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8 results on '"Meital Ben-David-Naim"'

3. Targeted nanoparticles modify neutrophil function in vivo

Author

Sandra Völs, Naomi Kaisar-Iluz, Merav E. Shaul, Arik Ryvkin, Haim Ashkenazy, Avishag Yehuda, Ronza Atamneh, Adina Heinberg, Meital Ben-David-Naim, Menucha Nadav, Shira Hirsch, Vera Mitesser, Seth J. Salpeter, Ron Dzikowski, Zvi Hayouka, Jonathan M. Gershoni, Zvi G. Fridlender, and Zvi Granot

Subjects
Immunology, Immunology and Allergy
Abstract

Neutrophils play critical roles in a broad spectrum of clinical conditions. Accordingly, manipulation of neutrophil function may provide a powerful immunotherapeutic approach. However, due to neutrophils characteristic short half-life and their large population number, this possibility was considered impractical. Here we describe the identification of peptides which specifically bind either murine or human neutrophils. Although the murine and human neutrophil-specific peptides are not cross-reactive, we identified CD177 as the neutrophil-expressed binding partner in both species. Decorating nanoparticles with a neutrophil-specific peptide confers neutrophil specificity and these neutrophil-specific nanoparticles accumulate in sites of inflammation. Significantly, we demonstrate that encapsulating neutrophil modifying small molecules within these nanoparticles yields specific modulation of neutrophil function (ROS production, degranulation, polarization), intracellular signaling and longevity both in vitro and in vivo. Collectively, our findings demonstrate that neutrophil specific targeting may serve as a novel mode of immunotherapy in disease.

Published
2022
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4. Targeted nanoparticles modify neutrophil function

Author

Sandra, Völs, Naomi, Kaisar-Iluz, Merav E, Shaul, Arik, Ryvkin, Haim, Ashkenazy, Avishag, Yehuda, Ronza, Atamneh, Adina, Heinberg, Meital, Ben-David-Naim, Menucha, Nadav, Shira, Hirsch, Vera, Mitesser, Seth J, Salpeter, Ron, Dzikowski, Zvi, Hayouka, Jonathan M, Gershoni, Zvi G, Fridlender, and Zvi, Granot

Subjects
Inflammation, Mice, Neutrophils, Humans, Animals, Nanoparticles, Reactive Oxygen Species
Abstract

Neutrophils play critical roles in a broad spectrum of clinical conditions. Accordingly, manipulation of neutrophil function may provide a powerful immunotherapeutic approach. However, due to neutrophils characteristic short half-life and their large population number, this possibility was considered impractical. Here we describe the identification of peptides which specifically bind either murine or human neutrophils. Although the murine and human neutrophil-specific peptides are not cross-reactive, we identified CD177 as the neutrophil-expressed binding partner in both species. Decorating nanoparticles with a neutrophil-specific peptide confers neutrophil specificity and these neutrophil-specific nanoparticles accumulate in sites of inflammation. Significantly, we demonstrate that encapsulating neutrophil modifying small molecules within these nanoparticles yields specific modulation of neutrophil function (ROS production, degranulation, polarization), intracellular signaling and longevity both

Published
2022

5. Hepatic targeting of the centrally active cannabinoid 1 receptor (CB

Author

Shira, Hirsch, Liad, Hinden, Meital Ben-David, Naim, Saja, Baraghithy, Anna, Permyakova, Shahar, Azar, Taher, Nasser, Emma, Portnoy, Majd, Agbaria, Alina, Nemirovski, Gershon, Golomb, and Joseph, Tam

Abstract

Over-activation of the endocannabinoid/CB

Published
2022

6. Targeting and imaging of monocyte-derived macrophages in rat's injured artery following local delivery of liposomal quantum dots

Author

Gil Aizik, Uri Banin, Nir Waiskopf, Majd Agbaria, Meital Ben-David-Naim, Mirjam M. Nordling-David, Gershon Golomb, and Doaa Jbara-Agbaria

Subjects
Biodistribution, Pharmaceutical Science, 02 engineering and technology, 03 medical and health sciences, Restenosis, In vivo, Quantum Dots, medicine, Animals, Tissue Distribution, Cytotoxicity, 030304 developmental biology, 0303 health sciences, Liposome, business.industry, Macrophages, Arteries, 021001 nanoscience & nanotechnology, medicine.disease, Rats, medicine.anatomical_structure, Liposomes, Toxicity, Cancer research, Systemic administration, 0210 nano-technology, business, Artery
Abstract

Quantum dots offer superior optical features and hold a great potential as an imaging tool in comparison to ‘conventional’ fluorescent dyes. However, in vivo application in inflammatory-associated disorders is limited due to potential toxicity following systemic administration. Vascular inflammation contributes to cardiovascular diseases such as restenosis (re-narrowing of the artery following angioplasty), and poor prognosis is associated with the increased number of monocytes-derived macrophages (MDMs) in the arterial wall. Local administration of a suitable delivery system targeting MDMs could provide effective fluorescent imaging while minimizing systemic exposure and toxicity. We report here on the physicochemical characteristics and the structural stability of MDMs-targeted liposomal QDs (LipQDs), cellular uptake and cytotoxicity, the systemic biodistribution of LipQDs following local intra-luminal administration of LipQDs in carotid-injured rats vs. systemic administration, and imaging of QDs in the arterial tissue. The local treatment with LipQDs was found to be a suitable approach for targeting QDs to MDMs in the injured artery. In contrast to free QDs, the LipQDs formulation exhibited unique properties including structural and fluorescent stability, increased accumulation and retention for up to 24 h, and targeting properties enabling imaging of MDMs. MDMs imaging by targeted nanoparticles (NPs) could potentially serve for the detection of MDMs density in the injured artery for diagnostic purposes.

Published
2020
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7. Targeted siRNA Nanoparticles for Mammary Carcinoma Therapy

Author

Meital Ben-David-Naim, Etty Grad, Gil Aizik, Arie Dagan, Gershon Golomb, Alisa Morss Clyne, Mirjam M. Nordling-David, and Zvi Granot

Subjects
Cancer Research, osteopontin, media_common.quotation_subject, Peptide, 02 engineering and technology, Gene delivery, lcsh:RC254-282, Article, Extracellular matrix, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Osteopontin, Internalization, media_common, mammary carcinoma, chemistry.chemical_classification, Gene knockdown, Mammary tumor, biology, targeted delivery system, technology, industry, and agriculture, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, 021001 nanoscience & nanotechnology, PLGA, Oncology, chemistry, 030220 oncology & carcinogenesis, siRNA, Cancer research, biology.protein, nanoparticles, 0210 nano-technology
Abstract

Non-viral, polymeric-based, siRNA nanoparticles (NPs) have been proposed as promising gene delivery systems. Encapsulating siRNA in targeted NPs could confer improved biological stability, extended half-life, enhanced permeability, effective tumor accumulation, and therapy. In this work, a peptide derived from apolipoprotein B100 (ApoB-P), the protein moiety of low-density lipoprotein, was used to target siRNA-loaded PEGylated NPs to the extracellular matrix/proteoglycans (ECM/PGs) of a mammary carcinoma tumor. siRNA against osteopontin (siOPN), a protein involved in breast cancer development and progression, was encapsulated into PEGylated poly(d,l-lactic-co-glycolic acid) (PLGA) NPs using the double emulsion solvent diffusion technique. The NPs obtained possessed desired physicochemical properties including ~200 nm size, a neutral surface charge, and high siOPN loading of ~5 &micro, g/mg. ApoB-P-targeted NPs exhibited both enhanced binding to isolated ECM and internalization by MDA-MB-231 human mammary carcinoma cells, in comparison to non-targeted NPs. Increased accumulation of the targeted NPs was achieved in the primary mammary tumor of mice xenografted with MDA-MB-231 mammary carcinoma cells as well as in the lungs, one of the main sites affected by metastases. siOPN NPs treatment resulted in significant inhibition of tumor growth (similar bioactivity of both formulations), accompanied with significant reduction of OPN mRNA levels (~40% knockdown of mRNA levels). We demonstrated that targeted NPs possessed enhanced tumor accumulation with increased therapeutic potential in mice models of mammary carcinoma.

Published
2019

8. Polymeric nanoparticles of siRNA prepared by a double-emulsion solvent-diffusion technique: Physicochemical properties, toxicity, biodistribution and efficacy in a mammary carcinoma mice model

Author

Gershon Golomb, Ofra Moshel, Meital Ben David-Naim, Etty Grad, Zvi Granot, Gil Aizik, and Mirjam M. Nordling-David

Subjects
Serum, Nanoparticle, 02 engineering and technology, Diffusion, chemistry.chemical_compound, 0302 clinical medicine, Polylactic Acid-Polyglycolic Acid Copolymer, Polyethyleneimine, Tissue Distribution, Osteopontin, RNA, Small Interfering, Cytotoxicity, Mice, Inbred BALB C, biology, Cell Death, 021001 nanoscience & nanotechnology, Endocytosis, Solvent, Mechanics of Materials, 030220 oncology & carcinogenesis, Gene Knockdown Techniques, Toxicity, Emulsions, Female, 0210 nano-technology, Biodistribution, Materials science, Static Electricity, Biophysics, Bioengineering, Biomaterials, 03 medical and health sciences, Cell Line, Tumor, Animals, Humans, Gene Silencing, Lactic Acid, RNA, Messenger, Particle Size, Cell Proliferation, Polyethylenimine, technology, industry, and agriculture, Mammary Neoplasms, Experimental, Molecular biology, Xenograft Model Antitumor Assays, Molecular Weight, Disease Models, Animal, chemistry, Tumor progression, Ceramics and Composites, biology.protein, Solvents, Nanoparticles, Polyglycolic Acid
Abstract

siRNA-loaded nanoparticles (NPs) administered systemically can overcome the poor stability and rapid elimination of free double-stranded RNA in circulation, resulting in increased tumor accumulation and efficacy. siRNA against osteopontin (siOPN), a protein involved in breast cancer development, was encapsulated in poly(D,L-lactic-co-glycolic acid) NPs by a double emulsion solvent diffusion (DESD) technique. We also compared the effect of polyethylenimine (PEI) molecular weight (800 Da and 25 kDa), used as the counter-ion for siRNA complexation, on the physicochemical properties of the NPs, cytotoxicity, and cellular uptake. NPs prepared by the DESD technique were obtained at the desired size (∼170 nm) using both types of PEIs, and were characterized with a neutral surface charge, high encapsulation yield (up to ∼60%), siOPN concentration of 5.6–8.4 μg/mg, stability in physiologic conditions in vitro and in vivo, and long-term shelf-life stability (> 3 years). The NPs prepared using both PEIs exhibited no cytotoxicity in primary smooth muscle culture, and no detrimental effect on mice liver enzymes following their IV administration. Following cellular uptake and biodistribution studies, the therapeutic potential of the NPs was demonstrated by a significant decrease of tumor progression and size in an ectopic xenograft model of mammary carcinoma in mice.

Published
2017

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