Conjugates of folic acids with BSA-coated quantum dots for cancer cell targeting and imaging by single-photon and two-photon excitation

Bovine serum albumin (BSA)-coated CdTe/ZnS quantum dots (BSA–QDs) were selected to conjugate with folic acid (FA), forming FA–BSA–QDs. This study aims to develop these small FA–BSA–QDs (less than 10 nm) for the diagnosis of cancers in which the FA receptor (FR) is overexpressed. The enhancement of cellular uptake in FR-positive human nasopharyngeal carcinoma cells (KB cells) for FA–BSA–QDs was found by means of confocal fluorescence microscopy under single-photon and two-photon excitation. The uptake enhancement for FA–BSA–QDs was further evaluated by flow-cytometric analysis in 10⁴ KB cells, and was about 3 times higher than for BSA–QDs on average. The uptake enhancement was suppressed when KB cells had been pretreated with excess FA, reflecting that the enhancement was mediated by the association of FR at cell membranes with FA–BSA–QDs. When human embryonic kidney cells (293T) (FR-negative cells) and KB cells, respectively, were incubated with FA–BSA–QDs (1 μM) for 40 min, the FA–BSA–QD uptake by 293T cells was much weaker than that by KB cells, demonstrating that FA–BSA–QDs could undergo preferential binding on FR-positive cancer cells. These characteristics suggest that FA–BSA–QDs are potential candidates for cancer diagnosis.     

Synthesis of folic acid functionalized terbium‐doped dendritic fibrous nano‐silica and Interaction with HEK 293 normal,MDA breast cancer and HT 29 colon cancer cells

A novel folic acid functionalized terbium‐doped dendritic fibrous nanoparticle (Tb@KCC‐1‐NH₂‐FA) with high surface area was synthesized using a novel hydrothermal protocol. In the present work, we report the fluorescent Tb‐doted nanomaterial with emission wavelength at 497 nm which confirms the formation of Tb@KCC‐1‐NH₂‐FA. Synthesized nanoparticles were investigated through transmission electron microscope, field emission scanning electron Microscopy, Fourier transform infrared spectra, Brunauer‐Emmett‐Teller, energy dispersive X‐ray, Zeta potential and particle size distribution values and AFM (Atomic force microscopy) techniques. Specially, our desired nanomaterial which has FA moieties on the surface of Tb@KCC‐1‐NH2‐FA where interact with folate receptor (FR) which there is on the surface of the various cancer cells. For this purpose, fluorescence microscopy images were used to prove the uptake of FA based nanomaterial with FR‐positive MDA breast cancer and HT 29 colon cancer cells. Also HEK 293 normal cells as FR‐negative cells verified the specificity of our desired nanomaterial toward the FR‐positive cells. The cytotoxicity survey of Tb@KCC‐1‐NH₂‐FA was examined by MTT assays against MDA breast cancer, HT 29 colon cancer and HEK 293 Normal cell lines which confirmed their biocompatible nature with any significant cytotoxic effects even for concentration higher than 900 μg/mL which could be used as a non‐toxic catalyst or carrier in biological ambient. Hence, Tb@KCC‐1‐NH₂‐FA were synthesized using green and hydrothermal method; the process was simple with good productivity and desired nanocomposite was non‐toxic.     

Synthesis of 3-phenylpyrazolopyrimidine-1,2,3-triazole conjugates and evaluation of their Src kinase inhibitory and anticancer activities

A series of two classes of 3-phenylpyrazolopyrimidine-1,2,3-triazole conjugates were synthesized using click chemistry approach. All compounds were evaluated for inhibition of Src kinase and human ovarian adenocarcinoma (SK-Ov-3), breast carcinoma (MDA-MB-361), and colon adenocarcinoma (HT-29). Hexyl triazolyl-substituted 3-phenylpyrazolopyrimidine exhibited inhibition of Src kinase with an IC₅₀ value of 5.6 μM. 4-Methoxyphenyl triazolyl-substituted 3-phenylpyrazolopyrimidine inhibited the cell proliferation of HT-29 and SK-Ov-3 by 73% and 58%, respectively, at a concentration of 50 μM.     

Aminopeptidase N/CD13 targeting fluorescent probes: synthesis and application to tumor cell imaging

A family of fluorescein-peptide conjugates (CNP1-3) for aminopeptidase N (APN/CD13) targeting fluorescent probes were designed and synthesized. Among the three conjugates, CNP1 bearing tumor-homing cyclic peptide CNGRC, could selectively label APN/CD13 over-expressing on the surface of tumor cells of HT-1080, as identified by means of fluorescent microscopic cell imaging. CNP1 was shown to be a promising fluorescent probe applicable to tumor-targeting molecular imaging.     

Fluorescent-Antibody Targeting of Insulin-Like Growth Factor-1 Receptor Visualizes Metastatic Human Colon Cancer in Orthotopic Mouse Models

Fluorescent-antibody targeting of metastatic cancer has been demonstrated by our laboratory to enable tumor visualization and effective fluorescence-guided surgery. The goal of the present study was to determine whether insulin-like growth factor-1 receptor (IGF-1R) antibodies, conjugated with bright fluorophores, could enable visualization of metastatic colon cancer in orthotopic nude mouse models. IGF-1R antibody (clone 24–31) was conjugated with 550 nm, 650 nm or PEGylated 650 nm fluorophores. Subcutaneous, orthotopic, and liver metastasis models of colon cancer in nude mice were targeted with the fluorescent IGF-1R antibodies. Western blotting confirmed the expression of IGF-1R in HT-29 and HCT 116 human colon cancer cell lines, both expressing green fluorescent protein (GFP). Labeling with fluorophore-conjugated IGF-1R antibody demonstrated fluorescent foci on the membrane of colon cancer cells. Subcutaneously- and orthotopically-transplanted HT-29-GFP and HCT 116-GFP tumors brightly fluoresced at the longer wavelengths after intravenous administration of fluorescent IGF-1R antibodies. Orthotopically-transplanted HCT 116-GFP tumors were brightly labeled by fluorescent IGF-1R antibodies such that they could be imaged non-invasively at the longer wavelengths. In an experimental liver metastasis model, IGF-1R antibodies conjugated with PEGylated 650 nm fluorophores selectively highlighted the liver metastases, which could then be non-invasively imaged. The IGF-1R fluorescent-antibody labeled liver metastases were very bright compared to the normal liver and the fluorescent-antibody label co-located with green fluorescent protein (GFP) expression of the colon cancer cells. The present study thus demonstrates that fluorophore-conjugated IGF-1R antibodies selectively visualize metastatic colon cancer and have clinical potential for improved diagnosis and fluorescence-guided surgery.     

miR-223在结肠癌组织中的表达及促进结肠癌细胞迁移侵袭的机制研究

目的:探讨微小RNA-223 (mi R-223)在结肠癌组织中的表达及对结肠癌HT-29细胞侵袭、迁移能力的影响及机制。方法:检测mi R-223在结肠癌组织与癌旁组织中的表达。通过脂质体转染法将mi R-223模拟物(mi R-223 mimics,mi R-223 mimics组)及microRNA无关序列(mi R-223 NC,NC组)转染入结肠癌HT-29细胞。采用Real-time PCR检测转染后细胞中mi R-223和TWIST的表达,Western blot检测TWIST的蛋白表达,Tranwell检测细胞的迁移与侵袭能力。双荧光素酶报告基因检测mi R-223对TWIST基因启动子活性的影响。采用Transwell迁移与侵袭实验检测mi R-223 mimic及Twist si RNA共转染后人结肠癌细胞系HT-29迁移与侵袭能力的变化。结果:与癌旁结肠组织比较,mi R-223在结肠癌组织中呈现明显高表达(P0.05);与空白对照组和mi R-223 NC组比较,转染mi R-223 mimics后的HT-29细胞中的mi R-223表达显著增加(P0.05)。与阴性对照组和空载转染组相比较,mi R-223 mimics转染组穿透的细胞数目明显增加(P0.05),且mi R-223 mimics转染组的细胞侵袭能力显著增强(P0.05)。与mi R-223 NC组和空白对照组比较,转染mi R-223 mimics的HT-29细胞的TWIST基因m RNA和蛋白表达均显著增加(P0.05)。双荧光素酶检验结果显示TWIST为mi R-223的下游靶基因。共转染TWIST si RNA和mi R-223 mimics的结肠癌HT-29细胞的迁移与侵袭能力较单独转染mi R-223 mimics的HT-29细胞显著减弱(P0.05)。结论:mi R-223可能通过上调下游靶基因TWIST水平促进结肠癌HT-29细胞的迁移与侵袭。     

Conjugating folic acid to gold nanoparticles through glutathione for targeting and detecting cancer cells

Gold nanoparticles (GNPs) were modified with glutathione (GSH) to form GSH-capped GNPs, which have carboxyl groups on the surface of these nanoparticles. Then folic acid (FA) was conjugated with GNPs through the reaction between amino group of FA and carboxyl group of GSH. These folic acid-conjugated nanoparticles (FA-GSH-GNPs) were stable in aqueous solution over a broad range of pH and ionic strength values. The targeting of FA-GSH-GNPs in human cervices carcinoma cells (HeLa cells) with high-level folate receptor expression was confirmed by transmission electron microscopy (TEM) and confocal laser scanning microscopy (CLSM). No cellular uptake of these nanoparticles was observed in A549 cells lack of folate receptor. HeLa cells and mouse fibroblasts incubated with FA-GSH-GNPs were assayed by measuring the relative absorbance of the supernatant collected at low-speed centrifugation. Based on this simple spectroscopic method, HeLa cells have been detected with a detection limit of 10² cells/mL.     

Synthesis of benzo[d]imidazo[2,1-b]thiazole-chalcone conjugates as microtubule targeting and apoptosis inducing agents

A series of benzo[d]imidazo[2,1-b]thiazole-chalcone conjugates (5a-aa) were designed, synthesized and evaluated for their cytotoxic potency against a panel of human cancer cell lines like lung (A-549), breast (MDA MB-231), prostrate (DU-145) and colon cancer (HT-29). Preliminary results revealed that some of these conjugates like 5d and 5u exhibited significant antiproliferative effect against human breast cancer (MDA MB-231) with IC₅₀ values of 1.3 and 1.2 µM respectively. To investigate the mechanistic aspects underlying the activity, the detailed biological studies of these promising conjugates (5d and 5u) were carried out on the MDA MB-231 cancer cells. Flow cytometric analysis revealed that these conjugates induce cell-cycle arrest in the G2/M phase. The tubulin polymerization assay suggests that these conjugates effectively inhibit microtubule assembly. In addition, morphological changes, reactive oxygen species (ROS) detection by 2′, 7′–dichlorofluorescin diacetate (DCFDA) and annexin V–FITC/PI assays indicate that 5d and 5u induces apoptosis. Furthermore, in silico computational studies, including molecular docking studies have been carried out to rationalise the binding modes of these conjugates with the tubulin protein.     

Folate receptor-targeted multimodal fluorescence mesosilica nanoparticles for imaging,delivery palladium complex and in vitro G-quadruplex DNA interaction

New folic acid-conjugated mesoporous silica nanoparticles were synthesized. The effect of calcination at 400°C on the fluorescence characteristics of mesoporous silica nanoparticles were studied in this work. The formed carbon dots (CDs) from calcination were used as the source of fluorescence. 3-Aminopropyltriethoxysilane was then used to amine-functionalized the fluorescent surface of mesoporous silica nanoparticles. The amine fluorescence mesoporous silica nanoparticles (amine-FMSNs) were coupled with folic acid (FA) as the target ligand (FA-amine-FMSNs). A palladium complex was also synthesized and encapsulated in the FA-amine-FMSNs yielded fluorescent property with therapeutic effect. The in vitro release of an entrapped palladium complex from FA-amine-FMSNs was studied under physiological conditions. According to the cell viability assay on HeLa (positive FR) and Hep-G2 (negative FR) cells, the targeted delivery system inhibited the growth of positive FR with higher selectivity compared with negative FR cells. Also, the emission CDs were used for fluorescence microscopic imaging. To confirm anti-cancer activity of the palladium complex, the interaction between palladium complex and G-quadruplex DNA were investigated with multi-spectroscopic methods and molecular modeling. The molecular docking studies showed a partial intercalation mode with a 4.27 × 10⁵ M^?1 binding constant.     

Biological studies of synthesized silver nanoparticles using <Emphasis Type="Italic">Prosopis farcta</Emphasis>

The evaluation of cytotoxic and apoptotic activities of silver nanoparticles (Ag-NPs) synthesized by aqueous extract of Prosopis farcta was investigated against lung (A549) and colon (HT-29) cell lines. The cytotoxic activity of nanoparticles was performed using MTT assay, while their apoptotic activity was tested using TUNEL method. The obtained results of MTT showed that the cell viability of A549 was dependent on the nanoparticles concentration and incubation time. Therefore, although the cytotoxic effect increased as the Ag-NPs concentration and incubation time heightened, yet the viability of HT-29 cells seems to be dependent only on the incubation time. The apoptotic results of the nanoparticles showed more than 50% of apoptosis on A549 and HT-29 cell lines, which in this case, HT-29 demonstrated 100% apoptosis at concentrations of more than 400 µg/ml. It seems that Ag-NPs synthesized using P. farcta extract can serve as anti-cancer agent in the treatment many cancers through creating or discovering new drug forms.     

Identification of Neonatal White Matter on DTI: Influence of More Inclusive Thresholds for Atlas Segmentation

Purpose

Semi-automated diffusion tensor imaging (DTI) analysis of white matter (WM) microstructure offers a clinically feasible technique to assess neonatal brain development and provide early prognosis, but is limited by variable methods and insufficient evidence regarding optimal parameters. The purpose of this research was to investigate the influence of threshold values on semi-automated, atlas-based brain segmentation in very-low-birth-weight (VLBW) preterm infants at near-term age.

Materials and Methods

DTI scans were analyzed from 45 VLBW preterm neonates at near-term-age with no brain abnormalities evident on MRI. Brain regions were selected with a neonatal brain atlas and threshold values: trace <0.006 mm²/s, fractional anisotropy (FA)>0.15, FA>0.20, and FA>0.25. Relative regional volumes, FA, axial diffusivity (AD), and radial diffusivity (RD) were compared for twelve WM regions.

Results

Near-term brain regions demonstrated differential effects from segmentation with the three FA thresholds. Regional DTI values and volumes selected in the PLIC, CereP, and RLC varied the least with the application of different FA thresholds. Overall, application of higher FA thresholds significantly reduced brain region volume selected, increased variability, and resulted in higher FA and lower RD values. The lower threshold FA>0.15 selected 78±21% of original volumes segmented by the atlas, compared to 38±12% using threshold FA>0.25.

Conclusion

Results indicate substantial and differential effects of atlas-based DTI threshold parameters on regional volume and diffusion scalars. A lower, more inclusive FA threshold than typically applied for adults is suggested for consistent analysis of WM regions in neonates.     

Bifunctional PAMAM dendrimer conjugates of folic acid and methotrexate with defined ratio

Our group previously developed a multifunctional, targeted cancer therapeutic based on Generation 5 (G5) polyamidoamine (PAMAM) dendrimers. In those studies we conjugated the targeting molecule folic acid (FA) and the chemotherapeutic drug methotrexate (MTX) sequentially. This complex macromolecule was shown to selectively bind and kill KB tumor cells that overexpress folate receptor (FR) in vitro and in vivo. However, the multistep conjugation strategy employed in the synthesis of the molecule resulted in heterogeneous populations having differing numbers and ratios of the functionally antagonistic FA and MTX. This led to inconsistent and sometimes biologically inactive batches of molecules, especially during large-scale synthesis. We here resolved this issue by using a novel triazine scaffold approach that reduces the number of dendrimer conjugation steps required and allows for the synthesis of G5 conjugates with defined ratios of FA and MTX. Although an unoccupied γ-glutamyl carboxylate of FA has been previously suggested to be nonessential for FR binding, the functional requirement of an open α-carboxylate still remains unclear. In an attempt to also address this question, we have synthesized isomeric FA dendrimer conjugates (α-carboxyl or γ-carboxyl linked). Competitive binding studies revealed that both linkages have virtually identical affinity toward FR on KB cells. Our studies show that a novel bifunctional triazine-based conjugate G5-Triazine-γMTX-αFA with identical numbers of FA and MTX binds to FR through a polyvalent interaction and induces cytotoxicity in KB cells through FR-mediated cellular internalization, inducing higher toxicity as compared to conjugates synthesized by the multistep strategy. This work serves as a proof of concept for the development of bifunctional dendrimer conjugates that require a defined ratio of two functional molecules.     

Alterations in dysadherin expression and F-actin reorganization: a possible mechanism of hypericin-mediated photodynamic therapy in colon adenocarcinoma cells

Dysadherin is a recently found anti-adhesion molecule, therefore detection and down regulation of its expression is promising in cancer treatment. The up-regulation of dysadherin contributes to colon cancer recurrence and metastasis. Dysadherin also has connections with cytoskeletal proteins and it can cause alterations in the organisation of filamentous actin (F-actin) in metastatic cancers. In this study, hypericin (HYP)-mediated photodynamic therapy (PDT) was performed in two different grade colon adenocarcinoma cell lines HT-29 (Grade I) and Caco-2 (Grade II). Cells were treated with 0.04, 0.08 or 0.15 μM HYP concentrations and irradiated with (4 J/cm²) fluorescent lamps. The effects of HYP was examined 16 and 24 h after the activation. We investigated for the first time the effect of HYP-mediated PDT on the expression of dysadherin and F-actin organisation. According to the results, HYP mediated PDT caused a decrease in gene expression and immunofluorescence staining of dysadherin and an increase in actin stress fibers and actin aggregates in HT-29 and Caco-2 cell lines. Besides, cytotoxicity, number of floating cells and apoptotic index changed depending on the cell type, HYP concentration and incubation time. We have demonstrated for the first time that dysadherin and F-actin could be target molecules for HYP-mediated PDT in HT-29 and Caco-2 colon cancer cell lines.     

Conjugation with polyamines enhances the antibacterial and anticancer activity of chloramphenicol

Chloramphenicol (CAM) is a broad-spectrum antibiotic, limited to occasional only use in developed countries because of its potential toxicity. To explore the influence of polyamines on the uptake and activity of CAM into cells, a series of polyamine–CAM conjugates were synthesized. Both polyamine architecture and the position of CAM-scaffold substitution were crucial in augmenting the antibacterial and anticancer potency of the synthesized conjugates. Compounds 4 and 5, prepared by replacement of dichloro-acetyl group of CAM with succinic acid attached to N4 and N1 positions of N⁸,N⁸-dibenzylspermidine, respectively, exhibited higher activity than CAM in inhibiting the puromycin reaction in a bacterial cell-free system. Kinetic and footprinting analysis revealed that whereas the CAM-scaffold preserved its role in competing with the binding of aminoacyl-tRNA 3′-terminus to ribosomal A-site, the polyamine-tail could interfere with the rotatory motion of aminoacyl-tRNA 3′-terminus toward the P-site. Compared to CAM, compounds 4 and 5 exhibited comparable or improved antibacterial activity, particularly against CAM-resistant strains. Compound 4 also possessed enhanced toxicity against human cancer cells, and lower toxicity against healthy human cells. Thus, the designed conjugates proved to be suitable tools in investigating the ribosomal catalytic center plasticity and some of them exhibited greater efficacy than CAM itself.     

Liposomes containing alkylated methotrexate analogues for phospholipase A2 mediated tumor targeted drug delivery

Two lipophilic methotrexate analogues have been synthesized and evaluated for cytotoxicity against KATO III and HT-29 human colon cancer cells. Both analogues contained a C₁₆-alkyl chain attached to the γ-carboxylic acid and one of the analogues had an additional benzyl group attached to the α-carboxylic acid. The cytotoxicity of the γ-alkylated compound towards KATO III (IC₅₀ = 55 nM) and HT-29 (IC₅₀ = 400 nM) cell lines, was unaffected by the alkylation, whereas the additional benzyl group on the α-carboxyl group made the compound nontoxic. The γ-derivative with promising cytotoxicity was incorporated into liposomes that were designed to be particularly susceptible to a liposome degrading enzyme, secretory phospholipase A₂ (sPLA₂), which is found in high concentrations in tumors of several different cancer types. Liposome incorporation was investigated by differential scanning calorimetry (DSC), and sPLA₂ hydrolysis was examined by fluorescence spectroscopy and high performance liquid chromatography (HPLC). The results showed that the methotrexate (MTX)-analogue could be incorporated into liposomes that were degradable by sPLA₂. However, the in vitro cytotoxicity of the MTX-liposomes against KATO III and HT-29 cancer cells was found to be independent of sPLA₂ hydrolysis, indicating that the alkylated MTX-analogue was available for cancer cell uptake even in the absence of liposome hydrolysis. Using a DSC based method for assessing the anchoring stability of alkylated compounds in liposomes, it was demonstrated that the MTX-analogue partitioned into the water phase and thereby became available for cell uptake. It was concluded that liposomes containing alkylated MTX-analogues show promise as a drug delivery system, although the MTX-analogue needs to be more tightly anchored to the liposomal carrier. Also, the developed DSC-assay for studying the anchoring stability of alkylated drugs will be a useful tool in the development of liposomal drug delivery systems.     

Gene network analysis of oxaliplatin-resistant colorectal cancer to target a crucial gene using chitosan/hyaluronic acid/protamine polyplexes containing CRISPR-Cas9

Colorectal cancer (CRC) treatment is dramatically hampered by resistance to oxaliplatin alone or in the combination of irinotecan or 5-fluorouracil and leucovorin. This study aims to design and assess Chitosan/Hyaluronic Acid/Protamine sulfate (CS/HA/PS) polyplexes loaded with CRISPR plasmid for targeting a key gene in cancer drug resistance. Here, recent findings were considered to validate oxaliplatin-resistant CRC-related genes and systems biology approaches employed to detect the critical gene. The polyplexes were characterized according to particle size, zeta potential, and stability. Moreover, carrier toxicity and transfection efficiency were assessed on oxaliplatin-resistant HT-29 cells. The post-transfection evaluations were performed to confirm gene disruption-mediated CRISPR. Eventually, excision cross complementation group 1(ERCC1), a crucial member of the nucleotide excision repair pathway, was selected to be targeted using CRISPR/Cas9 to reverse oxaliplatin resistance in HT-29 cells. CS/HA/PS polyplexes containing CRISPR/Cas9 plasmid exhibited negligible toxicity and comparable transfection efficiency with Lipofectamine™. Following the efficient gene delivery, sequences in CRISPR/Cas9 target sites were altered, ERCC1 was downregulated, and drug sensitivity was successfully restored in oxaliplatin-resistant cells. Findings indicate that CS/HA/PS/CRISPR polyplexes provide a potential strategy for delivering cargo and targeting oxaliplatin resistance-related gene to manipulate drug resistance as a rising concern in cancer therapeutic approaches.     

Correcting for allometry in studies of fluctuating asymmetry and quality within samples

Fluctuating asymmetry (FA) refers to deviations from perfect symmetry in a bilateral character and is believed to reflect an organism''s quality. However, allometric relations between asymmetry and trait size may confound FA–quality relations. Larger traits may have more ''opportunity'' to become asymmetric. Thus, researchers suggest that if allometric relations between FA and size are found, some correction for size is needed (typically FA scaled by size). I used a simulation model to examine potential consequences of allometry for detection of FA–quality relations within samples and examined efficacy of rules currently used to correct for size. Consequences of allometry can be severe, causing up to 77% type I errors or 98% power loss when true FA–quality relations exist (when FA–size relations are isometric), depending upon the strength and direction of size–quality relations. I illustrate why current rules to correct for size are inefficient and suggest alternative rules. Problems of allometry that require further attention are discussed.     

Molecular and functional characterization of choline transporter in human colon carcinoma HT-29 cells

We examined the molecular and functional characterization of choline uptake in human colon carcinomas using the cell line HT-29. Furthermore, we explored the possible correlation between choline uptake and cell proliferation. Choline uptake was saturable and mediated by a single transport system. Interestingly, removal of Na⁺ from the uptake buffer strongly enhanced choline uptake. This increase in component of choline uptake under Na⁺-free conditions was inhibited by a Na⁺/H⁺ exchanger 1 (NHE1) inhibitor. Collapse of the plasma-membrane H⁺ electrochemical gradient by a protonophore inhibited choline uptake. Choline uptake was inhibited by the choline analogue hemicholinium-3 (HC-3) and various organic cations, and was significantly decreased by acidification of the extracellular medium and by intracellular alkalinization. Real-time PCR revealed that choline transporter-like protein 1 (CTL1), CTL2, CTL4 and NHE1 mRNA are mainly expressed in HT-29 cells. Western blot and immunocytochemical analysis indicated that CTL1 protein was expressed in plasma membrane. The biochemical and pharmacological data indicated that CTL1 is functionally expressed in HT-29 cells and is responsible for choline uptake in these cells. We conclude that choline transporters, especially CTL1, use a directed H⁺ gradient as a driving force, and its transport functions in co-operation with NHE1. Finally, cell proliferation was inhibited by HC-3 and tetrahexylammonium chloride (THA), which strongly inhibits choline uptake. Identification of this novel CTL1-mediated choline uptake system provides a potential new target for therapeutic intervention.     

激活FXR抑制结肠癌细胞浸润转移及MMP-7的表达

目的:探讨法尼酯X受体(FXR)特异性激动剂GW4064抑制结肠癌细胞浸润转移的机制。方法:在体外培养人结肠癌细胞HT-29,应用GW4064作用于结肠癌细胞,以四唑氮蓝还原法(MTT)检测细胞活性的变化。用transwell小室研究结肠癌细胞的迁移及浸润。用RT-PCR检测FXRm RNA及MMP-7mRNA表达的变化,用western blot检测FXR及MMP-7蛋白表达的变化。结果:MTT结果显示GW4064作用于人结直肠HT-29细胞的生长抑制率呈浓度依赖性;transwell小室结果显示GW4064抑制结肠癌细胞的浸润转移,与对照组相比,差异具有统计学意义(P0.05),RT-PCR及Western blot显示GW4064促进FXR m RNA及蛋白表达,抑制MMP-7mRNA及蛋白的表达,与对照组相比差异有统计学意义(P0.05)。结论:GW4064抑制结肠癌细胞的生长及转移,上调HT-29细胞FXR m RNA及蛋白的表达,下调HT-29细胞MMP-7 m RNA及蛋白的表达。FXR被激活后抑制结肠癌细胞转移,MMP-7可能是其作用通路之一。     

Design and multi-step synthesis of chalcone-polyamine conjugates as potent antiproliferative agents

The aim of this study is to synthesize chalcone-polyamine conjugates in order to enhance bioavailability and selectivity of chalcone core towards cancer cells, using polyamine-based vectors. 3-hydroxy-3′,4,4′,5′-tetramethoxychalcone (1) and 3′,4,4′,5′-tetramethoxychalcone (2) were selected as parent chalcones since they were found to be efficient anti-proliferative agents on various cancer cells. A series of ten chalcone-polyamine conjugates was obtained by reacting carboxychalcones with different polyamine tails. Chalcones 1 and 2 showed a strong cytotoxic activity against two prostatic cancer (PC-3 and DU-145) and two colorectal cancer (HT-29 and HCT-116) cell lines. Then, chalcone-spermine conjugates 7d and 8d were shown to be the most active of the series and could be considered as promising compounds for colon and prostatic cancer adjuvant therapy.