Your search keyword '"nanoconjugates"' showing total 1,939 results

151. Albumin based versatile multifunctional nanocarriers for cancer therapy: Fabrication, surface modification, multimodal therapeutics and imaging approaches.

Author

Kudarha, Ritu R. and Sawant, Krutika K.

Subjects

*ALBUMINS, *NANOCARRIERS, *CANCER treatment, *IMAGING of cancer, *DRUG therapy

Abstract

Albumin is a versatile protein used as a carrier system for cancer therapeutics. As a carrier it can provide tumor specificity, reduce drug related toxicity, maintain therapeutic concentration of the active moiety like drug, gene, peptide, protein etc. for long period of time and also reduce drug related toxicities. Apart from cancer therapy, it is also utilized in the imaging and multimodal therapy of cancer. This review highlights the important properties, structure and types of albumin based nanocarriers with regards to their use for cancer targeting. It also provides brief discussion on methods of preparation of these nanocarriers and their surface modification. Applications of albumin nanocarriers for cancer therapy, gene delivery, imaging, phototherapy and multimodal therapy have also been discussed. This review also provides brief discussion about albumin based marketed nano formulations and those under clinical trials. [ABSTRACT FROM AUTHOR]

Published

2017

152. Exploring recent developments to improve antioxidant, anti-inflammatory and antimicrobial efficacy of curcumin: A review of new trends and future perspectives.

Author

Hussain, Zahid, Thu, Hnin Ei, Amjad, Muhammad Wahab, Hussain, Fahad, Ahmed, Tarek A., and Khan, Shahzeb

Subjects

*CURCUMIN, *CURCUMINOIDS, *ANTI-inflammatory agents, *ANTI-infective agents, *BIOAVAILABILITY, *THERAPEUTICS, *PHYSIOLOGICAL effects of chemicals

Abstract

Curcumin derivatives have been well-documented due to their natural antioxidant, antimicrobial and anti-inflammatory activities. Curcuminoids have also gained widespread recognition due to their wide range of other activities which include anti-infective, anti-mutagenic, anticancer, anti-coagulant, antiarthrititc, and wound healing potential. Despite of having a wide range of activities, the inherent physicochemical characteristics (poor water solubility, low bioavailability, chemical instability, photodegradation, rapid metabolism and short half-life) of curcumin derivatives limit their pharmaceutical significance. Aiming to overcome these pharmaceutical issues and improving therapeutic efficacy of curcuminoids, newer strategies have been attempted in recent years. These advanced techniques include polymeric nanoparticles, nanocomposite hydrogels, nanovesicles, nanofibers, nanohybrid scaffolds, nanoconjugates, nanostructured lipid carriers (NLCs), nanoemulsion, polymeric micelles and polymeric blend films. Incorporation of curcumin in these delivery systems has shown improved solubility, transmembrane permeability, long-term stability, improved bioavailability, longer plasma half-life, target-specific delivery, and upgraded therapeutic efficacy. In this review, a range of in vitro and in vivo studies have been critically discussed to explore the pharmaceutical significance and therapeutic viability of the advanced delivery systems to improve antioxidant, anti-inflammatory and antimicrobial efficacies of curcumin and its derivatives. [ABSTRACT FROM AUTHOR]

Published

2017

153. Gold nanorods reflectance discriminate benign from malignant oral lesions.

Author

Hirshberg, Abraham, Allon, Irit, Novikov, Ilya, Ankri, Rinat, Ashkenazy, Ariel, and Fixler, Dror

Subjects

CANCER diagnosis, CONTRAST media, NANORODS, GOLD nanoparticles, EPIDERMAL growth factor receptors, NANOPARTICLES, NANOMEDICINE

Abstract

Nanoparticle-based contrast agents have been used as an imaging tool for selectively detecting cancerous processes. We aimed to evaluate the detection sensitivity of reflection measurements of gold nanorods (GNRs) bio-conjugated to anti-epidermal growth factor receptor (GNRs-EGFR) monoclonal antibodies in discriminating benign from premalignant and malignant human oral lesions. Tissue sections incubated with GNRs-EGFR and the reflectance spectrum was measured using hyperspectral microscopy. Reflectance intensity increased with the progression of the disease, lowest in the control group and increasing as the dysplastic changes increase ( P < 0.001 for linear trend of grade). Intensity was significantly higher in the moderate and severe dysplasias and cancer patients than in the controls and mild dysplasia ( t test P = 0.0003, Mann–Whitney P < 0.0001). The GNRs reflection measurements can discriminate benign and mild dysplastic lesions from the more severe dysplasia and invasive cancer, suggesting an objective, not dependent on the qualification of a technician and with less interpretation errors. [ABSTRACT FROM AUTHOR]

Published

2017

154. In vitro and in vivo assessment of nanotoxicity of CdS quantum dot/aminopolysaccharide bionanoconjugates.

Author

de Carvalho, S.M., Mansur, A.A.P., Mansur, H.S., Guedes, M.I.M.C., Lobato, Z.I.P., and Leite, M.F.

Subjects

*DRUG toxicity, *CADMIUM sulfide, *NANOMEDICINE, *QUANTUM dots, *POLYSACCHARIDES, *IN vitro studies, *BIOMEDICAL engineering

Abstract

The nanotoxicity of Cd-containing quantum dots (QDs) for biomedical applications is very controversial and not completely understood. In this study, we evaluated the cytotoxicity of surface-biofunctionalized CdS QDs with chitosan directly synthesized via aqueous route at room temperature. These core-shell CdS-chitosan nanoconjugates showed different degrees of cytotoxic responses using MTT cell proliferation assay toward three human cell cultures, human osteosarcoma cell line (SAOS), non-Hodgkin's B cell lymphoma (Toledo), and human embryonic kidney cell line (HEK293T), under three exposure times (1, 3, and 5 days) and three colloidal concentrations (10 nM, 50 nM, and 100 nM). The results clearly demonstrated that the CdS QDs, regardless to the fact that they were coated with a biocompatible aminopolysaccharide shell, induced a severe dose- and time-dependent inhibition of cell viability. In addition, the HEK293T and SAOS cell lines showed much more sensitive response compared to Toledo, which indicated that the cytotoxicity was also cell-type dependent. The exceptional resistance of Toledo cells to toxic effects of CdS nanoconjugates even at severe test conditions was assigned to specific role of B-lineage cells of the immune defense system. Remarkably, no conclusive evidence of toxicity of CdS nanoconjugates was observed in vivo using intravenous injections of CdS nanoconjugates in BALB/c mouse animal models for 30 days, but localized fluorescence was detected in ex-vivo liver tissue samples. Therefore, these results prove that there is no guarantee of “risk-free” use of CdS nanoconjugates for in vivo applications, even when functionalized with biopolymer ligands, as they can pose an excessive threat due to unpredicted and uncorrelated responses under in vitro and in vivo biological assays with highly toxic cadmium ions. [ABSTRACT FROM AUTHOR]

Published

2017

155. Preparation and characterization of dextran-zein-curcumin nanoconjugate for enhancement of curcumin bioactivity.

Author

Albogamy NTS, Aboushoushah SF, Aljoud F, Organji H, and Elbialy NS

Subjects

Nanoconjugates, Dextrans, Particle Size, Curcumin pharmacology, Curcumin chemistry, Zein chemistry

Abstract

Curcumin is one of the most important polyphenolic nutrients in pharmaceutical industries. Unfortunately, its poor solubility and bioavailability have hampered its clinical application. To improve curcumin solubility and bioavailability, a natural nanocarrier made from protein-polysaccharide conjugate has been developed. Following antisolvent precipitation method, zein (Z) nanoparticles coated with dextran sulphate (DS) have been fabricated as curcumin (C) nanocarrier (DSZCNPs). The physicochemical properties of the nanoconjugate were measured using different techniques. Morphologically, DSZCNPs appeared spherical and monodispersed in scanning electron microscope (SEM) and transmission electron microscope (TEM) images. Curcumin encapsulation efficiency was ≈ 96%. DSZCNPs size was 180 nm and the polydispersity index value (PDI) 0.28. Zeta potential for DSZCNPs was -28.5 mV. DSZCNPs showed stability either for shelf storage (100 days) or at different pHs. Furthermore, DSZCNPs protected zein nanoparticles degradation in gastric environment and achieved controlled curcumin release in intestinal environment. DSZCNPs greatly enhanced the antioxidant activity of curcumin as demonstrated by DPPH assay. DSZCNPs had significant results in the reduction of colony forming unit (CFU%) against the tested microbes when compared with free curcumin. Also, the anticancer activity of DSZCNPs and free curcumin against hepatocellular carcinoma cells (HepG2) were assessed by MTT assay. IC 50 for DSZCNPs was 13 µg/ml compared to 50 µg/ml for free curcumin indicating the therapeutic impact of DSZCNPs over free curcumin.Based on the above results, the developed zein-dextran nanocomplex exhibited high stability and improved the efficacy and bioactivity of curcumin suggesting its potential utility as nanovehicle for the hydrophobic drug curcumin.

Published

2023

156. BBD optimized antioxidants of Crotalaria candicans and its nanoconjugates, exert potent in vivo anti-biofilm effects against MRSA.

Author

Subramani RM, Lotha R, Shamprasad BR, Sridharan S, Natesan R, Nagarajan S, and Sivasubramanian A

Subjects

Animals, Antioxidants chemistry, Nanoconjugates, Spectroscopy, Fourier Transform Infrared, Zebrafish, Flavonoids chemistry, Biofilms, Solvents, Plant Extracts pharmacology, Plant Extracts chemistry, Methicillin-Resistant Staphylococcus aureus, Crotalaria

Abstract

Crotalaria genus is extensively dispersed in tropical and subtropical provinces, and it is found to harbor antioxidant flavonoids. Response surface methodology-based optimization was carried out for the purpose of efficient extraction involving a suitable solvent which can maximize the yield along with higher total phenolic content and total flavonoid content (TFC). Optimization conditions for extraction of C.candicans flavonoids (CCF) based on variables such as solvent, solid-solvent ratio and extraction temperature were evaluated. The optimized conditions were found as Solvent i.e., Aqueous-ethanol (53.42%), Solid-solvent ratio (1:15.83 w/v) and temperature (44.42 °C) and resulted to obtain the TFC as 176.23 mg QRET/g C. candicans extract with the yield 27.42 mg CCF/g (C. candicans dry weight). LC-MS analysis of CCF, revealed the presence of seven major flavonoids. The antioxidant flavonoids were further used to functionalize the zero-valent silver (ZVAgF) and copper (ZVCuF) nanoparticles. The ZVAgF and ZVCuF were investigated using UV-Vis spectrophotometry, FT-IR spectroscopy and X-ray diffractometry to confirm the presence of the zero valent metals and possible functional groups which capped the elemental metal. Further transmission electron microscopy, dynamic light scattering method and zeta-potential studies were done to understand their respective structural and morphological properties. The efficacy of the as-prepared ZVAgF/ZVCuF as antibiofilm agents on Methicillin-resistant Staphylococcus aureus (MRSA) with the mechanism studies have been explored. The MRSA-colony count from the infection zebrafish (in vivo) model, portrayed a reduction of > 1.9 fold for ZVCuF and > twofold for ZVAgF, with no alteration in liver morphology when treated with ZVAgF, implying that the nanoparticles were safe and biocompatible., (© 2023. Springer Nature Limited.)

Published

2023

157. Design of N-heterocycle based-phthalonitrile/metal phthalocyanine-silver nanoconjugates for cancer therapies.

Author

Öney Öİ, Yenilmez HY, Bahar D, Öztürk NF, and Altuntaş Bayır Z

Subjects

Humans, Silver, Nanoconjugates, Spectroscopy, Fourier Transform Infrared, Indoles chemistry, Metal Nanoparticles, Neoplasms

Abstract

This study reports the anticancer properties of carbazole-containing phthalonitrile/phthalocyanine-modified silver nanoparticles for the first time. In this study, a new mono-substituted phthalonitrile namely 3-[9 H -carbazole-9-ethoxy]phthalonitrile and its metal phthalocyanines {M = Zn, Co, and Mn(Cl)} were synthesized by template cyclotetramerization of phthalonitrile derivatives. The newly synthesized compounds were characterized using UV-vis, FT-IR, 1 H NMR, 13 C NMR, and mass spectroscopy. The resultant compounds were successfully linked to the surface of silver nanoparticles. The characterization of the surficial modification was carried out by applying the TEM technique. The cytotoxic activities of the studied nanoconjugates were tested against A549, DLD-1, and Wi38 cell lines by performing a (3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide) (MTT) assay with/without irradiation. Although the functionalization of silver nanoparticles increased the solubility of phthalocyanines in aqueous media, the presence of phthalonitrile/phthalocyanine derivatives on the silver nanoparticles' surface improved their biological properties. All the studied biological candidates exhibited antiproliferative activities against the cell lines. The IC 50 values calculated were between 6.80 and 97.99 μM against the studied cell lines in the dark. However, the IC 50 values determined were between 3.11 and 88.90 μM with irradiation. The highest IC 50 values obtained were 3.11 and 3.52 μM against the DLD-1 cell line for nanoconjugates 1-AgNP and 3-AgNP, respectively. The findings indicated that the compounds may be utilized as anticancer agents after further studies.

Published

2023

158. Antibiotic-Loaded Boron Nitride Nanoconjugate with Strong Performance against Planktonic Bacteria and Biofilms.

Author

Zhang J, Neupane N, Dahal PR, Rahimi S, Cao Z, Pandit S, and Mijakovic I

Subjects

Staphylococcus aureus, Escherichia coli, Plankton, Biofilms, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents therapeutic use, Nanoconjugates

Abstract

Protecting surfaces from biofilm formation presents a significant challenge in the biomedical field. The utilization of antimicrobial component-conjugated nanoparticles is becoming an attractive strategy against infectious biofilms. Boron nitride (BN) nanomaterials have a unique biomedical application value due to their excellent biocompatibility. Here, we developed antibiotic-loaded BN nanoconjugates to combat bacterial biofilms. Antibiofilm testing included two types of pathogens, Staphylococcus aureus and Escherichia coli . Gentamicin was loaded on polydopamine-modified BN nanoparticles (GPBN) to construct a nanoconjugate, which was very effective in killing E. coli and S. aureus planktonic cells. GPBN exhibited equally strong capacity for biofilm destruction, tested on preformed biofilms. A 24 h treatment with the nanoconjugate reduced cell viability by more than 90%. Our results suggest that GPBN adheres to the surface of the biofilm, penetrates inside the biofilm matrix, and finally deactivates the cells. Interestingly, the GPBN coatings also strongly inhibited the formation of bacterial biofilms. Based on these results, we suggest that GPBN could serve as an effective means for treating biofilm-associated infections and as coatings for biofilm prevention.

Published

2023

159. Novel biogenic silver nanoconjugates of Abrus precatorius seed extracts and their antiproliferative and antiangiogenic efficacies.

Author

Kaur A, Sharma Y, Singh G, Kumar A, Kaushik N, Khan AA, and Bala K

Subjects

Chick Embryo, Animals, Humans, Catalase, Nanoconjugates, Silver pharmacology, Plant Extracts pharmacology, Superoxide Dismutase, Abrus, Mouth Neoplasms, Carcinoma

Abstract

Biogenic silver nanoconjugates (AgNCs), derived from medicinal plants, have been widely explored in the field of biomedicines. AgNCs for the first-time were synthesized using ethyl acetate seed extracts of Abrus precatorius and their antiproliferative and antiangiogenic efficacies were evaluated against cervical and oral carcinoma. Ultraviolet-Visible spectrophotometry, dynamic light Scattering (DLS), and scanning electron microscopy (SEM) were used for characterization of AgNCs. Antiproliferative activity was investigated using MTT, DNA fragmentation and in-vitro antioxidant enzyme activity assays. In-vivo chick chorioallantoic membrane (CAM) model was used to evaluate antiangiogenic activity. A total of 11 compounds were identified in both the extracts in GCMS analysis. The synthesized AgNCs were spherical shaped with an average size of 97.4 nm for AgAPE (Sox) and 64.3 nm for AgAPE (Mac). AgNCs possessed effective inhibition against Hep2C and KB cells. In Hep2C cells, AgAPE (Mac) revealed the highest SOD, catalase, GST activity and lower MDA content, whereas AgAPE (Sox) showed the highest GSH content. On the other hand, in KB cells, AgAPE (Sox) exhibited the higher SOD, GST activity, GSH content, and least MDA content, while AgAPE (Mac) displayed the highest levels of catalase activity. Docking analysis revealed maximum binding affinity of safrole and linoleic acid with selected targets. AgAPE (Sox), AgAPE (Mac) treatment profoundly reduced the thickness, branching, and sprouting of blood vessels in the chick embryos. This study indicates that A. precatorius-derived AgNCs have enhanced efficacies against cervical and oral carcinoma as well as against angiogenesis, potentially limiting tumour growth., (© 2023. Springer Nature Limited.)

Published

2023

160. Immunomodulatory potential of anticancer therapy composed of methotrexate nanoconjugate and dendritic cell‑based vaccines in murine colon carcinoma

Author

Agnieszka Szczygieł, Joanna Rossowska, Katarzyna Węgierek‑Ciura, Jagoda Mierzejewska, Elżbieta Pajtasz‑Piasecka, Marta Świtalska, Tomasz M. Goszczyński, and Natalia Anger‑Góra

Subjects

musculoskeletal diseases, Cancer Research, Colon, medicine.medical_treatment, Nanoconjugates, colon carcinoma, chemotherapy, Cancer Vaccines, methotrexate, Hydroxyethyl Starch Derivatives, Mice, Immune system, Cell Line, Tumor, medicine, Animals, Humans, dendritic cells, Intestinal Mucosa, skin and connective tissue diseases, Cytotoxicity, Drug Carriers, Chemotherapy, business.industry, Carcinoma, Articles, General Medicine, Immunotherapy, Dendritic cell, Combined Modality Therapy, Disease Models, Animal, MC38, Oncology, Colonic Neoplasms, Drug delivery, Cancer cell, Cancer research, Female, Tumor Escape, Methotrexate, nanoconjugate, immunotherapy, business, medicine.drug

Abstract

Chemotherapy with low-molecular weight compounds, despite elimination of cancer cells, entails adverse effects. To overcome this disadvantage, innovative drug delivery systems are being developed, including conjugation of macromolecular carriers with therapeutics, e.g. a nanoconjugate of hydroxyethyl starch and methotrexate (HES-MTX). The purpose of the present study was to determine whether HES-MTX, applied as a chemotherapeutic, is able to modulate the immune response and support the antitumor response generated by dendritic cells (DCs) used subsequently as immunotherapeutic vaccines. Therefore, MTX or HES-MTX was administered, as sole treatment or combined with DC-based vaccines, to MC38 colon carcinoma tumor-bearing mice. Alterations in antitumor immune response were evaluated by multiparameter flow cytometry analyses and functional assays. The results demonstrated that the nanoconjugate possesses greater immunomodulatory potential than MTX as reflected by changes in the landscape of immune cells infiltrating the tumor and increased cytotoxicity of splenic lymphocytes. In contrast to MTX, therapy with HES-MTX as sole treatment or combined with DC-based vaccines, contributed to significant tumor growth inhibition. However, only treatment with HES-MTX and DC-based vaccines activated the systemic specific antitumor response. In conclusion, due to its immunomodulatory properties, the HES-MTX nanoconjugate could become a potent anticancer agent used in both chemo- and chemoimmunotherapeutic treatment schemes.

Published

2021

161. Bacteriocin nanoconjugates: boon to medical and food industry

Author

R. Sulthana and A.C. Archer

Subjects

Phage therapy, medicine.drug_class, medicine.medical_treatment, Antibiotics, Antimicrobial peptides, Nanoconjugates, Applied Microbiology and Biotechnology, 03 medical and health sciences, chemistry.chemical_compound, Bacteriocins, Bacteriocin, medicine, Food Industry, Nisin, 030304 developmental biology, 0303 health sciences, 030306 microbiology, business.industry, Proteolytic enzymes, General Medicine, Antimicrobial, Anti-Bacterial Agents, Biotechnology, chemistry, business

Abstract

Resistance to antibiotics is an ongoing problem in the biomedical industry. Developing active, alternative drug therapies would reduce our reliance on antibiotics that induce resistance in micro-organisms. To date, bacteriocins and antimicrobial peptides have shown a positive outcome as antibiotic substitutes and synergists apart from phage therapy, antibodies and probiotics. Bacteriocins are proteinaceous antimicrobial peptides synthesized by lactic acid bacteria extensively used as bio-preservatives and alternative to traditional antibiotics to overcome the problem of drug-resistant pathogens. Nonetheless, the use of bacteriocins has several limitations such as limited antimicrobial spectrum, requiring high dose, sensitivity to proteolytic enzymes, etc. Nanoparticles are one of the promising area of research explored to improve antimicrobial spectrum of bacteriocins. This review therefore highlights the recent developments and research pertaining to use of nanoparticles and bacteriocin conjugates to tackle the resistance crisis as well as its applications in food industry.

Published

2021

162. Tunable magnetothermal properties of cobalt-doped magnetite–carboxymethylcellulose ferrofluids: smart nanoplatforms for potential magnetic hyperthermia applications in cancer therapy

Author

Sandhra M. Carvalho, Luis Eugenio Fernandez Outon, Alexandra A.P. Mansur, Klaus Krambrock, Alice G. Leonel, José D. Ardisson, and Herman S. Mansur

Subjects

Ferrofluid, Materials science, General Engineering, chemistry.chemical_element, Nanoparticle, Bioengineering, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, chemistry.chemical_compound, Magnetic hyperthermia, chemistry, Chemical engineering, Heat generation, General Materials Science, 0210 nano-technology, Cobalt, Nanoconjugates, Magnetite, Superparamagnetism

Abstract

Magnetite nanoparticles are one of the most promising ferrofluids for hyperthermia applications due to the combination of unique physicochemical and magnetic properties. In this study, we designed and produced superparamagnetic ferrofluids composed of magnetite (Fe3O4, MION) and cobalt-doped magnetite (Cox-MION, x = 3, 5, and 10% mol of cobalt) nanoconjugates through an eco-friendly aqueous method using carboxymethylcellulose (CMC) as the biocompatible macromolecular ligand. The effect of the gradual increase of cobalt content in Fe3O4 nanocolloids was investigated in-depth using XRD, XRF, XPS, FTIR, DLS, zeta potential, EMR, and VSM analyses. Additionally, the cytotoxicity of these nanoconjugates and their ability to cause cancer cell death through heat induction were evaluated by MTT assays in vitro. The results demonstrated that the progressive substitution of Co in the magnetite host material significantly affected the magnetic anisotropy properties of the ferrofluids. Therefore, Co-doped ferrite (CoxFe(3−x)O4) nanoconjugates enhanced the cell-killing activities in magnetic hyperthermia experiments under alternating magnetic field performed with human brain cancer cells (U87). On the other hand, the Co-doping process retained the pristine inverse spinel crystalline structure of MIONs, and it has not significantly altered the average nanoparticle size (ca.∼7.1 ± 1.6 nm). Thus, the incorporation of cobalt into magnetite-polymer nanostructures may constitute a smart strategy for tuning their magnetothermal capability towards cancer therapy by heat generation.

Published

2021

163. GALA peptide improves the potency of nanobody–drug conjugates by lipid-induced helix formation

Author

Zhengshuang Xu, Xiao Chun Guo, Yong Juan Zhao, Hon Cheung Lee, Ya Jie Chen, Jian Yuan Yang, Qi Wen Deng, Li Wang, and Ting Li

Subjects

Antineoplastic Agents, Peptide, Nanoconjugates, 010402 general chemistry, Endocytosis, 01 natural sciences, Catalysis, law.invention, law, Cell Line, Tumor, Amphiphile, Materials Chemistry, Humans, Cytotoxicity, chemistry.chemical_classification, 010405 organic chemistry, Chemistry, Metals and Alloys, General Chemistry, Recombinant Proteins, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Helix, Ceramics and Composites, Biophysics, Recombinant DNA, Peptides, Oligopeptides, Alpha helix, Single-Chain Antibodies, Conjugate

Abstract

A novel nanobody-drug conjugate (NDC) was constructed by incorporating an amphipathic peptide, GALA, which improved the cytotoxicity by one to two orders of magnitude. Mechanistic studies demonstrate that tethering to lipids induces GALA to form a helix, which dramatically enhances endocytosis. Our work provides a general strategy not only for improving the anti-cancer efficacy of protein-drug conjugates but also for increasing the efficiency of other types of endocytosis-dependent cell delivery.

Published

2021

164. Synergistically enhanced multienzyme catalytic nanoconjugates for efficient cancer therapy

Author

Wei Liu, Jishan Li, Sheng-Yan Yin, and Jinfeng Yang

Subjects

Cell Survival, medicine.medical_treatment, Biomedical Engineering, Antineoplastic Agents, Photodynamic therapy, Nanoconjugates, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Glucose Oxidase, Mice, chemistry.chemical_compound, Biomimetic Materials, Cell Line, Tumor, medicine, Animals, Humans, General Materials Science, Glucose oxidase, Metal-Organic Frameworks, Cell Proliferation, Mice, Inbred BALB C, Tumor hypoxia, biology, Singlet oxygen, Mammary Neoplasms, Experimental, Cancer, General Chemistry, General Medicine, 021001 nanoscience & nanotechnology, medicine.disease, 0104 chemical sciences, Photochemotherapy, chemistry, Cancer cell, Biocatalysis, Gluconic acid, Cancer research, biology.protein, Tumor Hypoxia, Female, Drug Screening Assays, Antitumor, 0210 nano-technology

Abstract

Tumors are complex and highly variable, making it difficult for a single treatment strategy to be significantly effective for cancer therapy. Herein, we report a robust cascade biomimetic nanoplatform that integrates chemiluminescence-induced photodynamic therapy (CL-PDT), Fenton reaction-based chemodynamic therapy (CDT), and glucose oxidase (GOD)-mediated starvation therapy to synergistically enhance cancer treatment. For the nanoplatform of CPPO@porphyrin-MOF@Cancer cell membrane-GOD (C1@M@C2G), the ferric ion-linked porphyrin-MOF can trigger a Fenton reaction to reach CDT, the carried CPPO as an energy donor is used to excite a photo-sensitive porphyrin-MOF in situ to generate singlet oxygen (1O2) for PDT, GOD catalyzes glucose into H2O2 and gluconic acid to realize starvation therapy, and the cancer cell membrane wrapped onto the nanoparticle plays a key role in homologous targeting, which is conducive to achieving better therapeutic effects. Significantly, the porphyrin-MOF with catalase-like activity can generate O2 to effectively relieve tumor hypoxia, thereby enhancing the catalytic effect of GOD and the efficacy of PDT. Additionally, the produced H2O2 and gluconic acid can further improve the CPPO-H2O2-triggered CL-PDT and promote the low pH-dependence Fenton reaction-based CDT, respectively. Both in vitro and in vivo studies showed that the constructed nanoplatform displays an excellent cooperative anti-tumor performance, so we firmly believe that this simple nanoplatform broadens the pathway to fight against cancer through effective cascade catalysis.

Published

2021

165. Fluorine assembly nanocluster breaks the shackles of immunosuppression to turn the cold tumor hot

Author

Zhaoting Li, Yuexin Shen, Minjie Sun, Dandan Hu, Wenhao Wu, Lianghan Zhu, Yixin Wang, Chenggen Qian, and Honghao Sun

Subjects

Dendrimers, medicine.medical_treatment, Antineoplastic Agents, Nanoconjugates, T-Lymphocytes, Regulatory, law.invention, Mice, Immune system, law, Cell Line, Tumor, Tumor Microenvironment, medicine, Animals, Immunologic Factors, Platinum, Cisplatin, chemistry.chemical_classification, Mice, Inbred BALB C, Tumor microenvironment, Reactive oxygen species, Multidisciplinary, Chemistry, Myeloid-Derived Suppressor Cells, Immunosuppression, Dendritic Cells, Fluorine, medicine.disease, Physical Sciences, Cancer research, Immunogenic cell death, Suppressor, Female, Reactive Oxygen Species, Infiltration (medical), medicine.drug

Abstract

Clinical investigations have shown that a nonimmunogenic "cold" tumor is usually accompanied by few immunopositive cells and more immunosuppressive cells in the tumor microenvironment (TME), which is still the bottleneck of immune activation. Here, a fluorine assembly nanocluster was explored to break the shackles of immunosuppression, reawaken the immune system, and turn the cold tumor "hot." Once under laser irradiation, FS@PMPt produces sufficient reactive oxygen species (ROS) to fracture the ROS-sensitive linker, thus releasing the cisplatin conjugated PMPt to penetrate into the tumors and kill the regulatory T cells (Tregs) and myeloid-derived suppressor cells (MDSCs). Meanwhile, ROS will induce potent immunogenic cell death (ICD) and further promote the accumulation of dendritic cells (DCs) and T cells, therefore not only increasing the infiltration of immunopositive cells from the outside but also reducing the immunosuppressive cells from the inside to break through the bottleneck of immune activation. The FS@PMPt nanocluster regulates the immune process in TME from negative to positive, from shallow to deep, to turn the cold tumor into a hot tumor and provoke a robust antitumor immune response.

Published

2020

166. Fluorinated Gadolinium Chelate-Grafted Nanoconjugates for Contrast-Enhanced T1-Weighted 1H and pH-Activatable 19F Dual-Modal MRI

Author

Jiang Ming, Jinhao Gao, Hongyu Lin, Dongxia Chen, Xiaoxue Tang, and Xuanqing Gong

Subjects

Gadolinium-Chelate, Contrast enhancement, medicine.diagnostic_test, Chemistry, media_common.quotation_subject, 010401 analytical chemistry, Magnetic resonance imaging, 010402 general chemistry, Biocompatible material, 01 natural sciences, 0104 chemical sciences, Analytical Chemistry, Highly sensitive, medicine, T1 weighted, Contrast (vision), Nanoconjugates, media_common, Biomedical engineering

Abstract

Magnetic resonance imaging (MRI) is one of the most popular imaging techniques, which offers an ionization-free noninvasive means for imaging deep tissues with high resolution. Conventional 1H MRI is well versed in providing detailed anatomical information but suffers from low contrast for tracking biomarkers because of the abundance of water in living bodies. 19F MRI with negligible endogenous background interference enables highly sensitive detection of biomolecular targets and has drawn extensive attention from the biomedical research community recently. However, this imaging technique only acquires the "hot spot" signals of exogenous 19F nucleus-containing imaging probes. 1H/19F MRI dual-modal imaging is expected to compensate for the limitations of either single-modal imaging and accomplish synergistic morphological and physiological imaging. Herein, we report a highly biocompatible nanoconjugate composed of pH-responsive 19F nucleus-bearing Gd3+ chelates, which enables significant contrast enhancement for T1-weighted 1H MRI and permits pH-responsive activation of 19F signals for 19F MRI, providing both clear anatomical details of living bodies and the biorelevant molecular information with low background interference. This nanoconjugate facilitates sensitive and accurate detection of tumors with contrast-enhanced T1-weighted 1H and pH-activatable 19F dual-modal imaging on a single MRI scanner.

Published

2020

167. Application of Magnetic Core–Shell Imprinted Nanoconjugates for the Analysis of Hordenine in Human Plasma-Preliminary Data on Pharmacokinetic Study after Oral Administration

Author

Joanna Giebułtowicz, Piotr Luliński, and Monika Sobiech

Subjects

0106 biological sciences, magnetic molecularly imprinted polymers, hordenine, Dietary supplement, Administration, Oral, Tyramine, Nanoconjugates, 01 natural sciences, Article, Magnetics, Plasma, chemistry.chemical_compound, Pharmacokinetics, Limit of Detection, Tandem Mass Spectrometry, Liquid chromatography–mass spectrometry, Oral administration, dopamine receptor, Humans, Chromatography, High Pressure Liquid, Volume of distribution, Chromatography, Hordenine, 010401 analytical chemistry, General Chemistry, 0104 chemical sciences, chemistry, Magnetic core, Human plasma, dietary supplement, General Agricultural and Biological Sciences, pharmacokinetics, Preliminary Data, 010606 plant biology & botany

Abstract

In this paper, we developed and validated a new analytical method to determine the pharmacokinetic profile of hordenine in plasma samples of human volunteers after oral administration of hordenine-rich dietary supplements. For this purpose, a magnetic molecularly imprinted sorbent was fabricated and characterized. The application of a magnetic susceptible material facilitates pretreatment step while working with a highly complex sample, reducing time and costs. An optimized, fast, and reliable separation step was combined with liquid chromatography tandem mass spectrometry, providing an analytical method for analysis of hordenine in human plasma after dietary supplement intake. The method was validated (lower limit of quantification of 0.05 μg/L), enabling the pharmacokinetic profile of hordenine to be determined. The highest concentration of hordenine was noted after 65 ± 14 min, reaching the value of 16.4 ± 7.8 μg/L. The average t1/2 was 54 ± 19 min. The apparent volume of distribution was 6000 ± 2600 L (66 ± 24 L/kg when adjusted for weight).

Published

2020

168. Receptor-Mediated In Vivo Targeting of Breast Cancer Cells with 17α-Ethynylestradiol-Conjugated Silica-Coated Gold Nanoparticles

Author

Sanjay Mathur, Kerstin Wennhold, Stefan Roitsch, Shaista Ilyas, Annika Szymura, Hans A. Schlößer, and Alexander M. Renner

Subjects

Chemistry, 02 engineering and technology, Surfaces and Interfaces, Mesoporous silica, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, 0104 chemical sciences, In vivo, Colloidal gold, Cancer cell, Electrochemistry, Click chemistry, medicine, Biophysics, General Materials Science, Doxorubicin, 0210 nano-technology, Drug carrier, Spectroscopy, Nanoconjugates, medicine.drug

Abstract

Efficient therapies for breast cancer remain elusive because of the lack of strategies for targeted transport and receptor-mediated uptake of synthetic drug molecules by cancer cells. Conjugation of nanoparticles (NPs) with active targeting ligands enabling selective molecular recognition of antigens expressed on the surface of cancer cells is promising for localization and treatment of malignant cells. In this study, covalent attachment of synthetic estrogen 17α-ethynylestradiol on the silica (SiO2) shell of silica-gold NPs (SiO2@Au) was undertaken to improve the cancer-targeting ability of the nano-biotags. Chemical and structural analysis of the bioconjugates examined in solution (UV-vis and ξ-potential) and solid state (Fourier transform infrared spectroscopy, X-ray diffractometry, and transmission electron microscopy) confirmed the identity of the carrier particles and surface-bound ligands. The mesoporous silica shell served as a reservoir for anticancer drugs (doxorubicin and quercetin) and to facilitate covalent attachment of receptor molecules by click chemistry protocols. The chemoselective recognition between the nanoconjugates and cell membranes was successfully demonstrated by the accumulation of nanoprobes in the tumor tissue of mice with subcutaneous breast cancer, whereas healthy cells were unaffected. The drug release studies showed sustained release kinetics over several weeks. These findings elaborate the exceptional selectivity and potential of estrogen-coated nano-biolabels in efficient diagnosis and detection of breast cancer cells.

Published

2020

169. Tailoring Particle‐Enzyme Nanoconjugates for Biocatalysis at the Organic‐Organic Interface

Author

Meng Cai, Marion B. Ansorge-Schumacher, Changzhu Wu, René Hübner, and Zhiyong Sun

Subjects

solvent-free reactions, General Chemical Engineering, Nanoconjugates, 02 engineering and technology, 010402 general chemistry, enzyme catalysis, 01 natural sciences, Enzyme catalysis, Fungal Proteins, Amphiphile, biphasic biocatalysis, Environmental Chemistry, General Materials Science, Organic Chemicals, Hydrophobic silica, Esterification, biology, Chemistry, Lipase, Transesterification, nonaqueous Pickering emulsions, 021001 nanoscience & nanotechnology, biology.organism_classification, Pickering emulsion, Enzymes, 0104 chemical sciences, General Energy, nanoconjugates, Chemical engineering, Biocatalysis, Candida antarctica, 0210 nano-technology, Hydrophobic and Hydrophilic Interactions

Abstract

Nonaqueous Pickering emulsions (PEs) are a powerful platform for catalysis design, offering both a large interface contact and a preferable environment for water-sensitive synthesis. However, up to now, little progress has been made to incorporate insoluble enzymes into the nonaqueous system for biotransformation. Herein, we present biocatalytically active nonaqueous PEs, stabilized by particle-enzyme nanoconjugates, for the fast transesterification and esterification, and eventually for biodiesel synthesis. Our nanoconjugates are the hybrid biocatalysts tailor-made by loading hydrophilic Candida antarctica lipase B onto hydrophobic silica nanoparticles, resulting in not only catalytically active but highly amphiphilic particles for stabilization of a methanol-decane emulsion. The enzyme activity in these PEs is significantly enhanced, ca. 375-time higher than in the nonaqueous biphasic control. Moreover, the PEs can be multiply reused without significant loss of enzyme performance. With this proof‐of‐concept, we reasonably expect that our system can be expanded for many advanced syntheses using different enzymes in the future.

Published

2020

170. A search for enhanced photodynamic activity against Staphylococcus aureus planktonic cells and biofilms: the evaluation of phthalocyanine–detonation nanodiamond–Ag nanoconjugates

Author

Tebello Nyokong, Refilwe Matshitse, and Yolande Ikala Openda

Subjects

Staphylococcus aureus, Indoles, Photosensitizing Agents, Silver, Molecular Structure, Chemistry, Singlet oxygen, Biofilm, Nanoparticle, chemistry.chemical_element, Microbial Sensitivity Tests, Nanoconjugates, Zinc, Isoindoles, Plankton, Detonation nanodiamond, Anti-Bacterial Agents, Nanodiamonds, chemistry.chemical_compound, Covalent bond, Biofilms, Phthalocyanine, Physical and Theoretical Chemistry, Nuclear chemistry

Abstract

The present work reports on the synthesis and characterization of novel zinc (2) and indium (3) 2-amino-4-bromophenoxy substituted phthalocyanines (Pcs) along with the self-assembled nanoconjugates formed via π–π stacking interaction onto detonation nanodiamonds (DNDs) to form 2@DNDs and 3@DNDs. 2@DNDs and 3@DNDs were covalently linked to chitosan–silver mediated nanoparticles (CSAg) to form 2@DNDs-CSAg and 3@DNDs-CSAg nanoconjugates. High singlet oxygen quantum yields in DMSO of 0.69 and 0.72 for Pcs alone and 0.90 and 0.92 for 2@DNDs-CSAg and 3@DNDs-CSAg, respectively, were obtained. The photodynamic antimicrobial chemotherapy (PACT) activity of both phthalocyanines and nanoconjugates was tested against planktonic cells and biofilms of S. aureus. 2@DNDs-CSAg and 3@DNDs-CSAg caused effective killing with a log reduction of 9.74. In addition, PACT studies on single-species S. aureus biofilms were carried out with log reduction values of 5.12 and 5.27 at 200 μg mL−1 for 2@DNDs-CSAg and 3@DNDs-CSAg, respectively.

Published

2020

171. Enhanced bactericidal activity of azithromycin‐coated silver nanoprisms in comparison to their spherical‐shaped counterparts

Author

Atif Yaqub, Fouzia Tanvir, Sharafat Ali, Shaista Ali, M. Naz, and Sarwar Allah Ditta

Subjects

Chemistry, Biomedical Engineering, Nanoparticle, Bioengineering, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Azithromycin, 01 natural sciences, Silver nanoparticle, 0104 chemical sciences, Nanomaterials, medicine, General Materials Science, Fourier transform infrared spectroscopy, 0210 nano-technology, Spherical shaped, Nanoconjugates, Nuclear chemistry, medicine.drug

Abstract

Human beings have been bearing great medical, social, and economic losses due to the ever-increasing rate of microbial infections and the development of resistance; hence, there is a dire need to develop novel strategic alternate tools to circumvent these infections. In this regard, metallic nanomaterials (NMs) have been reported to exhibit promising bactericidal properties. In the present study, two different shaped silver NMs, i.e. silver nanoparticles (AgNPs) and silver nanoprisms (AgNPrs) and their conjugates with azithromycin were synthesised, characterised, and tested for their bactericidal activity. The average particle sizes analysed for spherical nanoparticles were 30–47.5 nm, and for prismatic-nanoparticles was 35–60 nm, respectively. The distinct ultraviolet–visible peaks were obtained for NMs and their nanoconjugates. The results of Fourier transform infrared spectroscopy indicated the interaction of various functional groups from Azy with metallic NMs. The nanoprisms and their conjugates showed enhanced bactericidal potential as compared to AgNPs and their corresponding control. The efficiency of Azy–AgNPrs was statistically higher (P

Published

2020

172. ε-Polylysine Nanoconjugates: Value-Added Antimicrobials for Drug-Resistant Bacteria

Author

Rohini Singh, Saipriya Kamaraju, Venkataraman Sritharan, Shalini Gupta, and Puja Prasad

Subjects

E-polylysine, medicine.drug_class, business.industry, Biochemistry (medical), Antibiotics, Biomedical Engineering, General Chemistry, Antimicrobial, Microbiology, Biomaterials, Human health, chemistry.chemical_compound, Antibiotic resistance, chemistry, Polylysine, medicine, business, Nanoconjugates

Abstract

Antimicrobial resistance poses a serious threat to human health and is evidently not restricted to any one part of the globe. Over the last few decades, no new antibiotics have been discovered, and many antibiotics currently available are failing against several critical pathogenic strains due to emerging drug resistance. We have designed a strategy to combat deadly drug-resistant bacteria by using nanocargos that consist of gold nanoparticles (AuNPs) conjugated to ε-polylysine (PLL) and octadecanethiol (C18) either alone or in combination. These nanocargos when tested against reference strains of carbapenem-resistant

Published

2020

173. RNA Interference Nanotherapeutics for Treatment of Glioblastoma Multiforme

Author

Anupama Mittal, Shruti Shah, Jalpa Vataliya, Deepak Chitkara, Aditi Singh, and Prabhjeet Singh

Subjects

Oligonucleotides, Pharmaceutical Science, Nanoconjugates, 02 engineering and technology, 030226 pharmacology & pharmacy, Small hairpin RNA, Mice, 03 medical and health sciences, 0302 clinical medicine, RNA interference, Drug Discovery, microRNA, Animals, Humans, RNA, Small Interfering, Brain Neoplasms, Chemistry, Oligonucleotide, RNA, Genetic Therapy, 021001 nanoscience & nanotechnology, Xenograft Model Antitumor Assays, MicroRNAs, Treatment Outcome, Biopharmaceutical, Nucleic acid, Cancer research, Molecular Medicine, RNA Interference, RNA, Long Noncoding, Nanocarriers, Glioblastoma, 0210 nano-technology, Hydrophobic and Hydrophilic Interactions

Abstract

Nucleic acid therapeutics for RNA interference (RNAi) are gaining attention in the treatment and management of several kinds of the so-called "undruggable" tumors via targeting specific molecular pathways or oncogenes. Synthetic ribonucleic acid (RNAs) oligonucleotides like siRNA, miRNA, shRNA, and lncRNA have shown potential as novel therapeutics. However, the delivery of such oligonucleotides is significantly hampered by their physiochemical (such as hydrophilicity, negative charge, and instability) and biopharmaceutical features (in vivo serum stability, fast renal clearance, interaction with extracellular proteins, and hindrance in cellular internalization) that markedly reduce their biological activity. Recently, several nanocarriers have evolved as suitable non-viral vectors for oligonucleotide delivery, which are known to either complex or conjugate with these oligonucleotides efficiently and also overcome the extracellular and intracellular barriers, thereby allowing access to the tumoral micro-environment for the better and desired outcome in glioblastoma multiforme (GBM). This Review focuses on the up-to-date advancements in the field of RNAi nanotherapeutics utilized for GBM treatment.

Published

2020

174. The Efficacy of AgNO3 Nanoparticles Alone and Conjugated with Imipenem for Combating Extensively Drug-Resistant Pseudomonas aeruginosa

Author

Shahbandeh, Mahsa, Taati Moghadam, Majid, Mirnejad, Reza, Mirkalantari, Shiva, and Mirzaei, Mehrnaz

Subjects

Metal Nanoparticles, Microbial Sensitivity Tests, Nanoconjugates, Dynamic Light Scattering, beta-Lactamases, Anti-Bacterial Agents, Cell Line, Imipenem, P. aeruginosa, X-Ray Diffraction, International Journal of Nanomedicine, Drug Resistance, Multiple, Bacterial, Pseudomonas aeruginosa, Spectroscopy, Fourier Transform Infrared, Microscopy, Electron, Scanning, XDR, Humans, Silver Nitrate, Original Research, AgNO3 nanoparticle

Abstract

Mahsa Shahbandeh,1 Majid Taati Moghadam,2,3 Reza Mirnejad,4 Shiva Mirkalantari,5 Mehrnaz Mirzaei6 1Young Researchers and Elite Club, Saveh Branch, Islamic Azad University, Saveh, Iran; 2Department of Microbiology, Iran University of Medical Sciences, Tehran, Iran; 3Student Research Committee, Iran University of Medical Sciences, Tehran, Iran; 4Molecular Biology Research Center, System Biology and Poisoning Institute, Baqiyatallah University of Medical Sciences, Tehran, Iran; 5Microbiology, Faculty of Medicine, Microbiology Department, Iran University of Medical Sciences, Tehran, Iran; 6Department of Microbiology, Tehran Medical Sciences Branch, Islamic Azad University, Tehran, IranCorrespondence: : Reza MirnejadMolecular Biology Research Center, Systems Biology and Poisonings Institute, Baqiyatallah University of Medical Sciences, Tehran, IranEmail rmirnejad@bmsu.ac.irShiva MirkalantariMicrobiology, Faculty of Medicine, Microbiology Department, Iran University of Medical Sciences, Tehran, IranEmail Mirkalantari.sh@iums.ac.irIntroduction: The extensive drug-resistant (XDR) Pseudomonas aeruginosa (P. aeruginosa) causes a range of infections with high mortality rate, which inflicts additional costs on treatment. The use of nano-biotechnology-based methods in medicine has opened a new perspective against drug-resistant bacteria. The aim of this study was to evaluate the effectiveness of the AgNO3 nanoparticles alone and conjugated with imipenem (IMI) to combat extensively drug-resistant P. aeruginosa.Methods: Antibiotic susceptibility was carried out using disc diffusion method. Detection of different resistant genes was performed using standard polymerase chain reaction (PCR). The chemically synthesized AgNO3 particles were characterized using scanning electron microscope (SEM), dynamic light scattering (DLS) and X-ray diffraction (XRD) methods. Fourier transform infrared spectroscopy (FTIR) was accomplished to confirm the binding of AgNO3 with IMI. The microdilution broth method was used to obtain minimum inhibitory concentration (MIC) of AgNO3 and IMI-conjugated AgNO3. MTT (3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide) assay was carried out on L929 cell line to study the cytotoxicity of nanoparticles. The data were analyzed by Eta correlation ratio and chi-square (X2) test.Results: Analysis of the antibiotic resistance pattern showed that 12 (24%) isolates were XDR, and MIC values of IMI were between 64 and 128 μg/mL. Frequency of SHV, TEM, CTX M, IMP, VIM, OPR, SIM, SPM, GIM, NDM, VEB, PER, KPC, OXA, intI, intII, and intIII genes were 29 (58%), 26 (52%), 26 (52%), 32 (64%), 23 (46%), 43 (86%), 3 (6%), 6 (12%), 3 (6%), 4 (8%), 7 (14%), 6 (12%), 18 (36%), 4 (8%), 19 (38%), 16 (32%), and 2 (4%), respectively. The XRD, SEM, DLS, and FTIR analysis confirmed the synthesis of AgNO3 nanoparticles and their conjugation with IMI. The AgNO3 nanoparticles had antimicrobial activity, and their conjugation with IMI showed enhanced effectiveness against XDR isolates. The synthesized AgNO3 showed no cytotoxic effects.Conclusion: The results suggest that IMI-conjugated AgNO3 has a strong potency as a powerful antibacterial agent against XDR P. aeruginosa.Keywords: P. aeruginosa, AgNO3 nanoparticle, XDR, imipenem

Published

2020

175. Ecofriendly Multiphase Aqueous Colloidal Based on Carboxymethylcellulose Nanoconjugates with Luminescence Properties for Potential Bioimaging Cancer Cells

Author

Fernanda G.L. Medeiros Borsagli and Aislan E. Paiva

Subjects

Environmental Engineering, Photoluminescence, Materials science, Nanostructure, Polymers and Plastics, Nanoparticle, Nanotechnology, 02 engineering and technology, 021001 nanoscience & nanotechnology, Nanomaterials, 020401 chemical engineering, Nanocrystal, Quantum dot, Materials Chemistry, 0204 chemical engineering, 0210 nano-technology, Luminescence, Nanoconjugates

Abstract

Quantum dots (QD) or semiconductor nanoparticles are within the most researched nanomaterials currently. Their attractive optical, electronic and chemical properties can be adjusted by varying composition, size, and synthesis parameters. This tunability pushes these nanocrystals into different types of applications such as biomedical and environmental ones. One of the concerns about their use regards the inherent toxicity related to the most efficient emission QD based on heavy metals. In this context, we report the synthesis of eco-friendly Ag-In-S (AIS) and Zn-Ag-In-S (ZAIS) QD conjugated with a biodegradable polymer, carboxymethylcellulose (CMC). Colloidal AIS were synthesized using an eco-friendly aqueous route at room temperature. Co-precipitation process was controlled via CMC with two degrees of substitution (DS) and under different pH conditions. In order to improve the as-prepared AIS’ optical properties, ZnS was deposited over the nanocrystals with further annealing process, creating a core/shell alloyed nanostructure. The obtained QD were extensively characterized considering their optical, physicochemical and morphological features. Results demonstrated the presence of fairly monodispersed photoluminescent nanoparticles with average size of 3.0 nm for AIS QD and 4.3 nm for ZAIS QD. Moreover, modifying the synthesis parameters, it was possible to tune and improve the emission of the fluorescent nanoparticles (λem = 500 to 900 nm). Diffraction patterns suggested the formation of solid solutions of AIS and its correspondent binary compounds. Furthermore, cellular uptake assays demonstrated a more rapid internalization of fluorescent AIS and ZAIS nanoconjugates by cancer cells when compared to normal cells. These luminescent materials showed the potential of use in a wide range of applications, such as bioimaging of cancer cells.

Published

2020

176. Light-Driven Catalytic Regulation of Enzymes at the Interface with Plasmonic Nanomaterials

Author

Fernando López-Gallego, Luis M. Liz-Marzán, and Heloise Ribeiro de Barros

Subjects

0303 health sciences, Plasmonic nanoparticles, Materials science, Light, 030302 biochemistry & molecular biology, Temperature, Nanotechnology, Surface Plasmon Resonance, Photothermal therapy, Biochemistry, Ray, Enzymes, Nanostructures, Nanomaterials, 03 medical and health sciences, Biocatalysis, Biosensor, Nanoconjugates, Plasmon, Localized surface plasmon

Abstract

Regulation of enzymes is highly relevant toward orchestrating cell-free and stepwise biotransformations, thereby maximizing their overall performance. Plasmonic nanomaterials offer a great opportunity to tune the functionality of enzymes through their remarkable optical properties. Localized surface plasmon resonances (LSPR) can be used to modify chemical transformations at the nanomaterial's surface, upon light irradiation. Incident light can promote energetic processes, which may be related to an increase of local temperature (photothermal effects) but also to effects triggered by generated hotspots or hot electrons (photoelectronic effects). As a consequence, light irradiation of the protein-nanomaterial interface affects enzyme functionality. To harness these effects to finely and remotely regulate enzyme activity, the physicochemical features of the nanomaterial, properties of the incident light, and parameters governing molecular interactions must be optimized. In this Perspective, we discuss relevant examples that illustrate the use of plasmonic nanoparticles to control enzyme function through LSPR excitation. Finally, we also highlight the importance of expanding the use of plasmonic nanomaterials to the immobilization of multienzyme systems for light-driven regulation of cell-free biosynthetic pathways. Although this concept is living its infancy, we encourage the scientific community to advance in the development of novel light-controlled biocatalytic plasmonic nanoconjugates and explore their application in biosensing, applied biocatalysis, and biomedicine.

Published

2020

177. Lignin–Bimetallic Nanoconjugate Doped pH-Responsive Hydrogels for Laser-Assisted Antimicrobial Photodynamic Therapy

Author

Sanjam Chandna, Neeraj S. Thakur, Ravneet Kaur, and Jayeeta Bhaumik

Subjects

Polymers and Plastics, Cost effectiveness, medicine.medical_treatment, Bioengineering, Photodynamic therapy, Nanotechnology, Nanoconjugates, macromolecular substances, 02 engineering and technology, 010402 general chemistry, Lignin, complex mixtures, 01 natural sciences, Biomaterials, Anti-Infective Agents, Materials Chemistry, medicine, Photosensitizer, Chemistry, Lasers, technology, industry, and agriculture, Hydrogels, Hydrogen-Ion Concentration, 021001 nanoscience & nanotechnology, Antimicrobial, Controlled release, Anti-Bacterial Agents, 0104 chemical sciences, Photochemotherapy, Self-healing hydrogels, Drug delivery, 0210 nano-technology

Abstract

Bioinspired nano-antimicrobials stand out in terms of cost effectiveness and scalability when compared to their chemically synthesized counterparts. There is limited efficacy of current antibiotics due to their interference with the immune system as well as development of antibiotic resistance. Lignin, which is a naturally abundant polyphenol-rich biopolymer, can be utilized for the fabrication of sustainable antimicrobial materials. In the present work, development of stable nanocomposite hydrogels embedded with lignin-based photodynamic nanoconjugates has been described. This could lead to complete eradication of microbial infection upon laser exposure. For designing such hydrogels, initially photosensitizer decorated lignin-metallic and lignin-bimetallic nanoconjugates were developed utilizing simple and nontoxic methods. These photodynamic nanoconjugates were then characterized and doped into a poly(acrylic acid)-based hydrogel in order to achieve efficient pH-triggered controlled release. The nanocomposite hydrogels allowed maximum transmission of light, promoting their applicability in antimicrobial photodynamic therapy. Utilization of hydrogel helped in better retention of nanoconjugates, maintaining their antimicrobial photodynamic efficacy as validated via IC50 measurement and live-dead cell imaging. The biocompatible pH-responsive photodynamic antimicrobial hydrogels developed herein could be potentially applicable in controlled drug delivery through the construction of wound dressings, as well as for developing antifungal, antibacterial, or antiviral nanocoatings.

Published

2020

178. Systematic Evaluation of Protein-Based Nanoparticles for Stable Delivery of Small Interfering RNA

Author

Ajit Zambre, Dhananjay Suresh, Anandhi Upendran, Raghuraman Kannan, and Brian Jenkins

Subjects

Small interfering RNA, food.ingredient, biology, Chemistry, Biomedical Engineering, Pharmaceutical Science, Medicine (miscellaneous), Serum Albumin, Bovine, Bioengineering, Nanoconjugates, Gelatin, food, Cell culture, Cell Line, Tumor, Cancer cell, Biophysics, biology.protein, Nanoparticles, General Materials Science, Target protein, RNA, Small Interfering, Bovine serum albumin, Conjugate

Abstract

Developing a delivery vehicle to protect siRNA from degradation is a significant challenge. To solve this challenge, researchers attempted to use protein-based nanoparticles to deliver siRNA with limited to moderate success. However, a systematic investigation of comparing the ability of different protein-based nanoparticles as vehicles to deliver siRNA stably within cells is still unavailable. Therefore, in this study we synthesized a library of both non-targeted (proteinsiRNA) nanoparticles (NPs) and targeted (antibody conjugated protein-siRNA) NPs and evaluated ability to stably deliver siRNA in to cells to silence the gene of interest. We investigated nanoparticles of casein, bovine serum albumin, and gelatin for the delivery of siRNA. We synthesized and characterized a total of 12 nanoconjugates; in these conjugates, we either encapsulated, electrostatically attached, or covalently conjugated siRNA. We evaluated the efficiency of attaching siRNA to nanoconjugates, stability, and cellular delivery. The ability of siRNA to silence the protein of interest in cancer cells was also investigated. Among non-targeted conjugates, BSA matrix imparted relatively high stability to siRNA when encapsulated. Among targeted nanoconjugates, gelatin nanoparticles rendered high stability to siRNA upon covalent conjugation to the surface. On comparing with both targeted and non-targeted NPs for release of siRNA within cells, antibody-gelatin-siRNA conjugate exhibited high release and functional activity (down-regulation of target protein levels) within the cells as confirmed by both fluorescence imaging and Western blotting. In summary, our investigations show that targeted gelatin nanoparticles and non-targeted BSA nanoparticles possess high stability and excellent gene suppression capabilities and warrants further studies. We can extend the results from this study to develop stable siRNA delivery vehicles to specifically silence the protein of interest.

Published

2020

179. Precise engineering of Gemcitabine prodrug cocktails into single polymeric nanoparticles delivery for metastatic thyroid cancer cells

Author

Cheng-Gong Liu, Hua Liu, Qiongmei Han, Wan-Sen Li, Xiao-Dong Yang, Cuirong Zhu, and Wei Gui

Subjects

endocrine system diseases, Polymers, medicine.medical_treatment, Pharmaceutical Science, RM1-950, 02 engineering and technology, Nanoconjugates, 030226 pharmacology & pharmacy, Deoxycytidine, Linoleic Acid, 03 medical and health sciences, 0302 clinical medicine, Cell Line, Tumor, Adenocarcinoma, Follicular, medicine, thyroid cancer, Humans, Metastatic thyroid cancer, Prodrugs, Thyroid Neoplasms, Gemcitabine prodrug, Thyroid cancer, Chemotherapy, Drug Carriers, business.industry, Incidence (epidemiology), apoptosis, General Medicine, Prodrug, 021001 nanoscience & nanotechnology, medicine.disease, Polymeric nanoparticles, Gemcitabine, single polymeric nanoparticles, Microscopy, Electron, Apoptosis, Thyroid Cancer, Papillary, Cancer research, Nanoparticles, Therapeutics. Pharmacology, 0210 nano-technology, business, medicine.drug, Research Article

Abstract

GLOBOCAN estimates 36 types of cancers in 185 countries based on the incidence, mortality, and prevalence in the year 2019. Nowadays, chemotherapy is the most widely used cancer treatment among immune, radio, hormone, and gene therapies. Here, we describe a very simple yet cost-effective approach that synergistically combines drug reconstitution, supramolecular nano-assembly, and tumor-specific targeting to address the multiple challenges posed by the delivery of the chemotherapeutic Gemcitabine (GEM) drug. The GEM prodrugs were gifted to impulsively self-assemble into excellent steady nanoparticles size on covalent conjugation of linoleic acid hydrophobic through amide group with ∼100 nm. Newly synthesized GEM-NPs morphology was confirmed by various electron microscopic techniques. After successful synthesis, we have evaluated the anticancer property of GEM and GEM-NPs against B-CPAP (papillary thyroid carcinoma) and FTC-133 (human follicular thyroid carcinoma) cancer cell lines. Further studies such as AO-EB (acridine orange-ethidium bromide), nuclear staining and flow cytometry analyses on cell death mechanism signified that the cytotoxicity was associated with apoptosis in thyroid cancer cells. GEM-NPs show excellent biocompatibility compared to GEM. The present study explained that GEM-NPs as a safe and hopeful strategy for chemotherapeutics of thyroid cancer therapy and deserve for further clinical evaluations.

Published

2020

180. Temozolomide, Gemcitabine, and Decitabine Hybrid Nanoconjugates: From Design to Proof-of-Concept (PoC) of Synergies toward the Understanding of Drug Impact on Human Glioblastoma Cells

Author

Philippe Savarin, Jolanda Spadavecchia, Manon Courcelle, Ferdaous Sahli, Tony Lionel Palama, and Nadia Djaker

Subjects

Magnetic Resonance Spectroscopy, Metal Nanoparticles, Decitabine, Nanoconjugates, Deoxycytidine, Proof of Concept Study, 01 natural sciences, 03 medical and health sciences, Drug Delivery Systems, Cell Line, Tumor, Antineoplastic Combined Chemotherapy Protocols, Drug Discovery, Temozolomide, medicine, Humans, U87, Cell Proliferation, 030304 developmental biology, 0303 health sciences, Chemistry, Cancer, Drug Synergism, Photothermal therapy, medicine.disease, Gemcitabine, 0104 chemical sciences, Drug Liberation, 010404 medicinal & biomolecular chemistry, Drug Resistance, Neoplasm, Cancer research, Molecular Medicine, Nanomedicine, Spectrophotometry, Ultraviolet, Gold, Glioblastoma, medicine.drug

Abstract

This paper emphasizes the synthesis of novel hybrid drug nanoparticles (Hyb-D-AuNPs) based on gold-temozolomide (TMZ) complexes combined with gemcitabine (GEM) and decitabine (DAC) to improve the efficiency and reduce the resistance of U87 malignant glial cells against TMZ. All products were evaluated by several spectroscopic techniques (Raman, UV-Vis) and transmission electron microscopy (TEM). Besides, for therapeutic purposes, the effect of these nanoparticles on cell proliferation and toxicity was evaluated, which clearly showed a synergic action of TMZ and GEM. Through the analysis of the exometabolome by nuclear magnetic resonance (NMR), the metabolic changes in the culture medium were measured in glial cells. Moreover, these nanoparticles are especially appropriated to the thermal destruction of cancer in the case of photothermal therapy due to their photothermal heating properties. This study presents an original chemical approach that it could play a central role in the field of nanomedicine, with novel perspectives for the development of new drugs and active targeting in glioblastoma multiforme (GBM) cancer therapy.

Published

2020

181. Direct Conjugation of Retinoic Acid with Gold Nanoparticles to Improve Neural Differentiation of Human Adipose Stem Cells

Author

Batool Hashemibeni, Hossein Salehi, Mohammad Kazemi, Hamid Bahramian, Vajihe Asgari, Amir Landarani-Isfahani, and Noushin Amirpour

Subjects

0301 basic medicine, Stromal cell, Cell Survival, Neurogenesis, Immunocytochemistry, Retinoic acid, Metal Nanoparticles, Tretinoin, Nanoconjugates, 03 medical and health sciences, Cellular and Molecular Neuroscience, chemistry.chemical_compound, 0302 clinical medicine, Neural Stem Cells, Glial Fibrillary Acidic Protein, Humans, Cytotoxic T cell, MTT assay, Viability assay, Cells, Cultured, Mesenchymal Stem Cells, General Medicine, Cell biology, 030104 developmental biology, Adipose Tissue, chemistry, Colloidal gold, Gold, Stem cell, Microtubule-Associated Proteins, 030217 neurology & neurosurgery

Abstract

Gold nanoparticles (AuNPs) have been proposed as useful medical carriers in the field of regenerative medicine. This study aimed to assess the direct conjugation ability of retinoic acid (RA) with AuNPs and to develop a strategy to differentiate the human adipose-derived stromal/stem cells (hADSCs) into neurons using AuNPs-RA. The physical properties of this nanocarrier were characterized using FT-IR, TEM, and FE-SEM. Moreover, the efficiency of RA conjugation on AuNPs was determined at 99% using UV-Vis spectroscopy. According to the MTT assay, an RA concentration of 66 μM caused a 50% inhibition of cell viability and AuNPs were not cytotoxic in concentrations below 5 μg/ml. Real-time PCR and immunocytochemistry proved that AuNPs-RA is able to increase the expression of neuronal marker genes and the number of neuronal protein (GFAP and MAP2)-positive cells, 14 days post-induction of hADSCs. Taken together, these results confirmed that the AuNPs-RA promote the neuronal differentiation of hADSCs.

Published

2020

182. Versatile Bioconjugation Strategies of PEG-Modified Upconversion Nanoparticles for Bioanalytical Applications

Author

Petr Skládal, Nadiia Velychkivska, Eliška Odstrčilíková, Uliana Kostiv, Daniel Horák, Matěj Pastucha, Hans H. Gorris, Zdeněk Farka, Ognen Pop-Georgievski, and Matthias Jürgen Mickert

Subjects

Streptavidin, Bioconjugation, Polymers and Plastics, technology, industry, and agriculture, Bioengineering, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Combinatorial chemistry, Polyethylene Glycols, 0104 chemical sciences, Biomaterials, chemistry.chemical_compound, chemistry, PEG ratio, Materials Chemistry, Click chemistry, Nanoparticles, Azide, 0210 nano-technology, Ethylene glycol, Maleimide, Nanoconjugates

Abstract

Lanthanide-doped upconversion nanoparticles (UCNPs) display highly beneficial photophysical features for background-free bioimaging and bioanalysis; however, they are instable in high ionic strength buffers, have no functional groups, and are nonspecifically interacting. Here, we have prepared NIR-excitable UCNPs that are long-term colloidally stable in buffered media and possess functional groups. Heterobifunctional poly(ethylene glycol) (PEG) linkers bearing neridronate and alkyne or maleimide were attached to UCNPs via a ligand exchange. Streptavidin (SA)-conjugates were prepared by click reaction of UCNP@PEG-alkyne and SA-azide. Antihuman serum albumin pAbF antibody was modified with azide groups and conjugated to UCNP@PEG-alkyne via click reaction; alternatively, the antibody, after mild reduction of its disulfide bonds, was conjugated to UCNP@PEG-maleimide. We employed these nanoconjugates as labels for an upconversion-linked immunosorbent assay. SA-based labels achieved the lowest LOD of 0.17 ng/mL for the target albumin, which was superior compared to a fluorescence immunoassay (LOD 0.59 ng/mL) or an enzyme-linked immunoassay (LOD 0.56 ng/mL).

Published

2020

183. Genetically Encoded Stealth Nanoparticles of a Zwitterionic Polypeptide-Paclitaxel Conjugate Have a Wider Therapeutic Window than Abraxane in Multiple Tumor Models

Author

Nadia Kirmani, Xinghai Li, Jayanta Bhattacharya, Nikita Zakharov, Michael Dzuricky, Kenneth Young, Ivan Spasojevic, Samagya Banskota, Parisa Yousefpour, Ashutosh Chilkoti, and Soumen Saha

Subjects

Paclitaxel, Mice, Nude, Antineoplastic Agents, Bioengineering, Nanoconjugates, 02 engineering and technology, Micelle, law.invention, Mice, chemistry.chemical_compound, In vivo, law, Cell Line, Tumor, Neoplasms, Animals, Humans, General Materials Science, Taxane, Chemistry, Mechanical Engineering, General Chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Treatment Outcome, Drug delivery, Cancer research, Recombinant DNA, Albumin-Bound Paclitaxel, Peptides, 0210 nano-technology, Drug carrier, Conjugate

Abstract

Small-molecule therapeutics demonstrate suboptimal pharmacokinetics and bioavailability due to their hydrophobicity and size. One way to overcome these limitations-and improve their efficacy-is to use "stealth" macromolecular carriers that evade uptake by the reticuloendothelial system. Although unstructured polypeptides are of increasing interest as macromolecular drug carriers, current recombinant polypeptides in the clinical pipeline typically lack stealth properties. We address this challenge by developing new unstructured polypeptides, called zwitterionic polypeptides (ZIPPs), that exhibit "stealth" behavior in vivo. We show that conjugating paclitaxel to a ZIPP imparts amphiphilicity to the polypeptide chain that is sufficient to drive its self-assembly into micelles. This in turn increases the half-life of paclitaxel by 17-fold compared to free paclitaxel, and by 1.6-fold compared to the nonstealth control, i.e., ELP-paclitaxel. Treatment of mice bearing highly aggressive prostate or colon cancer with a single dose of ZIPP-paclitaxel nanoparticles leads to near-complete eradication of the tumor, and these nanoparticles have a wider therapeutic window than Abraxane, an FDA-approved taxane nanoformulation.

Published

2020

184. Synthesis of sericin-conjugated silver nanoparticles and their potential antimicrobial activity

Author

Qurat ul Ain, Iram Liaqat, Ghulam Murtaza, Muhammad Summer, Muhammad Tariq Zahid, Fatima Saleem, Hafiz Muhammad Tahir, Rabia Mushtaq, Shaukat Ali, and Amna Fazal

Subjects

Silver, Metal Nanoparticles, Nanoparticle, Microbial Sensitivity Tests, Nanoconjugates, Applied Microbiology and Biotechnology, Sericin, Silver nanoparticle, 03 medical and health sciences, Drug Stability, Animals, Agar diffusion test, Sericins, health care economics and organizations, 030304 developmental biology, Antibacterial agent, 0303 health sciences, Bacteria, 030306 microbiology, Chemistry, Temperature, technology, industry, and agriculture, General Medicine, Hydrogen-Ion Concentration, Bombyx, Antimicrobial, Anti-Bacterial Agents, Multiple drug resistance, Antibacterial activity, Nuclear chemistry

Abstract

Nanoparticles (NPs) are being recognized as antibacterial agents due to their rapidly increasing multidrug resistance in bacterial pathogens. Hence, there is an unmet need to identify the natural antibacterial agent. The present study aimed to evaluate the antibacterial activity of sericin-conjugated silver NPs synthesized by using sericin as a reducing and capping agent. Synthesized NPs were characterized by scanning electron microscope, nanolaser particle size analyzer (BT-90), Fourier-transform infrared analysis, and energy-dispersive X-ray. The biogenic NPs significantly inhibited the growth of Escherichia coli (12-15 mm zone of inhibition), Staphylococcus aureus (14.6-15.4 mm zone of inhibition), and Klebsiella pneumoniae (12.5-18 mm zone of inhibition). The stability of naturally synthesized NPs was examined at various temperatures (i.e., 4°C, 37°C, and 55°C) and pH (i.e., 3, 7, and 11). Temperature variability did not significantly affect the efficacy of NPs. However, NPs performed better at higher pH levels. This study suggested that the sericin-based silver NPs are not only effective against bacteria, but they also maintain the stability at different ranges of temperature and pH. We concluded that the sericin-conjugated silver NPs possess the remarkable antibacterial potential, which suggests their large-scale use as a cheap and stable antimicrobial agent in the future.

Published

2020

185. Targeting Pancreatic Cancer Cells and Stellate Cells Using Designer Nanotherapeutics in vitro

Author

Elechalawar, Chandra Kumar, Hossen, Md Nazir, Shankarappa, Priya, Peer, Cody J, Figg, William D, Robertson, J David, Bhattacharya, Resham, and Mukherjee, Priyabrata

Subjects

Drug Carriers, Cell Survival, pancreatic cancer, Pancreatic Stellate Cells, PEGylation, Cetuximab, Metal Nanoparticles, Antineoplastic Agents, Nanoconjugates, Deoxycytidine, Gemcitabine, Polyethylene Glycols, Pancreatic Neoplasms, Drug Delivery Systems, International Journal of Nanomedicine, gold nanoparticles, Cell Line, Tumor, drug delivery, Tumor Microenvironment, Humans, Gold, Original Research

Abstract

Chandra Kumar Elechalawar,1 Md Nazir Hossen,1 Priya Shankarappa,2 Cody J Peer,2 William D Figg,2 J David Robertson,3 Resham Bhattacharya,4 Priyabrata Mukherjee1,5 1Department of Pathology, The University of Oklahoma Health Sciences Center, Oklahoma City, OK 73104, USA; 2Clinical Pharmacology Program, National Cancer Institute, Bethesda, MD 20892, USA; 3Department of Chemistry and University of Missouri Research Reactor, University of Missouri, Columbia, MO 65211, USA; 4Department of Obstetrics and Gynecology, The University of Oklahoma Health Sciences Center, Oklahoma City, OK 73104, USA; 5Peggy and Charles Stephenson Cancer Center, The University of Oklahoma Health Sciences Center, Oklahoma City, OK 73104, USACorrespondence: Priyabrata MukherjeeDepartment of Pathology, The University of Oklahoma Health Sciences Center, 975 NE 10th Street, BRC-1409B, Oklahoma City, OK 73104, USATel +1 405-271-1133Fax +1 405-271-2472Email Priyabrata-Mukherjee@ouhsc.eduIntroduction and Objective: Pancreatic cancer (PC) is characterized by a robust desmoplastic environment, which limits the uptake of the standard first-line chemotherapeutic drug gemcitabine. Enhancing gemcitabine delivery to the complex tumor microenvironment (TME) is a major clinical challenge. Molecular crosstalk between pancreatic cancer cells (PCCs) and pancreatic stellate cells (PSCs) plays a critical role in desmoplastic reaction in PCs. Herein, we report the development of a targeted drug delivery system to inhibit the proliferation of PCCs and PSCs in vitro. Using gold nanoparticles as the delivery vehicle, the anti-EGFR antibody cetuximab (C225/C) as a targeting agent, gemcitabine as drug and polyethylene glycol (PEG) as a stealth molecule, we created a series of targeted drug delivery systems.Methods: Fabricated nanoconjugates were characterized by various physicochemical techniques such as UV-Visible spectroscopy, transmission electron microscopy, HPLC and instrumental neutron activation analysis (INAA).Results and Conclusion: Targeted gemcitabine delivery systems containing mPEG-SH having molecular weights of 550 Da or 1000 Da demonstrated superior efficacy in reducing the viability of both PCCs and PSCs as compared to their non-targeted counterparts. EGFR-targeted pathway was further validated by pre-treating cells with C225 followed by determining cellular viability. Taken together, in our current study we have developed a PEGylated targeted nanoconjugate ACG44P1000 that showed enhanced selectivity towards pancreatic cancer cells and pancreatic stellate cells, among others, for gemcitabine delivery. We will investigate the ability of these optimized conjugates to inhibit desmoplasia and tumor growth in vivo in our future studies.Keywords: pancreatic cancer, gold nanoparticles, PEGylation, drug delivery

Published

2020

186. Targeting of Silver Cations, Silver-Cystine Complexes, Ag Nanoclusters, and Nanoparticles towards SARS-CoV-2 RNA and Recombinant Virion Proteins

Author

Olga V. Morozova, Valentin A. Manuvera, Alexander E. Grishchechkin, Nikolay A. Barinov, Nataliya V. Shevlyagina, Vladimir G. Zhukhovitsky, Vassili N. Lazarev, and Dmitry V. Klinov

Subjects

Inflammation, Silver, SARS-CoV-2, viruses, nanosilver, beta-coronavirus, RNA-containing bacteriophage MS2, RT2-PCR, ELISA, xMAP, Virion, COVID-19, Metal Nanoparticles, Nanoconjugates, Antiviral Agents, Recombinant Proteins, Infectious Diseases, Ribonucleases, Virology, Cations, Cystine, Humans, RNA, Viral

Abstract

Background: Nanosilver possesses antiviral, antibacterial, anti-inflammatory, anti-angiogenesis, antiplatelet, and anticancer properties. The development of disinfectants, inactivated vaccines, and combined etiotropic and immunomodulation therapy against respiratory viral infections, including COVID-19, remains urgent. Aim: Our goal was to determine the SARS-CoV-2 molecular targets (genomic RNA and the structural virion proteins S and N) for silver-containing nanomaterials. Methods: SARS-CoV-2 gene cloning, purification of S2 and N recombinant proteins, viral RNA isolation from patients’ blood samples, reverse transcription with quantitative real-time PCR ((RT)2-PCR), ELISA, and multiplex immunofluorescent analysis with magnetic beads (xMAP) for detection of 17 inflammation markers. Results: Fluorescent Ag nanoclusters (NCs) less than 2 nm with a few recovered silver atoms, citrate coated Ag nanoparticles (NPs) with diameters of 20–120 nm, and nanoconjugates of 50–150 nm consisting of Ag NPs with different protein envelopes were constructed from AgNO3 and analyzed by means of transmission electron microscopy (TEM), atomic force microscopy (AFM), ultraviolet-visible light absorption, and fluorescent spectroscopy. SARS-CoV-2 RNA isolated from COVID-19 patients’ blood samples was completely cleaved with the artificial RNase complex compound Li+[Ag+2Cys2−(OH−)2(NH3)2] (Ag-2S), whereas other Ag-containing materials provided partial RNA degradation only. Treatment of the SARS-CoV-2 S2 and N recombinant antigens with AgNO3 and Ag NPs inhibited their binding with specific polyclonal antibodies, as shown by ELISA. Fluorescent Ag NCs with albumin or immunoglobulins, Ag-2S complex, and nanoconjugates of Ag NPs with protein shells had no effect on the interaction between coronavirus recombinant antigens and antibodies. Reduced production of a majority of the 17 inflammation biomarkers after treatment of three human cell lines with nanosilver was demonstrated by xMAP. Conclusion: The antiviral properties of the silver nanomaterials against SARS-CoV-2 coronavirus differed. The small-molecular-weight artificial RNase Ag-2S provided exhaustive RNA destruction but could not bind with the SARS-CoV-2 recombinant antigens. On the contrary, Ag+ ions and Ag NPs interacted with the SARS-CoV-2 recombinant antigens N and S but were less efficient at performing viral RNA cleavage. One should note that SARS-CoV-2 RNA was more stable than MS2 phage RNA. The isolated RNA of both the MS2 phage and SARS-CoV-2 were more degradable than the MS2 phage and coronavirus particles in patients’ blood, due to the protection with structural proteins. To reduce the risk of the virus resistance, a combined treatment with Ag-2S and Ag NPs could be used. To prevent cytokine storm during the early stages of respiratory infections with RNA-containing viruses, nanoconjugates of Ag NPs with surface proteins could be recommended.

Published

2022

187. Application of nickel chitosan nanoconjugate as an antifungal agent for combating Fusarium rot of wheat

Author

Divya Chouhan, Ankita Dutta, Anoop Kumar, Palash Mandal, and Chandrani Choudhuri

Subjects

Chitosan, Multidisciplinary, Antifungal Agents, Fusarium, Nickel, Seedlings, Spectroscopy, Fourier Transform Infrared, Nanoconjugates, Triticum, Fungicides, Industrial, Plant Diseases

Abstract

Agro-researchers are endlessly trying to derive a potential biomolecule having antifungal properties in order to replace the application of synthetic fungicides on agricultural fields. Rot disease often caused by Fusarium solani made severe loss of wheat crops every year. Chitosan and its metallic nano-derivatives hold a broad-spectrum antifungal property. Our interdisciplinary study deals with the application of nickel chitosan nanoconjugate (NiCNC) against Fusarium rot of wheat, in comparison with chitosan nanoparticles (CNPs) and commercial fungicide Mancozeb. CNPs and NiCNC were characterized on the basis of UV–Vis spectrophotometry, HR-TEM, FESEM, EDXS and FT-IR. Both CNPs and NiCNC were found effective against the fungal growth, of which NiCNC at 0.04 mg/mL showed complete termination of F. solani grown in suitable medium. Ultrastructural analysis of F. solani conidia treated with NiCNC revealed pronounced damages and disruption of the membrane surface. Fluorescence microscopic study revealed generation of oxidative stress in the fungal system upon NiCNC exposure. Moreover, NiCNC showed reduction in rot disease incidence by 83.33% of wheat seedlings which was further confirmed through the observation of anatomical sections of the stem. NiCNC application helps the seedling to overcome the adverse effect of pathogen, which was evaluated through stress indices attributes.

Published

2022

188. Polyglutamate-based nanoconjugates for image-guided surgery and post-operative melanoma metastases prevention

Author

Yana Epshtein, Rachel Blau, Evgeni Pisarevsky, Shani Koshrovski-Michael, Dikla Ben-Shushan, Sabina Pozzi, Gal Shenbach-Koltin, Lidar Fridrich, Marina Buzhor, Adva Krivitsky, Pradip Dey, and Ronit Satchi-Fainaro

Subjects

Mitogen-Activated Protein Kinase Kinases, Proto-Oncogene Proteins B-raf, Skin Neoplasms, Medicine (miscellaneous), Glutamic Acid, Nanoconjugates, Cathepsins, Mice, Polyglutamic Acid, Surgery, Computer-Assisted, Animals, Neoplasm Recurrence, Local, Pharmacology, Toxicology and Pharmaceutics (miscellaneous), Immune Checkpoint Inhibitors, Melanoma, Protein Kinase Inhibitors

Published

2022

189. DNA-MnO

Author

Hua, Chai, Xiaoyi, Ma, Haixuan, Sun, and Peng, Miao

Subjects

Manganese Compounds, Oxides, DNA, Nanoconjugates, Polymerase Chain Reaction

Abstract

Manganese dioxide (MnO

Published

2022

190. PD-L1 siRNA-hyaluronic acid conjugate for dual-targeted cancer immunotherapy

Author

Suyeon Kim, Roun Heo, Seok Ho Song, Kwon-Ho Song, Jung Min Shin, Se Jin Oh, Hyo-Jung Lee, Jo Eun Chung, Jae Hyung Park, and Tae Woo Kim

Subjects

Mice, Inbred C57BL, Mice, Antigens, Neoplasm, Ovalbumin, Neoplasms, Tumor Microenvironment, Pharmaceutical Science, Animals, Immunotherapy, Nanoconjugates, Hyaluronic Acid, RNA, Small Interfering, B7-H1 Antigen

Abstract

"Foreignization" of tumor cells via delivery of a non-self foreign antigen (Ag) into tumors is an appealing strategy to initiate anti-tumor immunity that can facilitate tumor rejection by pre-existing foreign-Ag-reactive T cells. However, the immune-suppressive factors in the tumor microenvironment (TME) limit the durable and potent immune response of these cells against tumor antigens, stressing the need for improved tumor-foreignization strategies. Here, we demonstrate that blockade of programmed cell death ligand 1 (PD-L1) on both tumor cells and dendritic cells (DCs) can markedly potentiate the induction of tumor-reactive T cells, thereby strengthening the anti-tumor immunity ignited by tumor-foreignization. Specifically, we developed a polymeric nanoconjugate (PEG-HA-OVA/PPLs), consisting of siPD-L1-based polyplexes, PEGylated hyaluronic acid as the CD44-targeting moiety, and ovalbumin (OVA) as a model foreign antigen. Notably, PEG-HA-OVA/PPLs were simultaneously delivered into CD44

Published

2022

191. Nanoconjugate Synthesis of

Author

Arpitha Badarinath, Mahajanakatti, Telugu Seetharam, Deepak, Raghu Ram, Achar, Sushma, Pradeep, Shashanka K, Prasad, Rajeswari, Narayanappa, Deepthi, Bhaskar, Sushravya, Shetty, Govindappa, Melappa, Lavanya, Chandramouli, Sanjukta, Mazumdar, Ekaterina, Silina, Victor, Stupin, Chandrashekar, Srinivasa, Chandan, Shivamallu, and Shiva Prasad, Kollur

Subjects

Molecular Docking Simulation, Silver, Plant Extracts, Elaeocarpaceae, Spectroscopy, Fourier Transform Infrared, Metal Nanoparticles, Green Chemistry Technology, Nanoconjugates, Anti-Bacterial Agents

Abstract

Cancer is one of the leading causes of death worldwide, accountable for a total of 10 million deaths in the year 2020, according to GLOBOCAN 2020. The advancements in the field of cancer research indicate the need for direction towards the development of new drug candidates that are instrumental in a tumour-specific action. The pool of natural compounds proves to be a promising avenue for the discovery of groundbreaking cancer therapeutics.

Published

2022

192. Enhancement of anti-neoplastic effects of cuminaldehyde against breast cancer via mesoporous silica nanoparticle based targeted drug delivery system

Author

Sumit Ghosh, Mousumi Kundu, Sayanta Dutta, Sushweta Mahalanobish, Noyel Ghosh, Joydeep Das, and Parames C. Sil

Subjects

Drug Carriers, Antineoplastic Agents, Breast Neoplasms, General Medicine, Nanoconjugates, Silicon Dioxide, General Biochemistry, Genetics and Molecular Biology, Mice, Drug Delivery Systems, Benzaldehydes, Animals, Cymenes, Humans, Nanoparticles, Female, General Pharmacology, Toxicology and Pharmaceutics, Porosity

Abstract

Synthesis of novel drug delivery system for targeted delivery of cuminaldehyde to breast cancer cells and the subsequent analyses of anti-neoplastic potential of the drug.3-carboxy-phenyl boronic acid (PBA) conjugated and polyacrylic acid (PAA) gated mesoporous silica nanoparticles (MSNs) were synthesized for the targeted delivery of cuminaldehyde (CUM) to breast cancer cells. Enhancement of anti-neoplastic effects of cuminaldehyde (4-isopropylbenzaldehyde) by the nanoconjugates was assessed.The anti-cancer effects of non-targeted and targeted drug-nanoconjugates were examined in vitro and in vivo. The targeted drug-nanoconjugates caused cell cycle arrest and induced the intrinsic pathway of apoptosis in MCF-7 cells through mitochondrial damage. In vivo intravenous injection of the targeted drug-nanoconjugates led to effective reduction in growth of 4 T1 induced mammary pad tumor in female BALB/c mice via augmented accumulation of cuminaldehyde. The drug-nanoconjugates did not exhibit any systemic toxicity.Therefore, MSN-PBA-CUM-PAA represents a potent therapeutic model for breast cancer treatment.

Published

2022

193. Universita degli Studi di Milano Researchers Provide New Insights into Brain Metastasis (Ferritin nanoconjugates guide trastuzumab brain delivery to promote an antitumor response in murine HER2 + breast cancer brain metastasis).

Abstract

Here, we investigated the potential of HFn to drive TZ brain delivery and promote a targeted antitumor response in a murine model of BC BM established by stereotaxic injection of engineered BC cells overexpressing human HER2. Keywords: Antineoplastic Monoclonal Antibodies; Antineoplastics; Biotechnology; Brain Diseases and Conditions; Brain Metastasis; Breast Cancer; Cancer; Carrier Proteins; Docetaxel Therapy; Drugs and Therapies; Emerging Technologies; Ferritins; HER2 Inhibitors; Health and Medicine; Heparin Therapy; Immunologic Agents; Iron-Binding Proteins; Medical Devices; Mitotic Inhibitors; Monoclonal Antibodies; Nanoconjugates; Nanotechnology; Oncology; Pharmaceuticals; Risk and Prevention; Trastuzumab Therapy; Tyrosine Kinase Inhibitors; Women's Health EN Antineoplastic Monoclonal Antibodies Antineoplastics Biotechnology Brain Diseases and Conditions Brain Metastasis Breast Cancer Cancer Carrier Proteins Docetaxel Therapy Drugs and Therapies Emerging Technologies Ferritins HER2 Inhibitors Health and Medicine Heparin Therapy Immunologic Agents Iron-Binding Proteins Medical Devices Mitotic Inhibitors Monoclonal Antibodies Nanoconjugates Nanotechnology Oncology Pharmaceuticals Risk and Prevention Trastuzumab Therapy Tyrosine Kinase Inhibitors Women's Health 1457 1457 1 10/09/23 20231013 NES 231013 2023 OCT 10 (NewsRx) -- By a News Reporter-Staff News Editor at Women's Health Weekly -- New study results on brain metastasis have been published. [Extracted from the article]

Published

2023

194. Study Findings on Breast Cancer Are Outlined in Reports from Binzhou Medical University (Anticancer Effect of Rutin-chitosan Nanoconjugates On the Transplanted Tumor of Triple-negative Breast Cancer Cells In Nude Mice).

Abstract

In vivo experiments showed that compared with free rutin, rutin-chitosan nanoconjugates compound had stronger anti-proliferation and pro-apoptotic effects on transplanted tumors of triple-negative breast cancer (TNBC) cells in nude mice. Keywords: Shandong; People's Republic of China; Asia; Anticancer Agents; Breast Cancer; Cancer; Cancer Therapy; Drugs and Therapies; Emerging Technologies; Health and Medicine; Nanoconjugates; Nanotechnology; Oncology; Protective Agents; Women's Health EN Shandong People's Republic of China Asia Anticancer Agents Breast Cancer Cancer Cancer Therapy Drugs and Therapies Emerging Technologies Health and Medicine Nanoconjugates Nanotechnology Oncology Protective Agents Women's Health 1242 1242 1 09/19/23 20230922 NES 230922 2023 SEP 19 (NewsRx) -- By a News Reporter-Staff News Editor at Women's Health Weekly -- Research findings on Oncology - Breast Cancer are discussed in a new report. [Extracted from the article]

Published

2023

195. Study Results from University of Johannesburg Broaden Understanding of Melanoma (The Efficacy of Zinc Phthalocyanine Nanoconjugate on Melanoma Cells Grown as Three-Dimensional Multicellular Tumour Spheroids).

Abstract

The news editors obtained a quote from the research from University of Johannesburg: "Photodynamic therapy (PDT) is an underutilised cancer therapy with an increased potency and negligible side effects, and it is non-invasive compared to traditional treatment modalities. Keywords: Cancer; Drugs and Therapies; Emerging Technologies; Health and Medicine; Melanoma; Nanoconjugates; Nanotechnology; Oncology; Pharmaceuticals EN Cancer Drugs and Therapies Emerging Technologies Health and Medicine Melanoma Nanoconjugates Nanotechnology Oncology Pharmaceuticals 2476 2476 1 09/19/23 20230922 NES 230922 2023 SEP 22 (NewsRx) -- By a News Reporter-Staff News Editor at Drug Week -- Research findings on melanoma are discussed in a new report. [Extracted from the article]

Published

2023

196. New Nanomaterials Study Findings Have Been Reported by Investigators at Quaid-i-Azam University (Synthesis and Enhanced Biological Activities of Methyl 5-amino-beta-resorcylate Capped Silver Nanoparticles).

Abstract

Islamabad, Pakistan, Asia, Drugs and Therapies, Emerging Technologies, Nanoconjugates, Nanomaterials, Nanoparticles, Nanotechnology Keywords: Islamabad; Pakistan; Asia; Drugs and Therapies; Emerging Technologies; Nanoconjugates; Nanomaterials; Nanoparticles; Nanotechnology EN Islamabad Pakistan Asia Drugs and Therapies Emerging Technologies Nanoconjugates Nanomaterials Nanoparticles Nanotechnology 1181 1181 1 09/19/23 20230922 NES 230922 2023 SEP 22 (NewsRx) -- By a News Reporter-Staff News Editor at Drug Week -- Current study results on Nanotechnology - Nanomaterials have been published. [Extracted from the article]

Published

2023

197. New Cancer Gene Therapy Study Findings Have Been Reported by Investigators at NOVA University Lisbon (Tackling Imatinib Resistance Via Au-nanoconjugates Using a Cml Resistant Cell Line).

Subjects

GENE therapy, CANCER genes, CANCER treatment, IMATINIB, CELL lines

Abstract

Caparica, Portugal, Europe, Antineoplastics, Aromatic Amino Acids, Amino Acids, BCR-ABL Tyrosine Kinase Inhibitors, Biotechnology, Cancer, Cancer Gene Therapy, Cell Line, Drugs and Therapies, Emerging Technologies, Enzymes and Coenzymes, Gene Therapy, Genetics, Health and Medicine, Imatinib Therapy, Kinase, Nanotechnology, Oncology, Pharmaceuticals, Protein Kinase Inhibitors, Nanoconjugates, Proteins, Proteomics, Tyrosine, Tyrosine Kinase Inhibitors, Tyrosine Kinase Keywords: Caparica; Portugal; Europe; Amino Acids; Antineoplastics; Aromatic Amino Acids; BCR-ABL Tyrosine Kinase Inhibitors; Biotechnology; Cancer; Cancer Gene Therapy; Cell Line; Drugs and Therapies; Emerging Technologies; Enzymes and Coenzymes; Gene Therapy; Genetics; Health and Medicine; Imatinib Therapy; Kinase; Nanoconjugates; Nanotechnology; Oncology; Pharmaceuticals; Protein Kinase Inhibitors; Proteins; Proteomics; Tyrosine; Tyrosine Kinase; Tyrosine Kinase Inhibitors EN Caparica Portugal Europe Amino Acids Antineoplastics Aromatic Amino Acids BCR-ABL Tyrosine Kinase Inhibitors Biotechnology Cancer Cancer Gene Therapy Cell Line Drugs and Therapies Emerging Technologies Enzymes and Coenzymes Gene Therapy Genetics Health and Medicine Imatinib Therapy Kinase Nanoconjugates Nanotechnology Oncology Pharmaceuticals Protein Kinase Inhibitors Proteins Proteomics Tyrosine Tyrosine Kinase Tyrosine Kinase Inhibitors 19 19 1 09/19/23 20230921 NES 230921 2023 SEP 18 (NewsRx) -- By a News Reporter-Staff News Editor at Cancer Gene Therapy Week -- A new study on Biotechnology - Cancer Gene Therapy is now available. [Extracted from the article]

Published

2023

198. New Artificial Intelligence Study Results Reported from Cairo University (Using Biospeckle and Libs Techniques With Artificial Intelligence To Monitor Phthalocyanine-gold Nanoconjugates As a New Drug Delivery Mediator for In Vivo Pdt).

Abstract

For more information on this research see: Using Biospeckle and Libs Techniques With Artificial Intelligence To Monitor Phthalocyanine-gold Nanoconjugates As a New Drug Delivery Mediator for In Vivo Pdt. Keywords: Giza; Egypt; Africa; Artificial Intelligence; Drug Delivery; Drug Delivery Systems; Drugs and Therapies; Emerging Technologies; Health and Medicine; Machine Learning; Nanoconjugates; Nanotechnology EN Giza Egypt Africa Artificial Intelligence Drug Delivery Drug Delivery Systems Drugs and Therapies Emerging Technologies Health and Medicine Machine Learning Nanoconjugates Nanotechnology 1341 1341 1 09/04/23 20230908 NES 230908 2023 SEP 8 (NewsRx) -- By a News Reporter-Staff News Editor at Drug Week -- Data detailed on Artificial Intelligence have been presented. [Extracted from the article]

Published

2023

199. Targeted Delivery of Cisplatin by Gold Nanoparticles: The Influence of Nanocarrier Surface Modification Type on the Efficiency of Drug Binding Examined by CE-ICP-MS/MS

Author

Anna M. Wróblewska, Aleksandra Milewska, Marcin Drozd, and Magdalena Matczuk

Subjects

Drug Carriers, Organic Chemistry, Electrophoresis, Capillary, Metal Nanoparticles, Antineoplastic Agents, General Medicine, Nanoconjugates, Catalysis, Dynamic Light Scattering, Computer Science Applications, Inorganic Chemistry, Tandem Mass Spectrometry, cisplatin, gold nanoparticles, drug delivery, targeted drug delivery systems, nanoparticle surface modification, nanocarrier surface functionalization, capillary electrophoresis, mass spectrometry, hyphenated techniques, CE-ICP-MS, Gold, Physical and Theoretical Chemistry, Cisplatin, Particle Size, Molecular Biology, Spectroscopy

Abstract

Spherical gold nanoparticles (GNPs), whose unique properties regarding biomedical applications were broadly investigated, are an object of interest as nanocarriers in drug targeted delivery systems (DTDSs). The possibility of surface functionalization, especially in enabling longer half-life in the bloodstream and enhancing cellular uptake, provides an opportunity to overcome the limitations of popular anticancer drugs (such as cisplatin) that cause severe side effects due to their nonselective transportation. Herein, we present investigations of gold nanoparticle–cisplatin systems formation (regarding reaction kinetics and equilibrium) in which it was proved that the formation efficiency and stability strongly depend on the nanoparticle surface functionalization. In this study, the capillary electrophoresis hyphenated with inductively coupled plasma tandem mass spectrometry (CE-ICP-MS/MS) was used for the first time to monitor gold–drug nanoconjugates formation. The research included optimizing CE separation conditions and determining reaction kinetics using the CE-ICP-MS/MS developed method. To characterize nanocarriers and portray changes in their physicochemical properties induced by the surface’s processes, additional hydrodynamic size and ζ-potential by dynamic light scattering (DLS) measurements were carried out. The examinations of three types of functionalized GNPs (GNP-PEG-COOH, GNP-PEG-OCH3, and GNP-PEG-biotin) distinguished the essential differences in drug binding efficiency and nanoconjugate stability.

Published

2022

200. Self-Illuminated, Oxygen-Supplemented Photodynamic Therapy via a Multienzyme-Mimicking Nanoconjugate

Author

Sheng-Yan Yin, Ke Zhang, Jishan Li, and Wei Liu

Subjects

Cell Survival, Surface Properties, medicine.medical_treatment, Biomedical Engineering, chemistry.chemical_element, Mice, Nude, Photodynamic therapy, Antineoplastic Agents, Biocompatible Materials, Nanoconjugates, Oxygen, Biomaterials, Mice, Liver Neoplasms, Experimental, Materials Testing, medicine, Tumor Cells, Cultured, Animals, Humans, Hyaluronic Acid, Particle Size, Metal-Organic Frameworks, Oxygen supply, Mice, Inbred BALB C, Biochemistry (medical), General Chemistry, Penetration (firestop), Hep G2 Cells, Hydrogen Peroxide, chemistry, Photochemotherapy, Biophysics, Female, Luminol, Current (fluid), Drug Screening Assays, Antitumor

Abstract

Current photodynamic therapy (PDT) faces several intrinsic limitations, including insufficient oxygen supply and limited penetration of external light sources. Herein, we report a nanoconjugate, which, in response to the elevated hydrogen peroxide levels associated with tumor tissues, can supplement the oxygen needed for PDT and provide local self-illumination. Consisting of a MnFe

Published

2022