Your search keyword '"Socoteanu, R."' showing total 4 results

1. Morpho-structural properties of ZnSe, TiO2-ZnSe materials and enzymatic activity of their bioinorganic hybrids with lysozyme

Author

Anastasescu, C., Gifu, I.C., Negrila, C., Socoteanu, R., Atkinson, I., Calderon-Moreno, J.M., Munteanu, C., Plavan, G., Strungaru, S.A., Cheatham, B., Malaroiu, A.-V., Teodorescu, V.S., Anastasescu, M., Zaharescu, M., Balint, I., and Lazarescu, V.

Published

2021

2. Tubular and Spherical SiO₂ Obtained by Sol Gel Method for Lipase Immobilization and Enzymatic Activity.

Author

Anastasescu C, Preda S, Rusu A, Culita D, Plavan G, Strungaru S, Calderon-Moreno JM, Munteanu C, Gifu C, Enache M, Socoteanu R, Angelescu D, Anastasescu M, Gartner M, Balint I, and Zaharescu M

Subjects

Catalysis, Electrochemical Techniques methods, Hydrogen-Ion Concentration, Kinetics, Luminescence, Microscopy, Electron, Scanning, Spectroscopy, Fourier Transform Infrared, Enzymes, Immobilized metabolism, Gels, Lipase metabolism, Silicon Dioxide chemistry

Abstract

A wide range of hybrid biomaterials has been designed in order to sustain bioremediation processes by associating sol-gel SiO₂ matrices with various biologically active compounds (enzymes, antibodies). SiO₂ is a widespread, chemically stable and non-toxic material; thus, the immobilization of enzymes on silica may lead to improving the efficiency of biocatalysts in terms of endurance and economic costs. Our present work explores the potential of different hybrid morphologies, based on hollow tubes and solid spheres of amorphous SiO₂, for enzyme immobilization and the development of competitive biocatalysts. The synthesis protocol and structural characterization of spherical and tubular SiO₂ obtained by the sol gel method were fully investigated in connection with the subsequent immobilization of lipase from Rhizopus orizae . The immobilization is conducted at pH 6, lower than the isoelectric point of lipase and higher than the isoelectric point of silica, which is meant to sustain the physical interactions of the enzyme with the SiO₂ matrix. The morphological, textural and surface properties of spherical and tubular SiO₂ were investigated by SEM, nitrogen sorption, and electrokinetic potential measurements, while the formation and characterization of hybrid organic-inorganic complexes were studied by UV-VIS, FTIR-ATR and fluorescence spectroscopy. The highest degree of enzyme immobilization (as depicted from total organic carbon) was achieved for tubular morphology and the hydrolysis of p-nitrophenyl acetate was used as an enzymatic model reaction conducted in the presence of hybrid lipase⁻SiO₂ complex.

Published

2018

3. Porphyrin dye into biopolymeric chitosan films for localized photodynamic therapy of cancer.

Author

Ferreira DP, Conceição DS, Calhelha RC, Sousa T, Socoteanu R, Ferreira ICFR, and Vieira Ferreira LF

Subjects

Cell Survival drug effects, Drug Carriers administration & dosage, Drug Carriers chemistry, Drug Liberation, Fluorescence, HeLa Cells, Humans, Light, Neoplasms drug therapy, Photochemotherapy, Chitosan administration & dosage, Chitosan chemistry, Coloring Agents administration & dosage, Coloring Agents chemistry, Gelatin administration & dosage, Gelatin chemistry, Photosensitizing Agents administration & dosage, Photosensitizing Agents chemistry, Polyethylene Glycols administration & dosage, Polyethylene Glycols chemistry, Porphyrins administration & dosage, Porphyrins chemistry

Abstract

Porphyrins and some of its derivatives are well known and widely used as photosensitizers (PSs) for Photodynamic Therapy of Cancer (PDT). The present study regards the characterization and evaluation of a synthesized asymmetric porphyrin dye in solution to be used as PS for PDT. This molecule was also incorporated into biopolymeric films composed by chitosan, polyethylene glycol (PEG) and gelatin in order to overtake some of the disadvantages inherent to the PS, but more important, to evaluate the potential of a system composed by the porphyrin/biopolymer to be applied as localized therapeutic agents. FTIR spectroscopy showed a strong interaction between the polymers involved in the preparation of the films under study: film 1: chitosan, film 2: chitosan/PEG and film 3: chitosan/gelatin. Photochemical studies were performed for the dye in solution and into the three different biopolymeric films. Ground state absorption showed the characteristic bands of these kinds of dyes in solution and also incorporated into the films. The films composed by porphyrin/chitosan and porphyrin into chitosan/gelatin, revealed the presence of non-emissive aggregates exhibiting a strong quenching effect in the fluorescence intensity, quantum yields and lifetimes. In this way, the system composed by the porphyrin incorporated into the chitosan/PEG film presents the best fluorescence quantum yield and lifetime. The transient absorption spectra were obtained for all the systems indicating the formation of an excited triplet state of the porphyrins following excitation, which takes special importance in the generation of phototoxic species namely singlet oxygen. Singlet oxygen quantum yields were also determined and the results obtained were very promising for the dye in solution but also for the dye into the different substrates. The release of the dye from the three different films onto a buffer solution was evaluated and we conclude that after a few days the dye was completely released by the substrates in acidic conditions. Confocal microscopy was used for the determination of the intracellular localization of the compound under study onto HeLa cells (human cervical cancer cells line). The evaluation of the PSs anticancer activity assumes special importance for PDT studies. The system should be less toxic in the dark and more active when irradiated, therefore, toxicity in the dark and phototoxicity studies onto HeLa cells were performed., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

4. Synthesis, Spectral Analysis and Preliminary in Vitro Evaluation of Some Tetrapyrrolic Complexes with 3d Metal Ions.

Author

Socoteanu R, Manda G, Boscencu R, Vasiliu G, and Oliveira AS

Subjects

Cell Proliferation drug effects, Cells, Cultured, Humans, In Vitro Techniques, Leukocytes drug effects, MCF-7 Cells, Metalloporphyrins chemistry, Molecular Structure, Photochemotherapy, Iron chemistry, Metalloporphyrins chemical synthesis, Metalloporphyrins pharmacology, Zinc chemistry

Abstract

In this paper, two tetrapyrrolic complexes, Zn(II)-5-(3-hydroxyphenyl)-10,15,20-tris-(4-acetoxy-3-methoxyphenyl)porphyrin and Cu(II)-5-(3-hydroxyphenyl)-10,15,20-tris-(4-acetoxy-3-methoxyphenyl)porphyrin were synthesized, and characterized from a spectral and biological point of view. The study provided data concerning the behavior of identical external substituents vs. two different core insertions. Some of the properties of the proposed tetrapyrrolic structures were highlighted, having photodynamic therapy of cancer as a targeted biomedical application. Elemental analysis, NMR, FTIR and UV-Vis data in various solvents were provided. A preliminary in vitro study on normal and cancer cultured cells was carried out for biocompatibility assessment in dark conditions. The preliminary in vitro study performed on human peripheral mononuclear cells exposed to tetrapyrrolic compounds (2 µM) showed that the proposed compounds had a convenient cytotoxic profile on human normal peripheral blood mononuclear cells under dark conditions. Meanwhile, the investigated compounds reduced the number of metabolically active breast tumor MCF-7 cells, with the exception of Zn(II) complex-containing a symmetrical ligand. Accordingly, preliminary in vitro data suggest that the proposed tetrapyrrolic compounds are good candidates for PDT, as they limit tumor expansion even under dark conditions, whilst sparing normal cells.

Published

2015