Rany Rotem scite author profile

Active targeting of nanoparticles to tumours can be achieved by conjugation with specific antibodies. Specific active targeting of the HER2 receptor is demonstrated in vitro and in vivo with a subcutaneous MCF-7 breast cancer mouse model with trastuzumab-functionalized gold nanoparticles. The number of attached antibodies per nanoparticle was precisely controlled in a way that each nanoparticle was conjugated with either exactly one or exactly two antibodies. As expected, in vitro we found a moderate increase in targeting efficiency of nanoparticles with two instead of just one antibody attached per nanoparticle. However, the in vivo data demonstrate that best effect is obtained for nanoparticles with only exactly one antibody. There is indication that this is based on a size-related effect. These results highlight the importance of precisely controlling the ligand density on the nanoparticle surface for optimizing active targeting, and that less antibodies can exhibit more effect.

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MnO Nanoparticles Embedded in Functional Polymers as T₁ Contrast Agents for Magnetic Resonance Imaging

Mauri

Collico

Morelli

et al. 2020

ACS Appl. Nano Mater.

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The design and development of contrast agents (CAs) for magnetic resonance imaging (MRI) in clinical analysis is expected to improve image spatial resolution and to increase detection sensitivity, especially regarding neurological disorders and cancer disease. In particular, advanced CAs for T 1 -weighted images are investigated to achieve sensitive detection of early stage primary tumors or brain metastases. In this study, we present a strategy toward diagnostic T 1 contrast agents for MRI, based on polymer-modified MnO nanoparticles. Two different nanosystems were synthesized, consisting of 1) colloidal MnO nanocrystals wrapped by a multidentate amphiphilic polymer, and 2) MnO nanocrystals embedded into PLGA nanoparticles. These nanosystems were compared in terms of their MRI contrast power and biological safety. The latter combines the excellent biocompatibility of PLGA with the unique magnetic properties of MnO nanoparticles and allows sustained contrast enhancement over time. Longitudinal relaxivities of both MnO composite nanomaterials proved to be higher than those of commercial Gd-based contrast agents and Teslascan©, both in phosphate buffer saline and in plasma, also exhibiting low cytotoxicity. The high relaxation rates achieved with these contrast enhancers are promising toward future application in in vivo imaging.

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Inositol 1,4,5-trisphosphate 3-kinase B promotes Ca ²⁺ mobilization and the inflammatory activity of dendritic cells

et al. 2021

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Innate immune responses to Gram-negative bacteria depend on the recognition of lipopolysaccharide (LPS) by a receptor complex that includes CD14 and TLR4. In dendritic cells (DCs), CD14 enhances the activation not only of TLR4 but also that of the NFAT family of transcription factors, which suppresses cell survival and promotes the production of inflammatory mediators. NFAT activation requires Ca2+ mobilization. In DCs, Ca2+ mobilization in response to LPS depends on phospholipase C γ2 (PLCγ2), which produces inositol 1,4,5-trisphosphate (IP3). Here, we showed that the IP3 receptor 3 (IP3R3) and ITPKB, a kinase that converts IP3 to inositol 1,3,4,5-tetrakisphosphate (IP4), were both necessary for Ca2+ mobilization and NFAT activation in mouse and human DCs. A pool of IP3R3 was located on the plasma membrane of DCs, where it colocalized with CD14 and ITPKB. Upon LPS binding to CD14, ITPKB was required for Ca2+ mobilization through plasma membrane–localized IP3R3 and for NFAT nuclear translocation. Pharmacological inhibition of ITPKB in mice reduced both LPS-induced tissue swelling and the severity of inflammatory arthritis to a similar extent as that induced by the inhibition of NFAT using nanoparticles that delivered an NFAT-inhibiting peptide specifically to phagocytic cells. Our results suggest that ITPKB may represent a promising target for anti-inflammatory therapies that aim to inhibit specific DC functions.

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Are Nanotechnological Approaches the Future of Treating Inflammatory diseases?

Rizzuto

Salvioni

Rotem

et al. 2019

Nanomedicine (Lond.)

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The current treatments for chronic inflammatory diseases cause severe side effects due to nonspecific drug accumulation. Nanotechnology opens the way to new therapeutic strategies that exploit the ability of immune cells, and especially of phagocytes, to internalize nanoparticles. The cellular uptake of nanoparticles requires specific interactions and is affected by the chemical and physical properties of the carriers. Therefore, optimizing these properties is crucial for designing nanodrugs for immunotherapy. In perspective, we discuss the nanoparticle-based approaches that have been proposed to induce tolerance in autoimmune disorders and lessen the symptoms of inflammatory diseases.

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Specific immunosuppressive role of nanodrugs targeting calcineurin in innate myeloid cells

et al. 2022

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Rany Rotem

Tumour homing and therapeutic effect of colloidal nanoparticles depend on the number of attached antibodies

MnO Nanoparticles Embedded in Functional Polymers as T₁ Contrast Agents for Magnetic Resonance Imaging

Inositol 1,4,5-trisphosphate 3-kinase B promotes Ca ²⁺ mobilization and the inflammatory activity of dendritic cells

Are Nanotechnological Approaches the Future of Treating Inflammatory diseases?

Specific immunosuppressive role of nanodrugs targeting calcineurin in innate myeloid cells

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Product

Resources

About

Rany Rotem

Tumour homing and therapeutic effect of colloidal nanoparticles depend on the number of attached antibodies

MnO Nanoparticles Embedded in Functional Polymers as T1 Contrast Agents for Magnetic Resonance Imaging

Inositol 1,4,5-trisphosphate 3-kinase B promotes Ca 2+ mobilization and the inflammatory activity of dendritic cells

Are Nanotechnological Approaches the Future of Treating Inflammatory diseases?

Specific immunosuppressive role of nanodrugs targeting calcineurin in innate myeloid cells

Contact Info

Product

Resources

About

MnO Nanoparticles Embedded in Functional Polymers as T₁ Contrast Agents for Magnetic Resonance Imaging

Inositol 1,4,5-trisphosphate 3-kinase B promotes Ca ²⁺ mobilization and the inflammatory activity of dendritic cells