之间也存在显著性差异（P<0.05）.以Cy3标记的Annexin V染色后于荧光显微镜下观察细胞凋亡情况与FCM检测结果基本一致.上述结果证明,clusterin有明显的抑制人肾近曲小管上皮HK-2细胞凋亡的作用;clusterin前导序列是其发挥抗凋亡作用的必需功能区域,提示clusterin抗凋亡作用是通过细胞外途径产生的.     

renalase在人近曲肾小管上皮细胞系的表达与分泌

目的:探讨renalase在人近曲肾小管上皮细胞系(HK-2)的表达与分泌,为进一步研究细胞水平renalase及其通路建立稳定的实验平台。方法:以HK-2细胞系作为研究材料。①应用Westernblot方法检测renalase蛋白的表达。②用real-timePCR方法检测renalasemRNA表达的变化。③用ELISA方法检测细胞上清液中renalase的浓度。结果:在mRNA水平及蛋白水平均检测到renalase表达。结论:首次在mRNA水平及蛋白水平证实了HK-2细胞能够表达renalase,为进一步研究儿茶酚胺或缺血缺氧刺激下细胞renalase的表达奠定了基础。     

P-Glycoprotein Induction Ameliorates Colistin Induced Nephrotoxicity in Cultured Human Proximal Tubular Cells

The pathogenesis of colistin induced nephrotoxicity is poorly understood. Currently there are no effective therapeutic or prophylactic agents available. This study was aimed to determine the mechanism of colistin induced nephrotoxicity and to determine whether P-glycoprotein (P-gp) induction could prevent colistin induced nephrotoxicity. Colistin induced cell toxicity in cultured human proximal tubular cells in both dose and time dependent manner. Colistin provoked ROS in a dose dependent manner as measured by DCF-DA. To investigate apoptosis, caspase 3/7 activity was determined. Caspase 3/7 activity was increased dose dependently (25, 50, 100 μg/ml) at 6 h. Autophagosome formation was assessed by measuring LC3- II/LC3-I ratio. The ratio of LC3-II to LC3- I was increased at 2 h (25 μg/ml). Suppression of autophagosome formation increased colistin induced nephrotoxicity. The expression of P-gp and the cell toxicity was determined in colistin with or without dexamethasone (P-gp inducer) and verapamil (selective P-gp inhibitor). Colistin itself suppressed the expression of P-gp. P-gp expression and activity decreased colistin induced nephrotoxicity with dexamethasone treatment. In addition induced P-gp transporter was shown to improve the efflux effect on colistin treated HK2 cell line, which was demonstrated by calcein-AM fluorescence accumulation assay. The increased activity could be blocked by N-acetylcysteine. In conclusion, colistin induces nephrotoxicity by suppressing P-gp. Induction of P-gp could ameliorate colistin induced nephrotoxicity by decreasing apoptosis.     

高表达trip-1蛋白对大鼠肾小管上皮细胞转分化的影响

目的:研究上调大鼠肾小管上皮细胞中trip-1蛋白的表达量对TGF-β1诱导的上皮细胞转分化的影响.方法:包装人TRIP-1基因重组腺病毒,用其感染NRK52E细胞36h上调内源性trip-1蛋白表达量,之后用10 ng/ml的TGF-β1对细胞进行刺激诱导,72h后做Western Blot检测细胞中E-cadherin蛋白和α-SMA蛋白表达量.结果:①包装的人TRIP-1基因重组腺病毒感染细胞能够有效上调细胞中trip-1蛋白的表达量.②上调细胞中trip-1蛋白表达量,对TGF-β1引起的NRK52E细胞中E-cadherin蛋白表达水平降低有所抑制,但对TGF-β1引起的NRK52E细胞中α-SMA蛋白表达水平升高没有明显调节作用.结论:上调大鼠肾小管上皮细胞中trip-1蛋白的表达量在一定程度上抑制了TGF-β1诱导的NRK52E细胞转分化.     

Nitro-Arachidonic Acid Prevents Angiotensin II-Induced Mitochondrial Dysfunction in a Cell Line of Kidney Proximal Tubular Cells

Nitro-arachidonic acid (NO₂-AA) is a cell signaling nitroalkene that exerts anti-inflammatory activities during macrophage activation. While angiotensin II (ANG II) produces an increase in reactive oxygen species (ROS) production and mitochondrial dysfunction in renal tubular cells, little is known regarding the potential protective effects of NO₂-AA in ANG II-mediated kidney injury. As such, this study examines the impact of NO₂-AA on ANG II-induced mitochondrial dysfunction in an immortalized renal proximal tubule cell line (HK-2 cells). Treatment of HK-2 cells with ANG II increases the production of superoxide (O₂^●-), nitric oxide (^●NO), inducible nitric oxide synthase (NOS2) expression, peroxynitrite (ONOO^-) and mitochondrial dysfunction. Using high-resolution respirometry, it was observed that the presence of NO₂-AA prevented ANG II-mediated mitochondrial dysfunction. Attempting to address mechanism, we treated isolated rat kidney mitochondria with ONOO^-, a key mediator of ANG II-induced mitochondrial damage, in the presence or absence of NO₂-AA. Whereas the activity of succinate dehydrogenase (SDH) and ATP synthase (ATPase) were diminished upon exposure to ONOO-, they were restored by pre-incubating the mitochondria with NO₂-AA. Moreover, NO₂-AA prevents oxidation and nitration of mitochondrial proteins. Combined, these data demonstrate that ANG II-mediated oxidative damage and mitochondrial dysfunction is abrogated by NO₂-AA, identifying this compound as a promising pharmacological tool to prevent ANG II–induced renal disease.     

Receptor-Associated Protein Blocks Internalization and Cytotoxicity of Myeloma Light Chain in Cultured Human Proximal Tubular Cells

Background

Free light chains (LCs) are among the many ligands that bind to cubilin/megalin for endocytosis via the clathrin-dependent endosomal/lysosomal pathway. Receptor associated protein (RAP), is a 39 kDA high-affinity, chaperone-like ligand for megalin that assists in the proper folding and functioning of megalin/cubilin. Although RAP is known to inhibit ligand binding to megalin/cubilin, its effect on LC endocytosis has not been shown directly.

Methods and Principal Findings

We investigated whether RAP can block the endocytosis of LC in cultured human proximal tubule cells and whether this can prevent LC cytotoxicity. Immunofluorescence microscopy and flow cytometry showed that fluorescently labeled LC endocytosis was markedly inhibited in HK-2 cells pretreated with human RAP. The effect of RAP was dose-dependent, and was predominantly on endocytosis as it had no effect on the small acid-washable fraction of LC bound to cell membrane. RAP significantly inhibited LC induced cytokine production and phosphorylation of ERK1/2 and p38 MAPK. Prolonged exposure to LC for 48 h resulted in epithelial-to-mesenchymal transformation in HK-2 cells as evidenced by marked reduction in the expression of the epithelial cell marker E-cadherin, and increased the expression of the mesenchymal marker α-SMA, which was also prevented by RAP in the endocytosis medium.

Conclusions

RAP inhibited LC endocytosis by ∼88% and ameliorated LC-induced cytokine responses and EMT in human PTCs. The results not only provide additional evidence that LCs endocytosis occurs via the megalin/cubilin endocytic receptor system, but also show that blocking LC endocytosis by RAP can protect proximal tubule cells from LC cytotoxicity.     

c-Cbl Facilitates Endocytosis and Lysosomal Degradation of Cystic Fibrosis Transmembrane Conductance Regulator in Human Airway Epithelial Cells

Cystic fibrosis transmembrane conductance regulator (CFTR) is a cAMP-activated Cl⁻ channel expressed in the apical membrane of fluid-transporting epithelia. The apical membrane density of CFTR channels is determined, in part, by endocytosis and the postendocytic sorting of CFTR for lysosomal degradation or recycling to the plasma membrane. Although previous studies suggested that ubiquitination plays a role in the postendocytic sorting of CFTR, the specific ubiquitin ligases are unknown. c-Cbl is a multifunctional molecule with ubiquitin ligase activity and a protein adaptor function. c-Cbl co-immunoprecipitated with CFTR in primary differentiated human bronchial epithelial cells and in cultured human airway cells. Small interfering RNA-mediated silencing of c-Cbl increased CFTR expression in the plasma membrane by inhibiting CFTR endocytosis and increased CFTR-mediated Cl⁻ currents. Silencing c-Cbl did not change the expression of the ubiquitinated fraction of plasma membrane CFTR. Moreover, the c-Cbl mutant with impaired ubiquitin ligase activity (FLAG-70Z-Cbl) did not affect the plasma membrane expression or the endocytosis of CFTR. In contrast, the c-Cbl mutant with the truncated C-terminal region (FLAG-Cbl-480), responsible for protein adaptor function, had a dominant interfering effect on the endocytosis and plasma membrane expression of CFTR. Moreover, CFTR and c-Cbl co-localized and co-immunoprecipitated in early endosomes, and silencing c-Cbl reduced the amount of ubiquitinated CFTR in early endosomes. In summary, our data demonstrate that in human airway epithelial cells, c-Cbl regulates CFTR by two mechanisms: first by acting as an adaptor protein and facilitating CFTR endocytosis by a ubiquitin-independent mechanism, and second by ubiquitinating CFTR in early endosomes and thereby facilitating the lysosomal degradation of CFTR.     

树突状细胞C型凝集素DC-SIGN在人肾炎组织和肾小管上皮细胞表达

DC-SIGN(DC-specificICAM-grabbingnon-integrin,亦称CD209)属树突状细胞(DC)表面C型凝集素的膜蛋白。作为DC黏附及模式识别受体,其参与介导了DC的炎症组织迁移,识别捕获病原微生物,以及随后激活静息T细胞启动的免疫应答。为此观察了DC-SIGN及DC-SIGN DC在肾炎患者肾组织中表达和分布,以及DC-SIGN在炎性状态下培养人肾小管上皮细胞表达,探讨与肾小管间质炎症病变和损伤的关系。结果显示,DC-SIGN在正常肾组织基本不表达,而在肾炎早期即以肾小管上皮细胞为主表达上调,且随肾小管间质病变程度加重表达增强(P<0.01),与肾小管间质病变程度明显相关(P<0.01)。此外,DC-SIGN在经TNF-α刺激炎性状态下的人肾小管上皮细胞也明显表达。进一步发现,DC-SIGN DC在肾炎早期以肾间质为主分布聚集,也随肾小管间质病变程度加重明显增多(P<0.01),与肾小管间质病变程度显著相关(P<0.01),也与DC-SIGN表达相关联(P<0.01)。另外,DC-SIGN DC在肾小管间质分布数量与肾炎患者肾功能改变明显相关(P<0.05)。研究结果提示,DC-SIGN也是肾小管间质早期炎症的启动参与因素,其介导DC可能也参与了人肾炎肾小管间质的免疫损伤机制。     

肾小管上皮细胞在肾损伤局部微环境中的免疫调节作用

诸多原因可造成肾脏损伤,而肾小管损伤和肾间质纤维化是各种病因所致慢性肾脏病发展至终末期肾病的共同途径.炎症免疫反应是肾损伤的主要病理生理机制,并受局部微环境的精细调控.在此基础上,经历了一个损伤-修复平衡或失衡过程,从而决定着肾组织损伤与修复的走向.肾小管上皮细胞(renal tubular epithelial cell,RTEC)是兼有免疫调节作用且生物学功能十分活跃的细胞,其在肾损伤的局部微环境形成及调控中发挥重要作用.在肾损伤初始及随后的损伤修复中,RTEC不仅合成分泌各种黏附分子、趋化因子及炎症介质,招募单核/巨噬细胞、淋巴细胞等炎症细胞浸润;亦可转分化为免疫细胞或成纤维细胞,启动、参与并调控局部炎症免疫反应,行使免疫防御和损伤修复作用,在损伤因素持续存在且组织修复失衡状况下,积极参与免疫损伤以及肾间质纤维化的演变过程.因此从这个意义上说,RTEC可能是决定肾损伤趋于修复或肾纤维化最终结局的关键因素.     

Henipavirus Pathogenesis in Human Respiratory Epithelial Cells

Hendra virus (HeV) and Nipah virus (NiV) are deadly zoonotic viruses for which no vaccines or therapeutics are licensed for human use. Henipavirus infection causes severe respiratory illness and encephalitis. Although the exact route of transmission in human is unknown, epidemiological studies and in vivo studies suggest that the respiratory tract is important for virus replication. However, the target cells in the respiratory tract are unknown, as are the mechanisms by which henipaviruses can cause disease. In this study, we characterized henipavirus pathogenesis using primary cells derived from the human respiratory tract. The growth kinetics of NiV-Malaysia, NiV-Bangladesh, and HeV were determined in bronchial/tracheal epithelial cells (NHBE) and small airway epithelial cells (SAEC). In addition, host responses to infection were assessed by gene expression analysis and immunoassays. Viruses replicated efficiently in both cell types and induced large syncytia. The host response to henipavirus infection in NHBE and SAEC highlighted a difference in the inflammatory response between HeV and NiV strains as well as intrinsic differences in the ability to mount an inflammatory response between NHBE and SAEC. These responses were highest during HeV infection in SAEC, as characterized by the levels of key cytokines (interleukin 6 [IL-6], IL-8, IL-1α, monocyte chemoattractant protein 1 [MCP-1], and colony-stimulating factors) responsible for immune cell recruitment. Finally, we identified virus strain-dependent variability in type I interferon antagonism in NHBE and SAEC: NiV-Malaysia counteracted this pathway more efficiently than NiV-Bangladesh and HeV. These results provide crucial new information in the understanding of henipavirus pathogenesis in the human respiratory tract at an early stage of infection.