Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0006142 (breast cancer)
 160,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Layer-by-layer self-assembled polyelectrolyte shells are a new class of micro/nanocapsules with unique physicochemical properties for potential applications in drug/gene delivery. The objective of this study was to investigate the interactions of polyelectrolyte shells ( approximately 1 mum in diameter) with MCF-7 breast cancer cells and identify key parameters that affect such interactions. Tailoring of surface properties of polyelectrolyte shells was achieved by choosing different outermost layer materials, including cationic polymers, anionic polymers, and lipid bilayers. Different surface compositions led to a wide range of electrostatic potentials from -46 to +47 mV in phophate-buffered saline buffer. Confocal microscopy studies showed that the polyelectrolyte shells were internalized into the cell cytoplasm, but not into the nuclei. Correlation of cell uptake with shell surface compositions was complicated by the adsorption of serum proteins on the surface of polyelectrolyte shells, particularly polycation-coated shells. To prevent protein adsorption, poly(ethylene glycol) (PEG) grafted poly(ethyleneimine) (PEI) copolymers (1:1, 1:5, 1:10 graft ratios) were synthesized and introduced on the shell surface. Shells coated with PEI-PEG copolymers effectively reduced protein adsorption whereas PEI-PEG copolymers with lower graft ratios achieved higher cell uptake efficiency after 24 h of incubation with MCF-7 cells.
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PMID:Interactions between self-assembled polyelectrolyte shells and tumor cells. 1580 65

Limitations of current viral-based gene therapies for malignant tumors include lack of cancer-specific targeting and insufficient tumor delivery. To ameliorate these problems and develop a truly effective adenovirus gene-based therapy for cancer, we constructed a conditionally replication competent adenovirus (CRCA) manifesting the unique properties of tumor-specific virus replication in combination with production of a cancer-selective cytotoxic cytokine, melanoma differentiation associated gene-7/interleukin-24 (mda-7/IL-24), which embodies potent bystander antitumor activity. Cancer cell selective tropism was ensured by engineering the expression of the adenoviral E1A protein, necessary for viral replication, under the control of a minimal promoter region of progression elevated gene-3 (PEG-3), which functions selectively in diverse cancer cells with minimal activity in normal cells. In the E3 region of this CRCA, we introduced the mda-7/IL-24 gene, thereby mediating robust production of this cytokine as a function of adenovirus replication. Infection of this CRCA (designated Ad.PEG-E1A-mda-7) in normal mammary epithelial cells and breast cancer cells confirmed cancer cell selective adenoviral replication, mda-7/IL-24 expression, growth inhibition, and apoptosis induction. Injecting Ad.PEG-E1A-mda-7 into human breast cancer xenografts in athymic nude mice completely eradicated not only the primary tumor but also distant tumors (established on the opposite flank of the animal) thereby implementing a cure. This dual cancer-specific targeting strategy provides an effective approach for treating breast and other human neoplasms with the potential for eradicating both primary tumors and metastatic disease. Additionally, these studies support the potential use of mda-7/IL-24 in the therapy of malignant cancers.
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PMID:Dual cancer-specific targeting strategy cures primary and distant breast carcinomas in nude mice. 1617 3

We describe the assembly of a cationic lipid-nucleic acid nanoparticle from a liquid monophase containing water and a water miscible organic solvent where both lipid and DNA components are separately soluble prior to their combination. Upon removal of the organic solvent, stable and homogenously sized (70-100 nm) lipid-nucleic acid nanoparticles (Genospheres) were formed. The low accessibility (<15%) of the nanoparticle-encapsulated DNA to a DNA intercalating dye indicated well-protected nucleic acids and high DNA incorporation efficiencies. It was demonstrated that Genospheres could be stably stored under a variety of conditions including a lyophilized state where no appreciable increase in particle size or DNA accessibility was observed following reconstitution. Finally, Genospheres were made target-specific by insertion of an antibody-lipopolymer (anti-HER2 scFv (F5)-PEG-DSPE) conjugate into the particle. The target specificity (>100-fold) in HER2 overexpressing SK-BR-3 breast cancer cells was dependent on the degree of PEGylation, where the incorporation of high amounts of PEG-lipid on the particle surface (up to 5 mol%) had only a minor effect on the transfection activity of the targeted Genospheres. In summary, this work describes a novel, readily scalable method for preparing highly stable immunotargeted nucleic acid delivery vehicles capable of achieving a high degree of specific transfection activity.
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PMID:Genospheres: self-assembling nucleic acid-lipid nanoparticles suitable for targeted gene delivery. 1634 Oct 56

Epidermal growth factor (EGF)-conjugated copolymer micelles were prepared from a mixture of diblock copolymers of methoxy poly(ethylene glycol)-block-poly(delta-valerolactone) (MePEG-b-PVL) and EGF-PEG-b-PVL for targeted delivery to EGF receptor (EGFR)-overexpressing cancers. The block copolymers and functionalized block copolymers were synthesized using PEG as the macroinitiator and HCl-diethyl ether as the catalyst. The MePEG-b-PVL and the carboxyl-terminated PEG-b-PVL (HOOC-PEG-b-PVL) copolymers were found to have molecular weights of 5940 and 5900, respectively, as determined by gel permeation chromatography (GPC) analyses. The HOOC-PEG-b-PVL copolymers were then activated by N-hydroxysuccinimide and subsequently reacted with EGF to form the EGF-PEG-b-PVL copolymers. The efficiency for the conjugation of EGF to the copolymer was found to be 60.9%. A hydrophobic fluorescent probe, CM-DiI, was loaded into both the nontargeted MePEG-b-PVL micelles and the targeted EGF-conjugated PEG-b-PVL micelles. The effective mean diameters of the CMDiI-loaded nontargeted and the CMDiI-loaded targeted micelles were found to be 32 +/- 1 nm and 45 +/- 2 nm, respectively, as determined by dynamic light scattering (DLS). The zeta potentials for the nontargeted micelles (no CM-DiI-loaded), CM-DiI-loaded nontargeted micelles, and CM-DiI-loaded targeted micelles were found to be -6.5, -8.7, and - 13.5 mV, respectively. Evaluation of the in vitro release of CM-DiI from the MePEG-b-PVL micelles in phosphate buffer saline (0.01 M, pH = 7.4) containing 10% (v/v) fetal bovine serum at 37 degrees C revealed that approximately 20% of the probe was released within the first 2 h. Confocal laser scanning microscopy (CLSM) analysis revealed that the targeted micelles containing CM-DiI accumulated intracellularly in EGFR-overexpressing MDA-MB-468 breast cancer cells following a 2 h incubation period, while no detectable cell uptake was observed for the nontargeted micelles. Results obtained from the confocal images were confirmed in an independent study by measuring the intracellular CM-DiI fluorescence in cell lysate. In addition, the presence of free EGF was found to decrease the extent of uptake of the targeted micelles. Nuclear staining of the cells with Hoechst 33258 indicated that the targeted micelles mainly localized in the perinuclear region and some of the micelles were localized in the nucleus. These results demonstrate that the EGF-conjugated copolymer micelles developed in this study have potential as vehicles for targeting hydrophobic drugs to EGFR-overexpressing cancers.
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PMID:Epidermal growth factor-conjugated poly(ethylene glycol)-block- poly(delta-valerolactone) copolymer micelles for targeted delivery of chemotherapeutics. 1653 72

A solvent and Cremephor free formulation of the anticancer chemotherapeutic geldanamycin was prepared using amphiphilic block co-polymer micelles of poly(ethylene glycol)-b-poly(epsilon-caprolactone) (PEG-b-PCL). Although geldanamycin was not solubilized by PEG-b-PCL micelles, fatty acid prodrugs of geldanamycin were encapsulated in PEG-b-PCL micelles by a co-solvent extraction technique. Resulting PEG-b-PCL micelles were <120 nm in diameter and solubilized >20% w/w geldanamycin prodrugs increasing aqueous solubility to >2 mg/mL. PEG-b-PCL micelles released the geldanamycin prodrugs over several days, t(1/2) 2.2 to 9.6 days. The free prodrugs hydrolyzed rapidly, t(1/2)<6 h, into the geldanamycin analogue 17-beta-hydroxyethylamino-17-demethoxygeldanamycin, which has high activity against MCF-7 breast cancer cells, IC(50) 240 nM.
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PMID:Lipophilic prodrugs of Hsp90 inhibitor geldanamycin for nanoencapsulation in poly(ethylene glycol)-b-poly(epsilon-caprolactone) micelles. 1692 59

Anti-oestrogens (AEs) are currently used for treating hormone-dependent breast cancers. They specifically bind to oestrogen receptors (ERs) and inhibit their transactivation capacity. However, ERs are present in various other tissues in which AEs may have either a beneficial or detrimental action. AE administration via systems targeting breast tumours may be an important therapeutic improvement. Thus, several biodegradable drug delivery systems containing either "mixed" (4-hydroxytamoxifen - 4-HT) or "pure" (RU 58668 - RU) AEs were prepared. Liposomes and nanospheres (NS, composed of non-toxic and biodegradable lipids and poly(d,l-lactic acid) incorporated up to 1 and 0.5 mM AE, respectively. Nanocapsules (NCs) in which an oily core solubilises the AE incorporated no more than 0.02 mM of the drug. PEG-functionalised nanoparticles survived longer in plasma and had better controlled release of the drug. The small size of the vectors (100-250 nm) was compatible with their extravasation through the discontinuous endothelium of tumour vasculature, allowing their accumulation in MCF-7 cell xenografts and leading to a prolonged exposure of the tumour to AEs. In these tumours and in MCF-7/ras xenografts, RU-NS and RU-NC (6.5mg/kg/week and 0.27 mg/kg/week, respectively, doses at which free RU had a very weak effect), both inhibited tumour growth. Entrapped RU significantly induced involution of tumours and strongly induced apoptosis in tumour cells, concomitantly with inhibiting tumour angiogenesis. 4-HT-nanoparticles also arrest oestradiol-induced tumour growth, inducing apoptosis and inhibiting angiogenesis. However, unlike RU-nanoparticles, they did not promote ERalpha subtype loss in tumour cells. Subcutaneous administration of both RU- and 4-HT-NS in MCF-7 xenografts strongly arrested tumour growth for prolonged periods and RUNS decreased the number of tumour epithelial cells. Analysis of the proteins involved in cell cycle proliferation and apoptosis confirmed that RU-nanoparticles were more efficient than 4-HT-nanoparticles. Their lack of toxicity and high anti-tumour potency that affects only tumour cells in the xenograft models mean these AE-loaded colloidal systems are a breakthrough in hormone-dependent breast cancer treatment.
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PMID:Improved anti-tumoral capacity of mixed and pure anti-oestrogens in breast cancer cell xenografts after their administration by entrapment in colloidal nanosystems. 1705 51

Genospheres are cationic lipid-nucleic acid nanoparticles prepared by the assembly of the lipids and nucleic acids from an aqueous/organic liquid monophase that independently dissolves the components, where the resultant particles are homogeneously sized (70-110 nm), with efficiently incorporated and protected DNA. In the present study, we demonstrate pH-dependent modulation of the Genosphere surface charge using pH-titratable lipids. By incorporation of the lipids with titratable anionic or imidazole headgroups, Genospheres with neutral or anionic surface charge at neutral pH were produced and compared for cellular uptake and transfection of a reporter gene (luciferase) in culture of breast cancer cells. The extent of particle-cell association was also studied by fluorescent microscopy and quantified by cytofluorometery. The effects of Genosphere surface modification with poly(ethylene glycol) (molecular weight 2000) at low (0.5 mol %) and high (5 mol %) grafting densities, as well as the effects of HER2-receptor-directed targeting by an internalizable anti-HER2 scFv F5, linked via PEG spacer, were also studied. Inclusion in the Genosphere formulation of pH-titratable lipids CHEMS (cholesteryl hemisuccinate), CHIM (1-(3-(cholesteryloxycarbonylamino)propyl)imidazole), or DSGG (1,2-distearoyl-sn-glycero-3-hemiglutarate) rendered the particles surface-charge neutral or slightly anionic at neutral pH, and cationic at mildly acidic pH, as shown by zeta-potential measurements. In HER2-targeted systems, transfection activity and target specificity with HER2-overexpressing SKBR-3 breast cancer cells were dependent on Genosphere surface charge and PEGylation. The highest target specificity correlated with low cationic charge at neutral pH, while incorporation of 5 mol % PEG-lipid had only minor effects on Genosphere-cell association, internalization, and transfection activity. The implications of this work for potential in vivo applications are discussed.
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PMID:Increased target specificity of anti-HER2 genospheres by modification of surface charge and degree of PEGylation. 1714 Feb 60

A novel fluorescent photoprobe for the imaging of endothelin A receptors (ET(A)R) was developed. Based on the nonpeptidyl, high-affinity, and selective ET(A)R antagonist 3-benzo[1,3]dioxol-5-yl-5-hydroxy-5-(4-methoxyphenyl)-4-(3,4,5-trimethoxybenzyl)-5H-furan-2-one (PD 156707), a modification of the lead structure with a PEG-spacer containing an amino moiety was performed. Labeling of this precursor with the fluorescent marker Cy 5.5 NHS-ester was accomplished by adaption of common peptide labeling procedures. The affinity of the Cy 5.5-labeled receptor antagonist was evaluated using human carcinoma cell lines with different degrees of ET(A)R expression. Fluorescence microscopy revealed that ET(A)R-positive MCF-7 human breast adenocarcinoma and HT-1080 human fibrosarcoma cells effectively bind the photoprobe at very low doses (nM), while ET(A)R-negative MDA-MB-435 human breast cancer cells showed no fluorescence signal. Binding specificity of the probe could be demonstrated by predosing with a specific ET(A)R antibody or the parent antagonist PD 156707 as a competing inhibitor. The results suggest that the modified photoprobe tightly binds to ET(A) receptors and thus may be a possible candidate for the imaging of ET(A)R-overexpressing tissues in vivo.
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PMID:A fluorescent photoprobe for the imaging of endothelin receptors. 1741 16

Beta-lapachone (beta-lap) is a novel anticancer agent that is bioactivated by NADP(H): quinone oxidoreductase 1 (NQO1), an enzyme overexpressed in a variety of tumors. Despite its therapeutic promise, the poor aqueous solubility of beta-lap hinders its preclinical evaluation and clinical translation. Our objective was to develop beta-lap-containing poly(ethylene glycol)-block-poly(D,L-lactide) (PEG-PLA) polymer micelles for the treatment of NQO1-overexpressing tumors. Several micelle fabrication strategies were examined to maximize drug loading. A film sonication method yielded beta-lap micelles with relatively high loading density (4.7+/-1.0% to 6.5+/-1.0%) and optimal size (29.6+/-1.5 nm). Release studies in phosphate-buffered saline (pH 7.4) showed the time (t(1/2)) for 50% of drug release at 18 h. In vitro cytotoxicity assays were performed in NQO1-overexpressing (NQO1+) and NQO1-null (NQO1-) H596 lung, DU-145 prostate, and MDA-MB-231 breast cancer cells. Cytotoxicity data showed that after a 2 h incubation with beta-lap micelles, a marked increase in toxicity was shown in NQO1+ cells over NQO1- cells, resembling free drug both in efficacy and mechanism of cell death. In summary, these data demonstrate the potential of beta-lap micelles as an effective therapeutic strategy against NQO1-overexpressing tumor cells.
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PMID:Beta-lapachone-containing PEG-PLA polymer micelles as novel nanotherapeutics against NQO1-overexpressing tumor cells. 1757 88

A new cyclodextrin-based carrier for active targeting of low soluble and degradable drugs has been synthesized and characterized. Beta-cyclodextrins were first reacted with excess hexamethylene diisocyanate and the resulting CD-(C6-NCO)5 derivative was reacted with 700 Da diamino-PEG to yield CD-(C6-PEG-NH2)5. About one out of five free amino groups of PEG were functionalised with folic acid (FA) as a tumour targeting moiety. The chemical structures of the intermediates as well as the final product, CD-(C6-PEG)5-FA, were characterized by 1H and 13C NMR, reverse phase and gel permeation chromatography, and UV-Vis spectroscopy. After modification, the haemolytic activity of beta-cyclodextrins decreased by about 70%. In the presence of the new carrier, the beta-estradiol solubility increased by more than 300 fold and the chlorambucil degradation rate decreased by 50-60%. CD-(C6-PEG)5-FA formed an inclusion complex with curcumin displaying an association constant of 954,732 M(-1). The new carrier increased the curcumin solubility by about 3200 fold as compared to native beta-cyclodextrins and reduced its degradation rate at pH 6.5 and 7.2 by 10 and 45 fold, respectively. FA receptor-overexpressing human nasopharyngeal tumour KB cell lines and non-folic acid receptor-expressing human breast cancer MCF7 cells were used to evaluate the targeting properties of the new drug delivery system. The in vitro studies demonstrate that the new carrier possesses potential selectivity for the folate receptor-overexpressing tumour cells as ED50 values of 52 microM, 58 microM and 21 microM were obtained with curcumin-loaded CD-(C6-PEG-NH2)5, curcumin in foetal serum medium and CD-(C6-PEG)5-FA, respectively.
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PMID:New cyclodextrin bioconjugates for active tumour targeting. 1761 56


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