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71.
Soraya da Silva Santos Jeanine Giarolla Kerly F.M. Pasqualoto Elizabeth I. Ferreira 《Molecular simulation》2013,39(11):860-867
Molecular modelling studies were carried out to analyse which carbonyl group is the most vulnerable to the disassembly of potentially leishmanicide-targeted dendrimer. The dendrimers were designed using myo-inositol (core and directing group), d-mannose (directing group), l-malic acid (spacer and dendron) and hydroxymethylnitrofurazone (NFOH) as a bioactive agent. The molecular models were built containing one, two and three branches. For this preliminary analysis, physicochemical properties, such as electronic density distribution and steric hindrance regarding the carbonyl groups were evaluated, and the carbon atoms in the following carbonyl groups were considered: near the core (C1), close to the directing group (C2), in l-malic acid (C3) and near the bioactive agent (C4). The most probable targeted dendrimers showed the carbonyl close to the core as the most susceptible to a nucleophilic attack, except those molecular systems containing two branches with d-mannose as the directing group, which displayed the carbonyl group near NFOH as the most likely ester breaking point. 相似文献
72.
《Molecular membrane biology》2013,30(7):274-285
AbstractNanoparticles present a new collection of contrast agents for the field of in vivo molecular imaging. This review focuses on promising molecular imaging probes for optical and magnetic resonance imaging based on four representative nanomaterial(s) platforms: quantum dots, upconversion phosphors, superparamagnetic iron oxides, and dendrimer-based agents. Quantum dots are extremely efficient fluorescent nanoparticles with size-tunable emission properties, enabling high sensitivity and greater depth penetration. Their heavy metal composition and long retention in the body, however, pose concerns for clinical translational applications. Upconversion phosphors generate excellent signal-to-background contrast because they emit light with higher energy than the excitation photons and autofluorescence signals. For MRI, iron oxide particles also generate excellent signal and have been used in liver imaging and for cell tracking studies. As they are metabolized through endogenous iron salvage pathways, they have already been introduced as clinical contrast agents. Lastly, dendrimers, a ‘soft’ nanoparticle, can be used as a structural basis for the attachment of small molecule imaging agents and/or targeting groups. This array of nanoparticles should offer insights into the uses and potentials of nanoparticles for the molecular imaging. 相似文献
73.
P. Chanphai 《Journal of biomolecular structure & dynamics》2018,36(7):1918-1924
We report the loading efficacy of folic acid (FA) by polyamidoamine (PAMAM-G3 and PAMAM-G4) nanoparticles in aqueous solution at physiological pH. Thermodynamic parameters ΔH = ?47.57 (kJ Mol?1), ΔS = ?122.78 (J Mol?1, K?1) and ΔG = ?10.96 (kJ Mol?1) showed FA-PAMAM bindings occur via H-bonding and van der Waals contacts. The stability of acid-PAMAM conjugate increased as polymer size increased. The acid loading efficacy was 40 to 50%. TEM images exhibited major polymer morphological changes upon acid encapsulation. PAMAM dendrimers are capable of FA delivery in vitro. 相似文献
74.
The interaction mechanism between lipopeptide (daptomycin) and polyamidoamine (PAMAM) dendrimers
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Boontarika Chanvorachote Jiang Qiu Walaisiri Muangsiri Ubonthip Nimmannit Lee E. Kirsch 《Journal of peptide science》2015,21(4):312-319
The interaction mechanism of lipopeptide antibiotic daptomycin and polyamidoamine (PAMAM) dendrimers was studied using fluorescence spectroscopy. The fluorescence changes observed are associated with daptomycin–dendrimer interactions. The binding isotherms were constructed by plotting the fluorescence difference at 460 nm from kynurenine (Kyn‐13) of daptomycin in the presence and absence of dendrimer. A one‐site and two‐site binding model were quantitatively generated to estimate binding capacity and affinity constants from the isotherms. The shape of the binding isotherm and the dependence of the estimated capacity constants on dendrimer sizes and solvent pH values provide meaningful insight into the mechanism of interactions. A one‐site binding model adequately describes the binding isotherm obtained under a variety of experimental conditions with dendrimers of various sizes in the optimal binding pH region 3.5 to 4.5. Comparing the pH‐dependent binding capacity with the ionization profiles of daptomycin and dendrimer, the ionized aspartic acid residue (Asp‐9) of daptomycin primarily interact with PAMAM cationic surface amine. Copyright © 2015 European Peptide Society and John Wiley & Sons, Ltd. 相似文献
75.
Poly(propylene imine) dendrimers having four or eight primary amino groups and a StarburstTM (PAMAM) dendrimer having eight primary amino groups were used as core molecules, to which phenylisothiocyanate derivatized
(PITC) galβ1-3galNAcβ1-4[sialic acidβ2-3]-galβ1-4glc (oligo-GM1) residues were covalently attached to yield multivalent oligosaccharides. The synthesis of the oligo-GM1-PITC
derivatized dendrimers was monitored using high performance thin layer chromatography, infrared spectroscopy, sialic acid
content, and mass spectroscopy. The ability of multivalent oligo-GM1-PITC dendrimers to inhibit the binding of 125I-labeled cholera toxin B subunit and the heat labile enterotoxin of E. coli to GM1-coated microtiter wells was determined. IC50s obtained for the oligo-GM1-PITC dendrimers, GM1, and the oligosaccharide moiety of GM1 indicated that the derivatized dendrimers
inhibited binding of the choleragenoid and the heat labile enterotoxin to GM1-coated wells at a molar concentration five-
to 15-fold lower than native GM1 and more than 1,000-fold lower than that of the free oligosaccharide.
This revised version was published online in November 2006 with corrections to the Cover Date. 相似文献
76.
Swanson SD Kukowska-Latallo JF Patri AK Chen C Ge S Cao Z Kotlyar A East AT Baker JR 《International journal of nanomedicine》2008,3(2):201-210
A target-specific MRI contrast agent for tumor cells expressing high affinity folate receptor was synthesized using generation five (G5) ofpolyamidoamine (PAMAM) dendrimer. Surface modified dendrimer was functionalized for targeting with folic acid (FA) and the remaining terminal primary amines of the dendrimer were conjugated with the bifunctional NCS-DOTA chelator that forms stable complexes with gadolinium (Gd III). Dendrimer-DOTA conjugates were then complexed with GdCl3 followed by ICP-OES as well as MRI measurement of their longitudinal relaxivity (T1 s(-1) mM(-1)) of water. In xenograft tumors established in immunodeficient (SCID) mice with KB human epithelial cancer cells expressing folate receptor (FAR), the 3D MRI results showed specific and statistically significant signal enhancement in tumors generated with targeted Gd(III)-DOTA-G5-FA compared with signal generated by non-targeted Gd(III)-DOTA-G5 contrast nanoparticle. The targeted dendrimer contrast nanoparticles infiltrated tumor and were retained in tumor cells up to 48 hours post-injection of targeted contrast nanoparticle. The presence of folic acid on the dendrimer resulted in specific delivery of the nanoparticle to tissues and xenograft tumor cells expressing folate receptor in vivo. We present the specificity of the dendrimer nanoparticles for targeted cancer imaging with the prolonged clearance time compared with the current clinically approved gadodiamide (Omniscan) contrast agent. Potential application of this approach may include determination of the folate receptor status of tumors and monitoring of drug therapy. 相似文献
77.
Posadas I Pérez-Martínez FC Guerra J Sánchez-Verdú P Ceña V 《Journal of neurochemistry》2012,120(4):515-527
During excitotoxic neuronal death, Bax translocates to the mitochondria where it plays an important role by contributing to the release of proapoptotic factors. However, how Bax translocates to the mitochondria during excitotoxicity remains poorly understood. Herein, our data suggest the presence of a novel signalling mechanism by which NMDA receptor stimulation promotes Bax translocation. This signalling pathway is triggered by dephosphorylation of cofilin. Once dephosphorylated, cofilin might interact physically with Bax acting as a carrier for it, translocating it to the mitochondria, where it contributes to mitochondrial membrane despolarization, permeabilization and to the release of apoptotic factors, thus leading to neuronal death. Lack-of-function studies indicate that only the Slingshot family of phosphatases, more specifically the enzyme Slingshot 1L phosphatase, but not cronophin participates in the cofilin activation process during excitotoxicity. Indeed, cofilin-mediated Bax translocation seems to be a key event in excitotoxic neuronal death as knock down of either cofilin or Slingshot 1L phosphatase has a marked neuroprotective effect on NMDA-mediated neuronal death. This novel biochemical pathway may therefore be a good target to develop future therapeutic molecules for neurodegenerative diseases. 相似文献
78.
Shcharbin D Drapeza A Loban V Lisichenok A Bryszewska M 《Cellular & molecular biology letters》2006,11(2):242-248
The BLM-system for studying the electrophysical properties of bilayer lipid membranes (BLM) was applied to investigate interactions
between polyamidoamine (PAMAM) dendrimers and lipid bilayers. The cationic PAMAM G5 dendrimer effectively disrupted planar
phosphatidylcholine membranes, while the hydroxyl PAMAM-OH G5 and carboxyl PAMAM G4.5 dendrimers had no significant effect
on them. 相似文献
79.
In this review, the binding and loading efficacy (LE) of anticancer drugs doxorubicin (DOX), tamoxifen (Tam) and its metabolites 4-hydroxytamoxifen (4-Hydroxytam) and endoxifen (Endox) with several synthetic polymers poly(ethylene glycol) (PEG), methoxypoly (ethylene glycol) polyamidoamine (mPEG-PAMAM-G3), and polyamidoamine (PAMAM-G4) dendrimers were compared in aqueous solution at pH 7.4. The results of multiple spectroscopic methods, transmission electron microscopy (TEM) and molecular modeling of conjugated drug–polymer were examined. Structural analysis showed that drug–polymer conjugation occurs mainly via H-bonding and hydrophobic contacts. The order of binding is PAMAM-G4 > mPEG-PAMAM-G3 > PEG-6000 with 4-hydroxttamoxifen forming more stable conjugate than tamoxifen and endoxifen. Doxorubicin shows stronger affinity for PAMAM-G4 than tamoxifen and its metabolites. The drug LE was 30–55%. TEM showed significant changes in the carrier morphology upon drug encapsulation. Modeling also showed that drug is located in the surface and in the internal cavities of PAMAM with DOX forming more stable polymer conjugates. 相似文献
80.
Elham Pishavar Fatemeh Oroojalian Mohammad Ramezani Maryam Hashemi 《Biotechnology progress》2020,36(3):e2952
IL-12 is a pleiotropic cytokine, which shows an ideal applicant for tumor immunotherapy, because of its features of creating an interconnection between innate (NK cells) and adaptive (cytotoxic T lymphocyte) immunity. IL-12 gene therapy is a useful technique to deliver an immune-modulatory gene directly into tumor site thereby limiting the adverse effects of systemic administration of IL-12 proteins. One of the most largely investigated non-viral gene carriers is polyamidoamine (PAMAM). In the current research, 5 and 3% of PAMAM primary amines were substituted to transmit the plasmid encoding IL-12 gene to cells by cholesteryl chloroformate and alkyl-PEG, respectively. The features of modified PAMAMs containing size and surface charge density, cytotoxicity, and transfection efficiency were investigated in colon cancer cells. in vitro experiment showed that this modified carrier with average size of about 160 nm and zeta potential of 30 mV was able to increase the level of IL-12 production up to two folds as compared to that of the unmodified PAMAM. Improvement of the polymer hydrophobic balance along with of the modulation of the surface positive charge could provide an efficient and safe non-viral IL-12 gene for colon cancer immunogene therapy. 相似文献