NAD~+/NADH代谢机制研究进展

NAD+/NADH是细胞能量代谢所必需的辅酶,小到细胞的各种生命活动,大到整个生命结构的平衡,都需要能量来维持。同时,细胞的氧化还原状态,特别是NAD+/NADH的水平直接影响着细胞的节律、衰老、癌变和死亡等重大生命过程。故而有关细胞内NAD+或NADH代谢的研究近年在国际上形成了一个新的热点。我们以NAD+/NADH代谢为重点,综述国内外关于该机制的研究现状。     

蟾蜍卵母细胞的Na~+/H~+交换

应用pH选择性徽电极和普通檄电极测量了蟾蜍卵母细胞内的pH值(pHi)。当用含NH_4~+而不含HCO_3~-的溶液培灌卵母细胞时,pHi逐渐下降,在停止培灌后,pHi恢复到对照值。这个pHi恢复过程是一个H~+的主动转运,用胆碱离子取代培灌液中的Na~+可以抑制pHi的恢复,这种抑制作用是可逆的。伴随着细胞内pH值的恢复,细胞内Na~+活度(Na_1~+)呈现暂时性增加,而细胞内Cl-活度(Cl_1~+)不变或稍有增加。实验结果提示在蟾蜍卵母细胞膜上存在着Na~+/H~+的交换。     

回肠Na+/胆汁酸转运体及其抑制剂的研究进展

回肠Na^ ／胆汁酸转运体是位于回肠末端、特异性吸收胆汁酸的一种Na^ 依赖性胆汁酸联合转运蛋白。该转运蛋白结构和功能的改变会引起胆汁酸叶收异常，进而影响到胆固醇和脂类的吸收。对该转运体及其抑制剂的研究，是寻找具有新作用机制降胆固醇的一条有效途径，目前正在受到人们的重视。     

植物Na+/H+逆向转运蛋白研究进展

盐胁迫主要由Na+引起,过高的Na+浓度引起的离子毒害,渗透胁迫和K+/Na+比率的不平衡使植物新陈代谢异常,这是对大多数器官造成伤害的原因。植物抵御盐胁迫的主要方式是将细胞内过多的Na+从质膜向细胞外排放和将Na+在液泡中区隔化,这一过程是由Na+/H+ 逆向转运蛋白完成的。本文概述了植物中Na+/H+ 逆向转运蛋白的发现、特征、分子生物学方面的研究,以及Na+/H+ 逆向转运蛋白在植物耐盐性中的重要作用。     

植物Na+/H+逆向转运蛋白研究进展

盐胁迫主要由Na 引起,过高的Na 浓度引起的离子毒害,渗透胁迫和K ／Na 比率的不平衡使植物新陈代谢异常,这是对大多数器官造成伤害的原因。植物抵御盐胁迫的主要方式是将细胞内过多的Na 从质膜向细胞外排放和将Na 在液泡中区隔化,这一过程是由Na ／H 逆向转运蛋白完成的。本文概述了植物中Na ／H 逆向转运蛋白的发现、特征、分子生物学方面的研究,以及Na ／H 逆向转运蛋白在植物耐盐性中的重要作用。     

植物Na+/H+反向转运蛋白的研究进展

盐胁迫是限制植物生长发育的主要因素之一,植物Na+/H+反向转运蛋白可通过将Na+逆向转运出细胞外或将Na+区隔化于液泡中来抵制环境中过高的Na+浓度.植物中Na+/H+反向转运蛋白存在于细胞质膜和液泡膜上,现在已得到多种编码这些Na+/H+反向转运蛋白的基因,对其结构功能特性进行了大量研究,并发现将这些基因转入非抗盐植物中过量表达可提高转基因植物的抗盐性.概述了Na+/H+反向转运蛋白及其编码基因的最新研究进展.     

Evaluation of STAT3 Signaling in ALDH+ and ALDH+/CD44+/CD24? Subpopulations of Breast Cancer Cells

Background

STAT3 activation is frequently detected in breast cancer and this pathway has emerged as an attractive molecular target for cancer treatment. Recent experimental evidence suggests ALDH-positive (ALDH⁺), or cell surface molecule CD44-positive (CD44⁺) but CD24-negative (CD24⁻) breast cancer cells have cancer stem cell properties. However, the role of STAT3 signaling in ALDH⁺ and ALDH⁺/CD44⁺/CD24⁻ subpopulations of breast cancer cells is unknown.

Methods and Results

We examined STAT3 activation in ALDH⁺ and ALDH⁺/CD44⁺/CD24⁻ subpopulations of breast cancer cells by sorting with flow cytometer. We observed ALDH-positive (ALDH⁺) cells expressed higher levels of phosphorylated STAT3 compared to ALDH-negative (ALDH⁻) cells. There was a significant correlation between the nuclear staining of phosphorylated STAT3 and the expression of ALDH1 in breast cancer tissues. These results suggest that STAT3 is activated in ALDH⁺ subpopulations of breast cancer cells. STAT3 inhibitors Stattic and LLL12 inhibited STAT3 phosphorylation, reduced the ALDH⁺ subpopulation, inhibited breast cancer stem-like cell viability, and retarded tumorisphere-forming capacity in vitro. Similar inhibition of STAT3 phosphorylation, and breast cancer stem cell viability were observed using STAT3 ShRNA. In addition, LLL12 inhibited STAT3 downstream target gene expression and induced apoptosis in ALDH⁺ subpopulations of breast cancer cells. Furthermore, LLL12 inhibited STAT3 phosphorylation and tumor cell proliferation, induced apoptosis, and suppressed tumor growth in xenograft and mammary fat pad mouse models from ALDH⁺ breast cancer cells. Similar in vitro and tumor growth in vivo results were obtained when ALDH⁺ cells were further selected for the stem cell markers CD44⁺ and CD24⁻.

Conclusion

These studies demonstrate an important role for STAT3 signaling in ALDH⁺ and ALDH⁺/CD44⁺/CD24⁻ subpopulations of breast cancer cells which may have cancer stem cell properties and suggest that pharmacologic inhibition of STAT3 represents an effective strategy to selectively target the cancer stem cell-like subpopulation.     

细菌Na+/H+逆向转运蛋白的研究进展

Na+/H+逆向转运蛋白在维持细胞内pH稳态、Na+离子动态平衡和调控细胞体积方面发挥着重要作用。目前,细菌中许多参与高盐或高碱性环境压力应答的Na+/H+逆向转运蛋白得到了鉴定和功能阐释。继续挖掘高效的Na+/H+逆向转运蛋白,深入探究Na+/H+逆向转运蛋白的分子机理,将为工业菌株或农作物的改良提供新的研究思路。本文以4种模式菌株为例,简要概述细菌Na+/H+逆向转运蛋白的种类和特征,同时对其结构和功能等方面也进行探讨。     

Isolation of EpCAM+/CD133− hepatic progenitor cells

Progenitor cell-derived hepatocytes are critical for hepatocyte replenishment. Therefore, we established a line of human hepatic progenitor (HNK1) cells and determined their biological characteristics for experimental and therapeutic applications. HNK1 cells, isolated from human noncirrhotic liver samples with septal fibrosis, showed high expression of the hepatic progenitor cell (HPC) markers EpCAM, CK7, CK19, alpha-fetoprotein (AFP), CD90 (Thy1), and EFNA1. Expression of CD133 was very low. Ductular reactions at the periphery of cirrhotic nodules were immunohistochemically positive for these HPC markers, including EFNA1. Sodium butyrate, a differentiation inducer, induced hepatocyte-like morphological changes in HNK1 cells. It resulted in down-regulation of the hepatic progenitor cell markers EpCAM, CK7, CK19, AFP, and EFNA1 and up-regulation of mature hepatocyte markers, including albumin, CK8, and CK18. Furthermore, sodium butyrate treatment and a serial passage of HNK1 cells resulted in enhanced albumin secretion, ureagenesis, and CYP enzyme activity, all of which are indicators of differentiation in hepatocytes. However, HNK1 cells at passage 50 did not exhibit anchorage-independent growth capability and caused no tumors in immunodeficient mice, suggesting that they had no spontaneous malignant transformation ability. From this evidence, HNK1 cells were found to be EpCAM⁺/CD133^- hepatic progenitor cells without spontaneous malignant transformation ability. We therefore conclude that HNK1 cells could be useful for experimental and therapeutic applications.     

Characterization of H+/OH− currents in phospholipid vesicles

In pure phospholipid vesicles, the conductivity of H⁺/OH^– ions exceeds that for other simple inorganic ions. Protons achieve electrochemical equilibrium across egg phosphatidylcholine vesicles within tens of minutes. When pH gradients are established across vesicles, transmembrane potentials develop. Conversely, the establishment of transmembrane potentials leads to the formation of pH gradients. When the phenomenological permeability of H⁺/OH^– ions in vesicles is estimated, values are obtained that are much greater (six orders of magnitude larger) than those for Na⁺ or K⁺. A wide range in the values for this permeability has been reported; however, much of the discrepancy can be attributed to differences in the vesicle systems and experimental conditions. The H⁺/OH^– current appears to be modulated by changes in membrane dielectric constant. However, the dependence of this current on the pH gradient and on the membrane voltage argues against simple diffusion mechanisms as the source of the H⁺/OH^– current. In addition, in vesicle systems the H⁺/OH^– current shows a surprising invariance to changes in the membrane dipole potential, an observation that argues against the role of simple carriers for H⁺ and OH^– ions.     

Na+/H+逆向转运蛋白和植物耐盐性

Na^ /H^ 逆向转运蛋白对植物耐盐起着重要作用,它利用质膜H^ -ATPase或液泡膜H^ -ATPase及PPiase泵H^ 产生的驱动力把Na^ 排出细胞或在液泡中区隔化以消除Na^ 的毒害。主要讨论植物中Na^ /H^ 逆向转运蛋白研究在分子水平的最新进展。     

Na+/H+ 逆向转运蛋白与植物耐盐性关系

Na+/H+ 逆向转运蛋白与植物的耐盐性有密切的关系。在高等植物体内,主要存在两种Na+/H+ 逆向转运蛋白,分别为位于细胞质膜上的逆向转运蛋白SOS1,以及存在于液泡膜上的AtNHX1。质膜Na+/H+ 逆向转运蛋白主要负责Na+ 的外排,液泡膜Na+/H+ 逆向转运蛋白主要负责把Na+ 区隔化入液泡。过量表达质膜Na+/H+ 逆向转运蛋白SOS1或液泡膜Na+/H+ 逆向转运蛋白AtNHX1能够明显提高植物的耐盐性。本文对植物中Na+/H+ 逆向转运蛋白及其与植物耐盐性之间的关系研究最新进展作一概述。     

Passive H+/OH− permeability in epithelial brush border membranes

Passive H⁺/OH^– permeability across epithelial cell membranes is rapid and leads to partial dissipation of H⁺/OH^– gradients produced by H⁺ pumps and ion gradient-coupled H⁺/OH^– transporters. A heterogeneous set of H⁺/OH^– transport mechanisms exist in biological membranes: lipid solubility/diffusion, protein-mediated transport by specific proteins or by slippage through ion-coupled H⁺/OH^– transporters, and transport at the protein/lipid interface or through protein-dependent defects in the lipid structure. A variety of methods are available to study protein transport mechanisms accurately in cells and biomembrane vesicles including pH electrode recordings, pH-sensitive fluorescent and magnetic resonance probes, and potentiometric probes. In brush border vesicles from the renal proximal tubule, the characteristics of passive H⁺/OH^– permeability are quite similar to those reported for passive H⁺/OH^– permeability through pure lipid bilayers; slippage of protons through the brush border Na⁺/H⁺ antiporter or through brush border water channels is minimal. In contrast, passive H⁺/OH^– permeability in brush border vesicles from human placenta is mediated in part by a stilbene-sensitive membrane protein. To demonstrate the physiological significance of passive renal brush border H⁺/OH^– transport, proximal tubule acidification and cell pH regulation mechanisms are modeled mathematically for states of normal and altered H⁺/OH^– permeabilities.     

Na~+/HCO_3~-共转运体的电生理学原理

离子通道或离子转运体介导的离子跨膜运输是细胞中两种重要的离子跨膜运输方式。与离子通道介导的被动运输不同,离子转运体介导的离子跨膜转运是一种主动运输方式,具有多种独特的生物学特性。本文以Na~+/HCO_3~-共转运体(Na~+/HCO_3~-cotransporter,NBC)为例,对离子转运体的物理化学和电生理学基本原理及其特性进行分析与介绍。从本质上说,离子转运体是一种酶,本文首先从酶促反应的角度,对NBC介导的离子跨膜运输过程进行分析,介绍了离子转运体的化学计量比、表征离子转运效率的转换数及与此相关的离子转运体的运输通量等。本文进一步从热力学的角度对NBC介导Na~+和HCO_3~-跨膜运输的电生理学原理进行了较为详细的分析。通过热力学分析,本文阐释了NBC依据化学计量比决定其离子转运方向的原理。最后,本文对NBC化学计量比的实验测定和化学计量比的生理学意义,即NBC不同工作模式与其在特定组织中的具体生理学过程的关系,进行了讨论。     

拟南芥内膜Na+,K+/H+反向转运体研究进展

拟南芥内膜Na,K~+/H~+反向转运体(Endosomal NHX)的亚细胞定位、离子转运特性及生物学功能阐释取得了重要进展。拟南芥内膜Na~+,K~+/H~+反向转运体包含AtNHX5和AtNHX6两个成员,它们的氨基酸序列相似性为78.7%。研究表明,AtNHX5和AtNHX6具有功能冗余,它们都定位在高尔基体(Golgi)、反面高尔基体管网状结构(TGN)、内质网(ER)和液胞前体(PVC),参与调控耐盐胁迫、pH平衡和K~+平衡等。有报道显示内膜NHXs跨膜结构域存在能够调控自身离子活性的酸性保守氨基酸残基,对其自身功能具有决定性作用。最新研究结果表明,拟南芥内膜NHXs影响囊泡运输和蛋白存贮,并参与生长素介导的植物生长和发育。文中主要对拟南芥内膜NHXs的亚细胞定位、离子转运、功能及应用进展进行了概述。     

拟南芥液泡膜Na+/H+逆向转运蛋白研究进展

盐分是植物生长发育的主要限制因素之一,而离子在胞内区室之间的选择性运动对提高植物耐盐性是至关重要的。来自于拟南芥(Arabidopsis thaliana)的AtNHX1基因可编码Na /H 逆向转运蛋白,而Na /H 逆向转运蛋白AtNHX1可将细胞质中多余的Na 排进液泡来消除Na 的毒害,维持细胞的渗透平衡,提高植物的耐盐性。简要综述了AtNHX1基因及Na /H 逆向转运蛋白AtNHX1的特征,AtNHX1的耐盐机制以及植物耐盐基因工程改良等方面的研究进展。     

The Detailed Localization Pattern of Na+/K+/2Cl? Cotransporter Type 2 and Its Related Ion Transport System in the Rat Endolymphatic Sac

The endolymphatic sac (ES) is a part of the membranous labyrinth. ES is believed to perform endolymph absorption, which is dependent on several ion transporters, including Na⁺/K⁺/2Cl⁻ cotransporter type 2 (NKCC-2) and Na⁺/K⁺-ATPase. NKCC-2 is typically recognized as a kidney-specific ion transporter expressed in the apical membrane of the absorptive epithelium. NKCC-2 expression has been confirmed only in the rat and human ES other than the kidney, but the detailed localization features of NKCC-2 have not been investigated in the ES. Thus, we evaluated the specific site expressing NKCC-2 by immunohistochemical assessment. NKCC-2 expression was most frequently seen in the intermediate portion of the ES, where NKCC-2 is believed to play an important role in endolymph absorption. In addition, NKCC-2 expression was also observed on the apical membranes of ES epithelial cells, and Na⁺/K⁺-ATPase coexpression was observed on the basolateral membranes of ES epithelial cells. These results suggest that NKCC-2 performs an important role in endolymph absorption and that NKCC-2 in apical membranes and Na⁺/K⁺-ATPase in basolateral membranes work coordinately in the ES in a manner similar to that in renal tubules. (J Histochem Cytochem 58:759–763, 2010)     

HPV+/-宫颈癌患者临床特点与预后的对比分析

目的:探讨HPV阴性与HPV阳性宫颈癌的临床特点及其和预后的关系。方法:选取住院手术的HPV呈阴性与阳性的宫颈癌患者各86例,且两组患者在年龄、FIGO临床分期相近。分析两组患者的年龄、肿瘤临床分期、病理分型、原发肿瘤大小、分化程度、基层浸润深度、淋巴结转移、治疗方案情况及其5年RFS和总生存时间。结果:两组间宫颈癌患者肿瘤分化程度、肌层浸润深度、淋巴结转移间差异有统计学意义(P0.05)。HPV阳性组和HPV阴性组随访时间分别为63(13~87)个月、61(9~90)个月,5年总生存率分别为70.4%和61.3%,平均总生存时间分别为(73.15±2.74)月和(62.72±3.03)月,差异有统计学意义(p0.05)。HPV阴性组和HPV阳性组5年RFS分别为52.3%和66.4%,平均RFS为(51.57±4.62)月和(58.83±3.46)月,差异有统计学意义(p0.05)。结论:HPV阴性宫颈癌瘤体倾向于低分化,易发生局部侵犯和淋巴结转移,其临床预后较差。