A novel synthesized prodrug of gemcitabine based on oxygen-free radical sensitivity inhibited the growth of lung cancer cells

In the present study,we introduced the H2O2-sensitive thiazolidinone moiety at the 4th amino group of gemcitabine(GEM)to synthesize a new target compound named GEM-ZZQ,and then we confirmed its chemical structure by nuclear magnetic resonance spectroscopy.We further confirmed that GEM-ZZQ had a good chemical stability in different pH solutions in vitro and that it could be activated by H2O2 to release GEM.Pharmacodynamic studies revealed that the growth inhibition of human normal epithelial cells was weaker by GEM-ZZQ than by GEM treatment and that the inhibition of various lung cancer cell lines by GEM-ZZQ was similar to that of GEM.For the lung cancer cell lines that are resistant to the epidermal growth factor receptor(EGFR)-targeting inhibitor osimertinib,GEM-ZZQ showed less growth inhibition than GEM;however,GEM-ZZQ in combination with cisplatin showed better synergistic effects than GEM in the low-dose groups.In summary,we provided a new anti-cancer compound GEM-ZZQ for treating lung cancer by modifying the GEM structure.

Highly Efficient Labeling of Human Lung Cancer Cells Using Cationic Poly-L-lysine-Assisted Magnetic Iron Oxide Nanoparticles

Cell labeling with magnetic iron oxide nanoparticles(IONPs)is increasingly a routine approach in the cellbased cancer treatment.However,cell labeling with magnetic IONPs and their leading effects on the biological properties of human lung carcinoma cells remain scarcely reported.Therefore,in the present study the magnetic c-Fe2O3nanoparticles(MNPs)were firstly synthesized and surface-modified with cationic poly-L-lysine(PLL)to construct the PLL-MNPs,which were then used to magnetically label human A549 lung cancer cells.Cell viability and proliferation were evaluated with propidium iodide/fluorescein diacetate double staining and standard 3-(4,5-dimethylthiazol-2-diphenyl-tetrazolium)bromide assay,and the cytoskeleton was immunocytochemically stained.The cell cycle of the PLL-MNPlabeled A549 lung cancer cells was analyzed using flow cytometry.Apoptotic cells were fluorescently analyzed with nuclear-specific staining after the PLL-MNP labeling.The results showed that the constructed PLL-MNPs efficiently magnetically labeled A549 lung cancer cells and that,at low concentrations,labeling did not affect cellular viability,proliferation capability,cell cycle,and apoptosis.Furthermore,the cytoskeleton in the treated cells was detected intact in comparison with the untreated counterparts.However,the results also showed that at high concentration(400 lg m L-1),the PLL-MNPs would slightly impair cell viability,proliferation,cell cycle,and apoptosis and disrupt the cytoskeleton in the treated A549 lung cancer cells.Therefore,the present results indicated that the PLL-MNPs at adequate concentrations can be efficiently used for labeling A549 lung cancer cells and could be considered as a feasible approach for magnetic targeted anti-cancer drug/gene delivery,targeted diagnosis,and therapy in lung cancer treatment.

Peroxisome Proliferator-Activated Receptor-γActivated by Ligands Can Inhibit Human Lung Cancer Cell Growth through Induction of Apoptosis

To study the expression of peroxisome proliferator-activated receptor-7(PPAR-γ) in lung cancer cells, and to testify if the PPAR-γ agonists can inhibit human lung cancer cell growth through induction of apoptosis, PPAR-γ was detected in two lung cancer cell lines by RT-PCR and immuno-histochemistry, the inhibition of human lung cancer cell growth was investigated by MTT and cell counts, and the apoptosis was assessed by TUNEL. The results showed that: (1) PPAR-γ expressed on two lung cancer cell lines; (2) PPAR-γ activated by ligands could inhibit human lung cancer cell growth remarkably; (3) PPAR-γ agonists could induce apoptosis to inhibit lung cancer cell growth. It was concluded that PPAR-γ expressed in lung cancer cell can be activated by ligands and can inhibit lung cancer cell growth through induction of apoptosis.

Effect of STAT3 siRNA-Induced Inhibition of STAT3 Gene Expression on the Growth and Apoptosis of Lewis Lung Cancer Cells

OBJECTIVE To determine the effect of short interference RNA （siRNA） against STAT3 induced inhibition of STAT3 gene expression and on the growth and apoptosis of Lewis lung cancer cells. METHODS pSilencer 2.1-U6 STAT3 siRNA against STAT3-mRNA was synthesized, Lewis lung cancer cells were divided into 3 groups： vehicle, plasmid, and STAT3 siRNA in which the ceils were treated with RPMI- 1640 culture media, or transfected with pSilencer empty vector, or pSilencer STAT3 siRNA, Semiquantitative RT-PCR and Western blot analysis of STAT3 gene expression in the cells was performed 72 h after transfection, MFr assay for cell proliferation, flow cytometry and DNA laddering electrophoresis were used for determination of cell proliferation and apoptosis, RESULTS STAT3 was markedly expressed at both the mRNA and protein levels in the cells treated with RPMI-1640 media or transfected with the plasmid vector, whereas STAT3 expression was significantly reduced in cells treated with STAT3 siRNA, These findings suggest that STAT3 siRNA effectively inhibited STAT3 expression. Transfection of the cells with STAT3 siRNA resulted in significant cellular growth inhibition and enhanced apoptosis, CONCLUSION Transfection of Lewis lung cancer cells with synthetic STAT3 siRNA resulted in effective inhibition of STAT3 gene expression at both protein and mRNA levels, leading to induced apoptosis and growth suppression.

ANTP-SMACN7 fusion peptide alone induced high linear energy transfer irradiation radiosensitization in non-small cell lung cancer cell lines

Objective:The aim of the present study was to investigate the mechanisms responsible for the radiation-sensitizing effect of antennapedia proteins,ANTP-SMACN7,on lung cancer cells treated with accelerated carbon and Fe particle irradiation.Methods:The ANTP-SMACN7 fusion peptide was synthesized and linked to fluorescein isothiocyanate to determine its ability to penetrate cells.A549 and NCI-H460 cells,human non-small cell lung cancer(NSCLC)cell lines,were irradiated with X-ray or high linear energy transfer(LET)irradiation with or without ANTP-SMACN7 treatment.Cellular survival,apoptosis,and protein expression were studied by colony formation assays,flow cytometry,and western blot analyses,respectively.Results:ANTP-SMACN7 fusion proteins entered the cells and promoted A549 and NCI-H460 cell high LET irradiation radiosensitization.High LET irradiation was more efficient for clonogenic cell killing and the induction of apoptosis(P<0.05).Treatment with ANTP-SMACN7 significantly reduced the A549 and NCI-H460 cell clone-forming percentages and increased apoptosis through inhibition of the X-linked inhibitor of apoptosis protein and the activation of caspase-3 and caspase-9.Conclusions:Regarding pharmaceutical radiosensitization,these findings provided a way to improve high-LET clinical radiotherapy for NSCLC patients.

IMMUNORESPONSES OF HUMANIZED SCID MICE TO HUMAN LUNG CANCER CELLS

HuPBLSCID mice were used to explore how they would response to human tumor cells of 80llMLC.Living 80llMLC cells appeared to be fetal to the the mice due to the production of human TNF- The hupBL-SCID mice did not generate any noticeable amount of specific human immunoglobulin either by single immunization with living 801/MLC cells or by repeated immunization with irradiated 80llMLC cells. Our preliminary experiments with huPBL-SCID mice showed that such chimeras would be a very useful models for tumor immunological researches.

The effects of the same target on malignant proliferation of human lung cancer cells with different expression levels of COX-2 protein

Objective: The aim of the study was to explore the effects of the same target (si-10) on lung cancer cells with different expression levels of cyclooxygenase-2 (COX-2) protein by RNAi and malignant proliferation of these cells. Methods: COX-2 was selected as the target and one siRNA expression vector with the best effect was selected and thought as the subject from three COX-2 siRNA expression vectors with human U6 promoter. The siRNA expression vector (psi-10) and the vacant vector (pEGFP) were transfected into these cells with different COX-2 expression states (801D, A549 and LTEP-A2) with lipofectamine respectively and the transfected cell strains were constructed. The change of COX-2 expression levels was examined by Western blot and RT-PCR. The effects on the proliferation of lung cancer cells were studied by cell growth curve and clonogenic assay. Results: The siRNA and U6 promoter were validated by PCR, restriction endonucleases identification and DNA sequencing and BLAST alignment and cloned into the pEGFP vector. The cell strains transfected that 801D was used as maternal line were named as 801D-p and 801D-10 respectively. The cell strains transfected that A549 was used as maternal line were named as A549-p and A549-10 respectively. The cell strains transfected that LTEP-A2 was used as maternal line were named as LTEP-A2-p and LTEP-A2-10 respectively. These cells transfected pEGFP (801D-p, A549-p and LTEP-A2-p) had the expression of GFP and 801D-10, A549-10 and LTEP-A2-10 cells had not in 24, 48 and 72 hours after transfected. The results of RT-PCR and Western blot showed the siRNA expression vector produced marked effects in two cells (A549 and LTEP-A2) expressing COX-2 and the expression of COX-2 was inhibited. But the inhibited effects were differ- ent and the expression of COX-2 was more inhibited obviously in LTEP-A2 cells than in A549 cells though the expression of COX-2 was also inhibited obviously in A549 cells. In contract to their maternal line, the levels of COX-2 mRNA of LTEP-A2-10 and A549-10 cells reduced 64.2% and 61.2% respectively; the levels of COX-2 protein reduced 60.2% and 56.2% respectively. But the levels of COX-2 mRNA and protein had not change in 801D cells not expressing COX-2. The results of cell growth curve and clonogenic assay showed the growth of LTEP-A2-10 cells slowed and the clonal formation rate reduced and the size of the colonies became small; the growth of A549-10 cells showed slow and more obviously in the cell growth curve especially. But the growth of 801D-10 cells had not obvious change. Conclusion: The si-10 target of COX-2 has different inhibition effects on lung cancer cells with different COX-2 expression levels and the different inhibition effects have different effects on cells malignant proliferation.

Gold Nanoparticles: Synthesis and Effect on Viability of Human Non-Small Lung Cancer Cells

Gold nanoparticles recently showed great interest for many uses including food, drug and medical applications. The algae Undaria sp. well known as wakame in South Asia are considered to be large edible brown algae. It provides nutritious source of dietary fiber, vitamin Bs and mineral. The present study aimed to investigate the use of Undaria sp. for green synthesis of metallic gold nanoparticles. The synthesized nanoparticles were characterized for physicochemical properties including size measurement and tested in vitro for their effect on viability of human non-small lung cancer H-460 cell line using the MTT assay. From the results, brown algae were able to chemically form nanoparticles with chloroauric acid solution possibly due to the sulphated polysaccharides found in algae. The particle sizes were found to be approximately 10 nm. The gold nanoparticles stabilized by the algae could decrease the cancer cell viability. However, the properties and biological activity of nanoparticles seemed to depend upon reaction time and temperature. Conclusively, gold nanoparticles synthesized and stabilized by the algae could decrease the cancer cell viability, thus indicating the potential of such nanoparticles for further study for anticancer activity.

Anti-tumor effects of p53N15-based fusion peptide in the transfected H1299 lung cancer cells

Objective Loss-of-function mutation of p53,a tumor suppressor gene,is an important mechanism for the development of human cancers. In this study we tried to transfect p53N15-based fusion peptide into H1299,a lung cancer cell line,and evaluate the anti-tumor effects of the fusion peptide. Methods Adeno-associated virus (AAV) vectors were used for transfecting p53N15 fusion peptide into p53-null lung adenocarcinoma H1299 cells.

Autophagy Accompanied with Bisdemethoxycurcumin-induced Apoptosis in Non-small Cell Lung Cancer Cells

Objective To investigate the effects of bisdemethoxycurcumin （BDMC） on non-small cell lung cancer （NSCLC） cell line, A549, and the highly metastatic lung cancer 95D cells. Methods CCK-8 assay was used to assess the effect of BDMC on cytotoxicity. Flow cytometry was used to evaluate apoptosis. Western blot analysis, electron microscopy, and quantification of GFP-LC3 punctuates were used to test the effect of BDMC on autophagy and apoptosis of lung cancer cells. Results BDMC inhibited the viability of NSCLC cells, but had no cytotoxic effects on lung small airway epithelial cells （SAECs）. The apoptotic cell death induced by BDMC was accompanied with the induction of autophagy in NSCLC cells. Blockage of autophagy by the autophagy inhibitor 3-methyladenine （3-MA） repressed the growth inhibitory effects and induction of apoptosis by BDMC. In addition, BDMC treatment significantly decreased smoothened （SMO） and the transcription factor glioma-associated oncogene 1 （G1il） expression. Furthermore, depletion of Gill by siRNA and cyclopamine （a specific SMO inhibitor） induced autophagy. Conclusion Aberrant activation of Hedgehog （Hh） signaling has been implicated in several human cancers, including lung cancers. The present findings provide direct evidence that BDMC-induced autophagy plays a pro-death role in NSCLC, in part, by inhibiting Hedgehog signaling.

Selective targeting p53^(WT) lung cancer cells harboring homozygous p53 Arg72 by an inhibitor of CypA

OBJECTIVE To explored the potential of pharmacological stabilization and reactivation of p53 for targeted cancer therapies.METHODS The cytotoxicity of a potent Cyclophilin A(CypA)inhibitor HL001 was tasted against a panel of cancer cell lines.The genotypes and activation of p53 were compared with the cytotoxicity profile of HL001.Two-dimensional(2D)PAGE analysis was performed to investigate differentially expressed proteins that involves in the anti-proliferation effects of HL001.Pull-down and Co-IP were used to confirmed the new identified PPI between CypA and G3BP1 and orthotopic animal model of lung cancer was used to tested the anti-tumor activity of HL001 in vivo.RESULTS We identify a novel CypA small molecule inhibitor HL001 that induces non-small cell lung cancer(NSCLC)cell cycle arrest and apoptosis via restoring p53 expression.We find that HL001 stabilizes p53 through inhibiting the MDM2-mediated p53 ubiquitination.Further mechanistic studies reveal that the downregulation of G3BP1 and the induction of reactive oxygen species and DNA damage by HL001 contribute to p53 stabilization.Surprisingly,HL001 selectively suppresses tumor growth in p53wildtype NSCLC harboring Arg72 homozygous alleles(p53-72R)through disrupting interaction between MDM2 and p53-72R in a CypA dependent manner.Moreover,combining HL001 with cisplatin synergistically enhance tumor regression in orthotopic NSCLC mouse model.CONCLUSION Pharmacologic inhibition of CypA offers a potential therapeutic strategy via specific activation of p53-72R in NSCLC.

Activation of Toll-like receptors signaling in non-small cell lung cancer cell line induced by tumor-associated macrophages

Background： Inflammation is often linked with the progress and poor outcome of lung cancer. The understanding of the relationship between tumor-associated macrophages （TAMs） and lung cancer cells involves in the underlying mechanism of inflammatory cytokine production. Toll-like receptors （TLRs） are engaged in promoting the production of pro-inflammatory cytokines and play an important role in tumor immunology. Methods： To investigate the mechanisms by which TAMs influence the production of pro-inflammatory cytoldnes in lung cancer cells, we established an in vitro coculture system using TAMs and human non- small cell lung cancer （NSCLC） cell line SPC-A1. Levels of interleukin （IL）-113, IL-6 and IL-8 in SPC-A1 were evaluated by RT-PCR and cytometric bead array assay after being cocultured with TAMs. Expression changes of TLRs and TLRs signaling pathway proteins in SPC-Al were further confirmed by RT-PCR and western blot. The level changes of IL-1β, IL-6 and IL-8 in SPC-Al were also detected after the stimulation of TLRs agonists. Results： We found that the phenotype markers of TAMs were highly expressed after stimulating human monocyte cell line THP-1 by phorbol-12-myristate-β-acetate （PMA）. Higher mRNA and supernate secretion levels of IL-1β, IL-6 and IL-8 were detected in SPC-A1 after being eocultured with TAMs. We also found that TLR1, TLR6 and TLR7 were up-regulated in SPC-A1 in the coculture system with TAMs. Meanwhile, TLRs signaling pathway proteins were also significantly activated. Moreover, pre-treatment with agonist ligands for TLR1, TLR6 and TLR7 could dramatically promote inductions of IL-1β, IL-6 and IL-8. Conclusions： These findings demonstrated that TAMs may enhance IL-1β, IL-6 and IL-8 expressions via TLRs signaling pathway. We conclude that TAMs contribute to maintain the inflammation microenvironment and ultimately promote the development and progression of lung cancer.

Expression and Clinical Significance of Semaphorin4D in Non-small Cell Lung Cancer and Its Impact on Malignant Behaviors of A549 Lung Cancer Cells

This study aimed to explore Semaphrin4D（Sema4D） expression and clinical significance in non-small cell lung cancer（NSCLC）, and to define the roles and mechanisms of Sema4 D in regulating the malignant behaviors of A549 cells by small interfering RNA（siRNA）. Firstly, immunohistochemistry revealed that Sema4 D was more frequently expressed in NSCLC than in lung benign lesion（P〈0.05） and its overexprssion was associated with low differentiation（P〈0.05）, poor pTNM staging（P〈0.05） and occurrence of lymph node（LN） metastasis（P〈0.05）. Endogenous Sema4 D expression was suppressed by Sema4 D siRNA in A549 cells overexpressing Sema4 D. Protein levels of Sema4 D, total Akt and p-Akt were examined by Western blotting. Cell proliferation, migration and invasion abilities were measured by MTT assay and Transwell assay respectively. Results showed that Sema4 D siRNA significantly suppressed phosphorylation of AKT in A549 cells, but it did not alter total AKT expression. In addition, efficient down-regulation of SemaD significantly inhibit cell proliferation（P〈0.05）, migration（P〈0.05） and invasion（P〈0.05） in A549 cells. These findings suggest that Sema4 D might serve as a reliable tool for early prediction of NSCLC poor prognosis. Sema4 D could play an important role in promoting tumor proliferation, migration and metastasis in the NSCLC, by influencing the Akt protein phosphorylation. Inhibition of Sema4 D may be a useful approach for the treatment of NSCLC.

Effect of Antisense RNA Targeting Polo-like Kinase 1 on Cell Growth in A549 Lung Cancer Cells

In order to investigate the effect of Polo-like kinase-1 （Plk1） depletion on cell cycle progression and cell growth in lung cancer cells, a recombinant plasmid containing antisense RNA targeting Plk1 （pcDNA3-Plk1） was transfected into A549 cells by lipofectine. RT-PCR and Western-blot were used to detect the Plk1 gene expression. Cell proliferation was evaluated by direct cell counting and bromodeoxyuridine （BrdU） labeling. Cell cycle distribution and apoptosis were examined by flow cytometry, and the inhibition rate （IR） by vinorebline （NVB） was determined by MTF assay. The results showed that after transfection of pcDNA3-Plk1 into A549 cells, the expression levels of Plk1 mRNA and protein were greatly decreased. In pcDNA3-Plk1 transfected groups, abnormal morphological changes of cells and growth inhibition were observed, and the BrdU labeling index was significantly lower than in the control groups （P〈0.05）. Cells in pcDNA3-Plk1 transfected groups were arresed in G2/M phase and apoptosis was detectable 72 h post transfection. IR induced by vinorebline in pcDNA3-Plk1 transfected groups was significantly higher than in other groups. These data suggested that antisense RNA targeting Plk1 could suppress the Plk1 expression, and therefore, significantly inhibit cell proliferation and induce cell cycle arrest and apoptosis. Moreover, it sensitized lung cancer cells to chemotherapy.

Effect and molecular mechanism of mir-146a on proliferation of lung cancer cells by targeting and regulating MIF gene

Objective: To discuss the effect and molecular mechanism of mi R-146 a on the proliferation of lung cancer cells by targeting and regulating the macrophage migration inhibitory factor(MIF) gene. Methods: RT-PCR was employed to detect expression of mi R-146a; immunohistochemistry was used to detect the expression of MIF. The luciferase reporter gene technique was adopted to verify that MIF was the specific reverse target gene of mi R-146 a and the liposome LipofectamineTM2000 was employed to transfer the modeled mi R-146 a mimics, and mi R-146 a negative control(NC) in NSCLC cells to detect the expression of MIF m RNA and protein. MTT assay was used to detect cell viability, cloning technique to detect cell proliferation ability, Annexin V-PI to detect cell apoptosis, UV spectrophotometry to detect viability of cysteinyl aspartate specific proteinase 3(Caspase 3), and western blot to detect expression of nuclear factor-κB(NF-κB) in cells. Results: The expression of mi R-146 a in NSCLC lung tissues was lower than that in the normal lung tissues besides the lung cancer; while the expression of mi R-146 a in NSCLC cells was lower than that in normal human embryonic lung tissues. It was chosen as the subsequent cell line for its appropriate expression in A549. The expression of MIF protein in NSCLC lung tissues was higher than that in the normal lung tissues besides the lung cancer. The luciferase reporter gene proved that MIF was the reverse target gene of mi R-146 a. The mi R-146 a mimics were transfected into A549 cells through the liposome. Compared with NC group, the expression of MIF protein and m RNA was significantly decreased(P<0.01), with the decrease in the cell viability(P<0.01), the decrease in the number of clones(P<0.01), cell apoptosis(P<0.01), the increase in the activity of Caspase 3(P<0.01), and decrease in the phosphorylation of NF-κB p65(P<0.01). Conclusions: mi R-146 a has low expression in NSCLC tissues and cell lines, while MIF has the over expression in NSCLC tissues. The increased expression of mi R-146 a can inhibit the expression of MIF via the gene targeting and thus inhibit the proliferation of A549 cells and induce the apoptosis of cancer cells, which may be realized through NF-κB signaling pathway.

Cisplatin selects for CD133+cells in lung cancer cells

Objective Platinum-based chemotherapy is the first-line treatment for non-small cell lung cancer,but the chemoresistance of tumor cells continues to be a considerable challenge in the management of NSCLCs,leading to recurrence of most patients.CD133(prominin-1)is a five-transmembrane glycoprotein,and recent evidence suggests that CD133+cells are the cause of drug resistance and tumor recurrence.In this study,the correlation between cisplatin and CD133+cells was investigated systematically.Methods Four lung cancer cell lines,including A549,H460,801D and H1299,were treated with different concentrations of cisplatin.Cell viability was determined by MTT assay.Sphere-forming assay was performed to detect the capability of sphere-forming.CD133+cells was detected by BD FACScaliber flow cytometer.Results The results showed that cisplatin could increase the number of CD133+cells in both time-and dose-dependent manner.The enrichment would weaken but the proportion of CD133+cells was still higher than the basic level as incubation time extended after cisplatin was withdrawn.Compared with adherent culture,the proportion of CD133+cells was higher when the cells were maintained suspension culture.The proportion of CD133+cells significantly increased when cisplatin was provided in suspension culture.Conclusion These results revealed that cisplatin induces the enrichment of CD133+cells and CD133 is a new therapeutic target.Our data partially explained drug resistance to second-line chemotherapy in cisplatin-treated patients with NSCLCs.

Role of MetallothioneinlH in Cisplatin Resistance of Non-Small Cell Lung Cancer Cells

Objective： Despite platinum-based adjuvant chemotherapy has improved greatly patients＇ outcomes, drug resistance poses a major impediment to the successful use of such an effective agent. Metallothioneins（MTs） are known to play putative roles in cancer cell proliferation, apoptosis, differentiation, drug resistance and prognosis. The present studiy was to investigte the role of metallethioeinlH（MTIH） in cisplatin resistance of human non-small cell lung cancer（NSCLC） cell lines in vitro or its possible molecular mechanisms. Methods： MTIH mRNA expression in A549 and A549/DDP cells was detected by RT-PCR. A recombinant eukaryotic expression plasmid pcDNA3.1（-）-MT1H was constructed and transfected into A549 cells which express no MTIH. MT1H siRNA was transfected into A549/DDP cells which express MTIH highly. MTIH expression was detected by RT-PCR and Immunoblot. The chemosensitivity to cisplatin was assessed by MTT assay. Apoptosis rate was determined by Tunel and FCM. Bcl-2 and Bax were determined by immunohistochemistry. Results： MT1H mRNA was expressed in A549/DDP but not in A549. After transfection of MT1H, MT1H expression was enhanced and the chemosensitivity to cisplatin was decreased in A549 cells. Inversely, after transfection of MT1H siRNA, MT1H expression was decreased and the chemosensitivity to cisplatin was increased in A549/DDP. The apoptosis rate induced by cisplatin was increased and Bcl-2 was down-regulated but Bax showed little change in A549/DDP cells interferred with MT1H siRNA. Conclusion： MT1H overexpression can promote drug resistance in A549 cells . Down-regulation of MTIH interfered with siRNA can effectively reverses the drug resistance in A549/DDP cells by down-regulating the expression of Bcl-2 and increasing cisplatin induced apoptosis. SiRNA targeting MT1H combined with chemotherapy may be a very promising strategy for treatment of lung cancer.

Glycosylated and non-glycosylated quantum dot-displayed peptides trafficked indiscriminately inside lung cancer cells but discriminately sorted in normal lung cells: An indispensable part in nanoparticle-based intracellular drug delivery

Difference in sub-cellular trafficking of glycosylated and naked peptides, between normal and lung cancer cells, was established. Normal lung tissue discriminately sorted glycosylated from non-glycosylated peptides by allowing golgi localization of the glycosylated peptides while restricting golgi entry of the naked peptides. This mechanism was surprisingly not observed in its cancer cell counterpart. Lung cancer cells tend to allow unrestricted localization of both glycosylated and naked peptides in the golgi apparatus. This newly discovered difference in sub-cellular trafficking between normal and lung cancer cells could potentially be used as an effective strategy in targeted intracellular delivery, especially targeting golgi-resident enzymes for possible treatment of diseases associated with glycans and glycoproteins, such as, congenital disease of glycosylation(CDG). This very important detail in intracellular trafficking inside normal and cancer cells is an indispensable part in nanoparticle-based intracellular drug delivery.

The Expression Levels of KAI1 Gene and Its Mechanism in Human Lung Cancer Cell Lines

Background and Objective Lung cancer is one of the most malignant cancers which is hazarding the people’s health and life in the world. In the past half century, the incidence and mortality

Alterations in the Cytoskeleton and Biological Behavior in Human Lung Cancer Cell Line L9981 by Nm23-H1 gene Transfection

Objective and Methods The key cause of failure to cure and high mortality in lung cancer. At present, it has been known