Cellular uptake and radiosensitization of SR-2508 loaded PLGA nanoparticles

SR-2508 (etanidazole), a hypoxic radiosensitizer, has potential applications in radiotherapy. The poly(d,l-lactide-co-glycolide)(PLGA) nanoparticles containing SR-2508 were prepared by w/o/w emulsification-solvent evaporation method. The physicochemical characteristics of the nanoparticles (i.e. encapsulation efficiency, particle size distribution, morphology, in vitro release) were studied. The cellular uptake of the nanoparticles for the two human tumor cell lines: human breast carcinoma cells (MCF-7) and human carcinoma cervices cells (HeLa), was evaluated by fluorescence microscopy and transmission electronic microscopy. Cell viability was measured by the ability of single cell to form colonies in vitro. The prepared nanoparticles were spherical in shape with size between 90 nm and 190 nm. The encapsulation efficiency was 20.06%. The drug release pattern exhibited an initial burst followed by a plateau for over 24 h. The cellular uptake of nanoparticles was observed. Co-culture of MCF-7 and HeLa cells with SR-2508 loaded nanoparticles showed that released SR-2508 retained its bioactivity and effectively sensitized two hypoxic tumor cell lines to radiation. The radiosensitization of SR-2508 loaded nanoparticles was more significant than that of free drug.     

Photodynamic damage study of HeLa cell line using ALA

The present study evaluates the photodynamic damage with 5-aminolevulinic acid (5-ALA) using HeLa as experimental model. HeLa cell line was irradiated with red light (He-Ne laser, λ = 632.8 CW nm). The influence of different incubation times and concentrations of 5-ALA, different irradiation doses and various combinations of photosensitizer and light doses on the cellular viability of HeLa cells were studied. The optimal uptake of photosensitizer ALA in HeLa cells was investigated by means of PpIX fluorescence intensity by exciting the HeLa cell suspension at 450 nm and a detection wavelength set at 690 nm. Cells viability was determined by means of trypan blue solution. The spectrometric measurements showed that the maximal cellular uptake of 5-ALA occurred after 4 h in vitro incubation. We found that the combination with 5-ALA and laser irradiation leads to time/concentration-dependent increase of cells death and also energy doses-dependent enlarge the cells death. The fluorescence intensity after PDD of carcinoma cells reduce when compared with the control group. The fluorescence emission spectral profiles after PDD of carcinoma cells showed a dip around 425–525 nm when compared with the control group. This may be due to the damage of mitochondria component of cells. The percentage of HeLa cells after PDD shows that the percentage of cells survival rate as function of laser dose (power). Hence it is clear that at 200 μg/ml ALA and 20 mW laser irradiation, more than 70% of HeLa cells were dead after 15 min.     

Cytotoxicity and Cellular Uptake of Amorphous Silica Nanoparticles in Human Cancer Cells

The cytotoxic effects of silica nanoparticles (SNPs) on different human cancer cells, as well as the uptake kinetics and pathways of SNPs have been studied here. SNPs with the diameter of ≈20 nm induced a dose‐dependent cytotoxicity in both gastric cancer cells (MGC80–3) and cervical adenocarcinoma epithelial cells (HeLa), but MGC80–3 cells were more susceptible to the cytotoxic effect induced by SNPs. Changes in the nuclear morphology and flow cytometric analysis with annexin V/PI double staining show that SNPs induced a higher degree of apoptosis in MGC80–3 cells. Accordingly, more remarkable reactive oxygen species (ROS) burst is detected in SNP‐treated MGC80–3 cells. Using fluorescein isothiocyanate (FITC)‐labeled SNPs and flow cytometry, it is found that the uptake of SNPs is more efficient in MGC80–3 than in HeLa cells. SNPs are internalized into both cancer cells through energy‐dependent pathway. Inhibitor studies with dynasore and methyl‐β‐cyclodextrin show that these cancer cells took up 20 nm SNPs mainly through the caveolin‐mediated endocytosis, while in HeLa cells SNPs internalization was also via dynamin‐dependent clathrin‐mediated pathway. These findings indicate that SNPs cause differential cytotoxic effects in different human cancer cells, which might be related to the uptake process and efficiency toward these cancer cells.     

Poly‐L‐Arginine Grafted Silica Mesoporous Nanoparticles for Enhanced Cellular Uptake and their Application in DNA Delivery and Controlled Drug Release

Mesoporous silica nanoparticles (MSNs), that are capable of delivering gene and drugs to organisms in an effective and selective way have attracted much attention lately for its potential in the treatment of cancer. However, the successful application of MSNs for delivery of plasmid DNA or drugs requires surface modification of the silica with positively charged functional groups so that it binds to the negatively charged nucleic acids and also helps it penetrate through the cell membrane. We report for the first time the synthesis of a hybrid MSN where the cell penetrating cationic polypeptide poly‐L‐arginine synthesized by NCA polymerization is grafted onto the external surface of MSN using click chemistry. These poly‐L‐arginine grafted MSNs show low cytotoxity (85% cell viability at 100 μg/mL MSN concentration) and high cellular uptake by both HeLa and A549 (>90%). The poly‐L‐arginine grafted MSNs were used effectively to deliver mCherry DNA plasmid into cells leading to expression of the protein mCherry inside the cells (transfection efficiency 60%). In contrast, poly‐L‐arginine grafted non‐porous silica nanoparticles were unable to express the protein mCherry inside the cells although their uptake into the cells was as efficient as with poly‐L‐arginine grafted MSNs. We also show preliminary results to demonstrate that these hybrid MSNs can be used as a delivery vehicle for the anticancer drug Doxorubicin towards cancerous cells HeLa and A549. The biocompatibility of poly‐L‐arginine and its cell penetrating ability are expected to make these MSN conjugates very useful carriers for the delivery of genes and drugs into cancer cells.     

真空、低能离子注入后HeLa细胞的吸收光谱研究

在选用了石蜡油作为细胞耐受真空的保护剂基础上,分别采集了人宫颈癌细胞(HeLa细胞)经真空和不同剂量低能离子注入后的紫外吸收光谱.实验结果显示:HeLa细胞在202及260 nm附近均有特征性的吸收峰.数据的进一步分析发现:(1)HeLa细胞经真空处理后的紫外吸光值随着真空时间的延长而增加,且真空对细胞紫外吸收光谱的影响大于单纯的石蜡油浸泡影响;(2)真空对于HeLa细胞紫外吸光值的影响远低于低能离子注入的影响;(3)HeLa细胞在注入不同剂量的低能N+后,紫外吸光值会随着注入剂量的增大而增加.在上述分析的基础上,本文又探讨了低能N+束注入对肿瘤细胞的结构、各成分的组成比例及分子排列的影响,该研究为深入探索低能离子注入生物样品的作用机理奠定了基础.     

Synthesis and in vitro inhibition properties of siRNA conjugates carrying glucose and galactose with different presentations

Oligoribonucleotide conjugates and the corresponding siRNA duplexes against tumor necrosis factor carrying one, two, or four glucose and galactose residues at the 5′-end have been prepared using phosphoramidite chemistry. Carbohydrate-modified siRNA duplexes have similar inhibitory properties than unmodified RNA duplexes in HeLa cells transfected with oligofectamine. When HeLa cells were treated with siRNA carrying one, two, or four glucose residues without oligofectamine, no inhibition was observed. The inhibitory properties of siRNA carrying galactose residues without transfecting agent were tested on HuH-7 cells that have abundant asialoglycoprotein receptors. In these cells siRNA carrying galactose residues have slight anti-TNF inhibitory properties (25% in the best case) that are eliminated if the receptors are blocked with a competitor. These results demonstrate receptor-mediated uptake of siRNA carrying galactose residues, although the efficacy of the process is not enough for efficient RNA interference experiments.     

Ultrasound-mediated disruption of cell membranes. II. Heterogeneous effects on cells

Ultrasound has been shown to reversibly and irreversibly disrupt membranes of viable cells through a mechanism believed to involve cavitation. Because cavitation is both temporally and spatially heterogeneous, flow cytometry was used to identify and quantify heterogeneity in the effects of ultrasound on molecular uptake and cell viability on a cell-by-cell basis for suspensions of DU145 prostate cancer and aortic smooth muscle cells exposed to varying peak negative acoustic pressures (0.6-3.0 MPa). exposure times (120-2,000 ms), and pulse lengths (0.02-60 ms) in the presence of Optison (1.7% v/v) contrast agent. Cell-to-cell heterogeneity was observed at all conditions studied and was classified into three subpopulations: nominal uptake (NUP), low uptake (LUP), and high uptake (HUP) populations. The average number of molecules within each subpopulation was generally constant: 10(4)-10(5) molecules/cell in NUP, approximately 10(6) molecules/cell in LUP, and approximately 10(7) molecules/cell in HUP. However, the fraction of cells within each subpopulation showed a strong dependence on both acoustic pressure and exposure time. Varying pulse length produced no significant effect. The distribution of cells among the three subpopulations correlated with acoustic energy exposure, which suggests that energy exposure may govern the ability of ultrasound to induce bioeffects by a nonthermal mechanism.     

Y2O3:Tm,Yb nanophosphors for correlative upconversion luminescence and cathodoluminescence imaging

We present a phosphor nanoparticle that shows both upconversion luminescence (UCL) and cathodoluminescence (CL). With this particle, low-autofluorescence, deep-tissue and wide-field fluorescence imaging can be achieved with nanometer-order high-spatial-resolution imaging. We synthesized Y₂O₃:Tm,Yb nanophosphors that emit visible and near-infrared UCL under 980 nm irradiation and blue CL via electron beam excitation. The phosphors were applied to fluorescent imaging of HeLa cells. The photostability of the phosphors was superior to that of a conventional organic dye. We show that after uptake by HeLa cells, the particles can be imaged with SEM and CL contrast in a cellular section. This indicates that correlative UCL and CL imaging of biological samples could be realized.     

Distance distribution functions of replication origins in HeLa and glioma human cells according to the data of confocal microscopy

The distribution of replication origins in the nuclei of different cells is studied by confocal microscopy. Based on the obtained images, three-dimensional maps of the positions of the origin centers is constructed and the distribution functions of the pair distances between them are calculated. It is established that the distance distribution function for HeLa and glioma human cells is linear at sizes up to 2 μm, which indicates that the size of the origin system is close to 2. The amplitude of the distance distribution function at small sizes has a power dependence on the nucleus size and is inversely proportional to the nucleus volume to the power of 0.9. Thus, the replication-origin distribution in a nucleus cannot be described by a model with a single Hausdorff dimension in the whole range of sizes.     

Comparative analysis of the nucleosome structure of cell nuclei by small-angle neutron scattering

The nucleosome structure in native nuclei of normal (chicken erythrocyte and rat leukocyte nuclei) and anomalously proliferating (the human cervical adenocarcinoma cell line HeLa and the Chinese hamster fibroblast cell line A238) cells has been investigated using small-angle neutron scattering. The experimental results obtained allow one to make the inference that the parameters of the nucleosome structure for the chicken erythrocyte and rat leukocyte nuclei (on average over the nucleus) are close to the universally accepted values and that the distance distribution function is bimodal. The bimodality of the distance distribution function reflects a narrow distribution of distances between nucleosomes (on average over the nucleus) at the fibril level of the chromatin organization. The histone core of the nucleosome structure in the nuclei of the HeLa and A238 cells (on average over the nucleus) is considerably less compact than that in the chicken erythrocyte and rat leukocyte nuclei, and the distance distribution function does not exhibit indications of the bimodality.     

X射线和过氧化氢引起的Hela细胞染色质损伤的微区拉曼光谱研究

我们成功地用微区拉曼光谱探针技术获得了培养单个活体 Hela 细胞核中染色质的拉曼光谱。从光谱中我们看到正常 Hele 细胞核蛋白的二级结构为 a 螺旋,DNA 为 A 型构象。经10~(-3)moI/L 过氧化氢处理20分钟及8Gy x 射线照射后的 Hela 细胞核蛋白的二级结构出现反平行β折叠,DNA 出现 B 型构象。这种结果与我们的假设是相符合的。     

Investigation of interactions of nano‐particles within cells using micro‐beam imaging techniques

A new approach was employed to investigate the interactions between cells and metal ions at the single cell level. Mouse macrophages were cultured and exposed to solutions with different concentrations of metals and exposure times. A focused beam from a synchrotron radiation source and an electron probe microanalyzer were used for elemental imaging of the cells. It was found that the intensity and distribution of the matrix elements in a single cell are closely related to the uptake of metals. Furthermore, the variation of the density the matrix elements and their localization in the cell are influenced by the uptake of metals. Copyright © 2003 John Wiley & Sons, Ltd.     

Ex vivo assessment of polyol coated-iron oxide nanoparticles for MRI diagnosis applications: toxicological and MRI contrast enhancement effects

Polyol synthesis is a promising method to obtain directly pharmaceutical grade colloidal dispersion of superparamagnetic iron oxide nanoparticles (SPIONs). Here, we study the biocompatibility and performance as T2-MRI contrast agents (CAs) of high quality magnetic colloidal dispersions (average hydrodynamic aggregate diameter of 16-27 nm) consisting of polyol-synthesized SPIONs (5 nm in mean particle size) coated with triethylene glycol (TEG) chains (TEG-SPIONs), which were subsequently functionalized to carboxyl-terminated meso-2-3-dimercaptosuccinic acid (DMSA) coated-iron oxide nanoparticles (DMSA-SPIONs). Standard MTT assays on HeLa, U87MG, and HepG2 cells revealed that colloidal dispersions of TEG-coated iron oxide nanoparticles did not induce any loss of cell viability after 3 days incubation with dose concentrations below 50 μg Fe/ml. However, after these nanoparticles were functionalized with DMSA molecules, an increase on their cytotoxicity was observed, so that particles bearing free terminal carboxyl groups on their surface were not cytotoxic only at low concentrations (<10 μg Fe/ml). Moreover, cell uptake assays on HeLa and U87MG and hemolysis tests have demonstrated that TEG-SPIONs and DMSA-SPIONs were well internalized by the cells and did not induce any adverse effect on the red blood cells at the tested concentrations. Finally, in vitro relaxivity measurements and post mortem MRI studies in mice indicated that both types of coated-iron oxide nanoparticles produced higher negative T2-MRI contrast enhancement than that measured for a similar commercial T2-MRI CAs consisting in dextran-coated ultra-small iron oxide nanoparticles (Ferumoxtran-10). In conclusion, the above attributes make both types of as synthesized coated-iron oxide nanoparticles, but especially DMSA-SPIONs, promising candidates as T2-MRI CAs for nanoparticle-enhanced MRI diagnosis applications.     

Intracellular Breakable and Ultrasound‐Responsive Hybrid Microsized Containers for Selective Drug Release into Cancerous Cells

This work reports an efficient and straightforward strategy to fabricate hybrid microsized containers with reduction‐sensitive and ultrasound‐responsive properties. The ultrasound and reductive sensitivity are visualized using scanning electron microscopy, with the results showing structural decomposition upon ultrasound irradiation and in the presence of reducing agent. The ultrasound‐responsive functionalities of hybrid carriers can be used as external trigger for rapid controlled release, while prolonged drug release can be achieved in the presence of reducing agent. To evaluate the potential for targeted drug delivery, hybrid microsized containers are loaded with the anticancer drug doxorubicin (Dox). Such hybrid capsules can undergo structural intracellular degradation after cellular uptake by human cervical cancer cell line (HeLa), resulting in Dox release into cancer cells. In contrast, there is no Dox release when hybrid capsules are incubated with human mesenchymal stem cells (MSCs) as an example of normal human cells. The cell viability results indicate that Dox‐loaded capsules effectively killed HeLa cells, while they have lower cytotoxicity against MSCs as an example of healthy cells. Thus, the newly developed intracellular‐ and ultrasound‐responsive microcarriers obtained via sol‐gel method and layer‐by‐layer technique provide a high therapeutic efficacy for cancer, while minimizing adverse side effect.     

Numerical Study on the Dynamics and Oxygen Uptake of Healthy and Malaria-Infected Red Blood Cells

Red blood cells (RBCs) are very important due to their role of oxygen transport from lungs. As the malaria parasite grows in the malaria-infected red blood cells (IRBCs), the properties of the cells change. In the present work, the oxygen uptake by RBCs and IRBCs at the pulmonary capillaries is simulated using a numerical technique based on the two-dimensional immersed interface method. The results for the oxygen uptake by a stationary single RBC have fair agreements with the previously reported results. The numerical results show that the malaria infection could significantly cause deterioration on the oxygen uptake by red blood cells. The results also suggest that the oxygen uptake by individual stationary RBC/IRBC would not be significantly affected by the neighboring cells provided the separation distance is about the dimension of the cell. Furthermore, it appears that the oxygen uptake by both RBCs and IRBCs is dominated by mass diffusion over the convection although the Peclet number is of the order of unity.     

内质网应激对碳离子辐照宫颈癌HeLa 细胞的影响

利用不同剂量的碳离子辐照二硫苏糖醇(2.5 mmol/L) 预处理的HeLa 细胞,探讨了内质网应激反应对碳离子辐照宫颈癌HeLa 细胞的影响。实验发现:与单独辐照组相比,二硫苏糖醇联合碳离子辐照后细胞的存活率下降,而凋亡率增加;二硫苏糖醇联合碳离子辐照加重了碳离子辐照引起的细胞周期阻滞;且联合辐照组的自噬被明显激活。结果表明,持续的内质网应激可改变宫颈癌HeLa 细胞对碳离子辐照反应,且二硫苏糖醇可能通过影响HeLa 细胞的自噬性细胞死亡通路发挥作用。To investigate the effect of endoplasmic reticulum stress on HeLa cells to 12C6+ ion irradiation,HeLa cells were pretreated with 2.5 mmol/L dithiothreitol and irradiated by 12C6+ ions with different doses.The results showed that, compared with IR alone, dithiothreitol combined with carbon ion irradiation caused HeLa cell survival decreased, and the apoptosis increased. Moreover, dithiothreitol and carbon ion radiation combination treatment led to a significant increase of G2/M phase, and autophagy was activated obviously in combination treatment group. The results imply that continuous endoplasmic reticulum stress can change the response of HeLa cells to 12C6+ irradiation, and dithiothreitol may affect HeLa cells through the autophagy cell death pathway.     

Development of a Liver‐Targeting Gold–PEG–Galactose Nanoparticle Platform and a Structure–Function Study

For the specific liver parenchymal cell delivery, a series of short heterobifunctional poly(ethylene glycol) (PEG) derivatives containing dimercapto and galactose (Gal) terminals is synthesized for the preparation of gold conjugates. The Gal density on the surface of all gold conjugates can be well controlled and the prepared gold conjugates are stable in various media, even in the presence of serum. For the liver targeting and reflectance imaging applications, the structure–function relationships of this platform, including the influence of the PEG molecular weight and the Gal ligand coverage of hybrid particles on the cytotoxicity and cellular recognition of tumor cells in vitro and on their liver‐targeting ability in small animals, are studied. Biocompatibility results show that HepG2 cells are more sensitive than HeLa cells to gold conjugates. Cellular uptake studies demonstrate that a lower PEG molecular weight, a higher Gal density, or a higher gold concentration can increase the cellular uptake efficiency of these hybrid particles in HepG2 cells when the other parameters are constant. The results reveal the importance of parameter modulation for the design and control of nanoprobes and the gold conjugates with short PEG chains and a high Gal density are a potential vector for active‐targeting therapy.     

真空、低能离子注入对人宫颈癌（HeLa）细胞中 p53及c-fos mRNA的表达影响

在具有高效护水功能石蜡油的保护下进行了人宫颈癌细胞(HeLa细胞)的低能离子注入及真空处理, 用荧光定量PCR的方法分别研究了真空和30 keV N+的不同注入剂量下, 细胞中p53基因和c-fos基因的mRNA表达变化。 结果表明, 上述两个基因的表达与真空及低能离子注入之间存在着剂量关系。     

一种数字化高灵敏度荧光显微镜及其在竹红菌甲素研究中的应用

研制了一种可探测细胞微弱光图像的数字化高灵敏度荧光显微镜，采用视频数字化增强型ＣＣＤ系统作为高灵敏度的接收系统，像增强器亮度增益为４１，０００，因而这种荧光显微镜可探测到普通荧光显微镜不能观察的微弱光图像，并可减少荧光物质的浓度和激发光的强度，减少对细胞自然生理环境的影响，数字化高灵敏度荧光显微镜在给出细胞微弱荧光图像的同时，并可给出图像上每一像元的发光强度和细胞平均发光强度，使用此仪器已首次直接     

Ultrasound enhances liposome-mediated gene transfection

Previous studies have shown that some series of liposomes, usually containing cationic lipids, are useful tools for gene introduction into cells. To investigate the effect of ultrasound (US) on liposome-mediated transfection, three types of liposomes (designated L1, L2 and L3, in the order of increasing transfection efficiency) containing O,O′-ditetradecanoyl-N-(-trimethylammonioacetyl) diethanolamine chloride, dioleoylphosphatidylethanolamine, and/or cholesterol at varying ratios, were used in this study. HeLa cells were treated with liposome–DNA complexes containing luciferase genes for 2 h before sonication. Optimal US condition for the enhancement was determined to be 0.5 W/cm², 1 MHz continuous wave for 1 min and was above threshold for inertial cavitation based on EPR detection of free radicals. Luciferase expressions 24 h after the treatments were significantly increased by sonication to 2.4 fold with L1, and 1.7 fold with L2. However, with L3, which showed the highest level of expression among the liposomes, significant but minimal enhancement was observed when sonication was done 15 min after the DNA-L3 treatment, suggesting that efficiency of the liposome also determines the proper timing for sonication. The 2 h pre-sonication incubation with liposome–DNA complexes for L1 and L2 (30 min for L3) required to attain enhancement, suggests that US works to enhance transfection only after cells had enough DNA uptake.