Your search keyword '"Salvioni, L"' showing total 95 results

1. Direct quantification of cytosolic delivery of drug nanocarriers using FlAsH-EDT2

Author

Rotem, R., Bertolini, J.A., Salvioni, L., Barbieri, L., Rizzuto, M.A., Tinelli, V., Gori, A., Adams, S., Colombo, M., and Prosperi, D.

Published

2023

2. A new approach for direct visualization of unlabeled lipid nanoparticles for intracellular pathway analysis

Author

Testa, F, Salvioni, L, Giustra, M, Ostroman, I, Ferrari, B, Duncan, C, Colombo, M, Fiandra, L, Vanacore, G, Prosperi, D, Giustra, MD, Ferrari, BM, Vanacore, GM, Testa, F, Salvioni, L, Giustra, M, Ostroman, I, Ferrari, B, Duncan, C, Colombo, M, Fiandra, L, Vanacore, G, Prosperi, D, Giustra, MD, Ferrari, BM, and Vanacore, GM

Published

2024

3. Biodegradable SPI-based hydrogel for controlled release of nanomedicines: a potential approach against brain tumors recurrence

Author

Viale, F, Ciprandi, M, Leoni, L, Sierri, G, Renda, A, Barbugian, F, Koch, M, Sesana, S, Salvioni, L, Colombo, M, Mantegazza, F, Russo, L, Re, F, Viale, Francesca, Ciprandi, Matilde, Leoni, Luca, Sierri, Giulia, Renda, Antonio, Barbugian, Federica, Koch, Marcus, Sesana, Silvia, Salvioni, Lucia, Colombo, Miriam, Mantegazza, Francesco, Russo, Laura, Re, Francesca, Viale, F, Ciprandi, M, Leoni, L, Sierri, G, Renda, A, Barbugian, F, Koch, M, Sesana, S, Salvioni, L, Colombo, M, Mantegazza, F, Russo, L, Re, F, Viale, Francesca, Ciprandi, Matilde, Leoni, Luca, Sierri, Giulia, Renda, Antonio, Barbugian, Federica, Koch, Marcus, Sesana, Silvia, Salvioni, Lucia, Colombo, Miriam, Mantegazza, Francesco, Russo, Laura, and Re, Francesca

Abstract

Glioblastoma (GB) is the most common and aggressive brain tumor. The treatment for newly diagnosed glioblastoma is surgical resection of the primary tumor mass, followed by radiotherapy and chemotherapy. However, recurrences frequently occur in proximity to the surgical resection area. In these cases, none of the current therapies is effective. Recently, implantable biomaterials seem to be a promising strategy against GB recurrence. Here, for the first time we combined the tailorable properties of soy-protein hydrogels with the versatility of drug-loaded liposomes to realize a hybrid biomaterial for controlled and sustained nanoparticles release. Hydrogel consisting of 18–20 % w/v soy-protein isolated were fabricated in absence of chemical cross-linkers. They were biodegradable (−10 % and −30 % of weight by hydrolytic and enzymatic degradation, respectively in 3 days), biocompatible (>95 % of cell viability after treatment), and capable of sustained release of intact doxorubicin-loaded liposomes (diffusion coefficient between 10−18 and 10 −19 m2 s−1). A proof-of-concept in a “donut-like” 3D-bioprinted model shows that liposomes released by hydrogels were able to diffuse in a model with a complex extracellular matrix-like network and a 3D structural organization, targeting glioblastoma cells. The combination of nanoparticles' encapsulation capabilities with the hydrogels' structural support and controlled release properties will provide a powerful tool with high clinical relevance that could be applicable for the treatment of other cancers, realizing patient-specific interventions.

Published

2024

4. Co-processed materials testing as excipients to produce Orally Disintegrating Tablets (ODT) using binder jet 3D-printing technology

Author

Ochoa, E, Morelli, L, Salvioni, L, Giustra, M, De Santes, B, Spena, F, Barbieri, L, Garbujo, S, Viganò, M, Novati, B, Tomaino, G, Moutaharrik, S, Prosperi, D, Palugan, L, Colombo, M, Ochoa, Evelyn, Morelli, Lucia, Salvioni, Lucia, Giustra, Marco, De Santes, Beatrice, Spena, Francesca, Barbieri, Linda, Garbujo, Stefania, Viganò, Matteo, Novati, Brian, Tomaino, Giulia, Moutaharrik, Saliha, Prosperi, Davide, Palugan, Luca, Colombo, Miriam, Ochoa, E, Morelli, L, Salvioni, L, Giustra, M, De Santes, B, Spena, F, Barbieri, L, Garbujo, S, Viganò, M, Novati, B, Tomaino, G, Moutaharrik, S, Prosperi, D, Palugan, L, Colombo, M, Ochoa, Evelyn, Morelli, Lucia, Salvioni, Lucia, Giustra, Marco, De Santes, Beatrice, Spena, Francesca, Barbieri, Linda, Garbujo, Stefania, Viganò, Matteo, Novati, Brian, Tomaino, Giulia, Moutaharrik, Saliha, Prosperi, Davide, Palugan, Luca, and Colombo, Miriam

Abstract

The use of co-processed materials for Orally Disintegrating Tablets (ODT) preparation by direct compression is well consolidated. However, the evaluation of their potential for ODT preparation by 3D printing technology remains almost unexplored. The present study aimed to estimate the use of commercially available co-processed excipients, conventionally applied in compression protocols, for the preparation of ODTs with binder jetting-3D printing technology. The latter was selected among the 3D printing techniques because the deposition of multiple powder layers allows for obtaining highly porous and easily disintegrating dosage forms. The influence of some process parameters, including layer thickness, type of waveform and spread speed, on the physical and mechanical properties of the prototypes printed were evaluated. Our results suggested that binder jetting-3D printing technology could benefit from the co-processed excipients for the preparation of solid dosage forms. The process optimization conducted with the experiments reported in this work indicated that additional excipients were needed to improve the physical properties of the resulting ODTs.

Published

2024

5. Microfluidic nanoparticle synthesis for oral solid dosage forms: A step toward clinical transition processes

Author

Morelli, L, Ochoa, E, Salvioni, L, Davide Giustra, M, De Santes, B, Spena, F, Barbieri, L, Garbujo, S, Tomaino, G, Novati, B, Bolis, L, Moutaharrik, S, Prosperi, D, Palugan, L, Colombo, M, Morelli, Lucia, Ochoa, Evelyn, Salvioni, Lucia, Davide Giustra, Marco, De Santes, Beatrice, Spena, Francesca, Barbieri, Linda, Garbujo, Stefania, Tomaino, Giulia, Novati, Brian, Bolis, Leonardo, Moutaharrik, Saliha, Prosperi, Davide, Palugan, Luca, Colombo, Miriam, Morelli, L, Ochoa, E, Salvioni, L, Davide Giustra, M, De Santes, B, Spena, F, Barbieri, L, Garbujo, S, Tomaino, G, Novati, B, Bolis, L, Moutaharrik, S, Prosperi, D, Palugan, L, Colombo, M, Morelli, Lucia, Ochoa, Evelyn, Salvioni, Lucia, Davide Giustra, Marco, De Santes, Beatrice, Spena, Francesca, Barbieri, Linda, Garbujo, Stefania, Tomaino, Giulia, Novati, Brian, Bolis, Leonardo, Moutaharrik, Saliha, Prosperi, Davide, Palugan, Luca, and Colombo, Miriam

Abstract

Nanomedicine provides various opportunities for addressing medical challenges associated with drug bioavailability, stability, and efficacy. In particular, oral nanoparticles (NPs) represent an alternative strategy to enhance the solubility and stability of active ingredients through the gastrointestinal tract. The nanocarriers could be used for both local and systemic targeting, enabling controlled release of encapsulated drugs. This approach allows more efficient therapies. In this work, we aim to develop reliable oral solid dosage forms incorporating NPs produced by either one pot synthesis or continuous production, following protocols that yield highly consistent outcomes, promoting their technology transfer and clinical use. Microfluidics technology was selected to allow an automated and highly productive synthetic approach suitable for the highly throughput production. In particular, innovative systems, which combine advantage of NPs and solid dosage formulation, were designed, developed, and characterized demonstrating the possibility to obtaining oral administration. The resulting NPs were thus carried on oral dosage forms, i.e., pellets and minitablets. NPs resulted stable after dosage forms manufacturing, leading to confidence also on protection of encapsulated drugs. Indomethacin was used as a tracer to test biopharmaceutical behaviour. Anti-inflammatories or cytotoxic chemotherapeutics could be vehiculated leading to a breakthrough in the treatment of severe diseases allowing the oral administration of these drugs. We believe that the advancement achieved with the results of our work paves the way for the progression of nanoproducts into clinical transition processes.

Published

2024

6. 99mTc-Radiolabeled Silica Nanocarriers for Targeted Detection and Treatment of HER2-Positive Breast Cancer

Author

Rainone P, De Palma A, Sudati F, Roffia V, Rigamonti V, Salvioni L, Colombo M, Ripamonti M, Spinelli AE, Mazza D, Mauri P, Moresco RM, Prosperi D, and Belloli S

Subjects

her2-positive bc, targeted silica nanoparticles, tz-half chain conjugation, 99mtc-radiolabeling, spect imaging, doxorubicin-loaded nanoparticles, Medicine (General), R5-920

Abstract

Paolo Rainone,1– 3 Antonella De Palma,4 Francesco Sudati,5 Valentina Roffia,4 Valentina Rigamonti,6 Lucia Salvioni,6 Miriam Colombo,6 Marilena Ripamonti,2 Antonello Enrico Spinelli,7 Davide Mazza,7 Pierluigi Mauri,4 Rosa Maria Moresco,1,2,7 Davide Prosperi,6 Sara Belloli2,7 1Department of Medicine and Surgery, University of Milano-Bicocca, Monza, 20900, Italy; 2Institute of Molecular Bioimaging and Physiology of CNR, Segrate, 20090, Italy; 3Doctorate School of Molecular and Translational Medicine, University of Milan, Milan, Italy; 4Institute of Biomedical Technologies of CNR, Segrate, 20090, Italy; 5PET and Nuclear Medicine Unit, San Raffaele Scientific Institute, Milan, 20132, Italy; 6NanoBioLab, Department of Biotechnology and Biosciences, University of Milano-Bicocca, Milan, 20126, Italy; 7Experimental Imaging Center, San Raffaele Scientific Institute, Milan, 20132, ItalyCorrespondence: Sara BelloliInstitute of Molecular Bioimaging and Physiology of CNR, Via Fratelli Cervi 93, Segrate, 20090, ItalyTel +39 02 26433640Fax +39 02 26432717Email belloli.sara@hsr.itIntroduction: The overexpression of Human Epidermal Growth Factor Receptor 2 (HER2) is usually associated with aggressive and infiltrating breast cancer (BC) phenotype, and metastases. Functionalized silica-based nanocarriers (SiNPs) can be labeled for in vivo imaging applications and loaded with chemotherapy drugs, making possible the simultaneous noninvasive diagnosis and treatment (theranostic) for HER2-positive BC.Methods: Firstly, FITC-filled SiNPs, were engineered with two different amounts of Hc-TZ (trastuzumab half-chain) per single nanoparticle (1:2 and 1:8, SiNPs to Hc-TZ ratio), which was 99mTc-radiolabeled at histidine residues for ex vivo and in vivo biodistribution evaluations. Secondly, nanoparticles were loaded with DOX and their in vitro and ex vivo/in vivo delivery was assessed, in comparison with liposomal Doxorubicin (Caelyx). Finally, the treatment efficacy of DOX-SiNPs-TZ (1:8 Hc-TZ) was evaluated in vivo by PET and supported by MS-based proteomics profiling of tumors.Results: SiNPs-TZ (1:8 Hc-TZ) tumor uptake was significantly greater than that of SiNPs-TZ (1:2 Hc-TZ) at 6 hours post-injection (p.i.) in ex vivo biodistribution experiment. At 24 h p.i., radioactivity values remained steady. Fluorescence microscopy, confirmed the presence of radiolabeled SiNPs-TZ (1:8 Hc-TZ) within tumor even at later times. SiNPs-TZ (1:8 Hc-TZ) nanoparticles loaded with Doxorubicin (DOX-SiNPs-TZ) showed a similar DOX delivery capability than Caelyx (at 6 h p.i.), in in vitro and ex vivo assays. Nevertheless, at the end of treatment, tumor volume was significantly reduced by DOX-SiNPs-TZ (1:8 Hc-TZ), compared to Caelyx and DOX-SiNPs treatment. Proteomics study identified 88 high stringent differentially expressed proteins comparing the three treatment groups with controls.Conclusion: These findings demonstrated a promising detection specificity and treatment efficacy for our system (SiNPs-TZ, 1:8 Hc-TZ), encouraging its potential use as a new theranostic agent for HER2-positive BC lesions. In addition, proteomic profile confirmed that a set of proteins, related to tumor aggressiveness, were positively affected by targeted nanoparticles.Keywords: HER2-positive BC, targeted silica nanoparticles, TZ-half chain conjugation, 99mTc-radiolabeling, SPECT imaging, doxorubicin-loaded nanoparticles

Published

2021

7. Specific immunosuppressive role of nanodrugs targeting calcineurin in innate myeloid cells

Author

Colombo, M, Marongiu, L, Mingozzi, F, Marzi, R, Cigni, C, Facchini, F, Rotem, R, Valache, M, Stucchi, G, Rocca, G, Gornati, L, Rizzuto, M, Salvioni, L, Zanoni, I, Gori, A, Prosperi, D, Granucci, F, Colombo M., Marongiu L., Mingozzi F., Marzi R., Cigni C., Facchini F. A., Rotem R., Valache M., Stucchi G., Rocca G., Gornati L., Rizzuto M. A., Salvioni L., Zanoni I., Gori A., Prosperi D., Granucci F., Colombo, M, Marongiu, L, Mingozzi, F, Marzi, R, Cigni, C, Facchini, F, Rotem, R, Valache, M, Stucchi, G, Rocca, G, Gornati, L, Rizzuto, M, Salvioni, L, Zanoni, I, Gori, A, Prosperi, D, Granucci, F, Colombo M., Marongiu L., Mingozzi F., Marzi R., Cigni C., Facchini F. A., Rotem R., Valache M., Stucchi G., Rocca G., Gornati L., Rizzuto M. A., Salvioni L., Zanoni I., Gori A., Prosperi D., and Granucci F.

Abstract

Calcineurin (CN) inhibitors currently used to avoid transplant rejection block the activation of adaptive immune responses but also prevent the development of tolerance toward the graft, by directly inhibiting T cells. CN, through the transcription factors of the NFAT family, plays an important role also in the differentiation dendritic cells (DCs), the main cells responsible for the activation of T lymphocytes. Therefore, we hypothesized that the inhibition of CN only in DCs and not in T cells could be sufficient to prevent T cell responses, while allowing for the development of tolerance. Here, we show that inhibition of CN/NFAT pathway in innate myeloid cells, using a new nanoconjugate capable of selectively targeting phagocytes in vivo, protects against graft rejection and induces a longer graft acceptance compared to common CN inhibitors. We propose a new generation of nanoparticles-based selective immune suppressive agents for a better control of transplant acceptance.

Published

2022

8. Negatively charged silver nanoparticles with potent antibacterial activity and reduced toxicity for pharmaceutical preparations

Author

Salvioni L, Galbiati E, Collico V, Alessio G, Avvakumova S, Corsi F, Tortora P, Prosperi D, and Colombo M

Subjects

silver nanoparticles, antibacterial activity, long term effect, nanoparticle toxicity, phase transfer, Medicine (General), R5-920

Abstract

Lucia Salvioni,1 Elisabetta Galbiati,1 Veronica Collico,1 Giulia Alessio,1 Svetlana Avvakumova,1 Fabio Corsi,2,3 Paolo Tortora,1 Davide Prosperi,1 Miriam Colombo1 1Nanobiolab, Department of Biotechnology and Bioscience, University of Milano-Bicocca, 2Biological and Clinical Science Department, University of Milan, Milano, 3Surgery Department, Breast Unit, IRCCS S Maugeri Foundation, Pavia, Italy Background: The discovery of new solutions with antibacterial activity as efficient and safe alternatives to common preservatives (such as parabens) and to combat emerging infections and drug-resistant bacterial pathogens is highly expected in cosmetics and pharmaceutics. Colloidal silver nanoparticles (NPs) are attracting interest as novel effective antimicrobial agents for the prevention of several infectious diseases.Methods: Water-soluble, negatively charged silver nanoparticles (AgNPs) were synthesized by reduction with citric and tannic acid and characterized by transmission electron microscopy, dynamic light scattering, zeta potential, differential centrifuge sedimentation, and ultraviolet–visible spectroscopy. AgNPs were tested with model Gram-negative and Gram-positive bacteria in comparison to two different kinds of commercially available AgNPs.Results: In this work, AgNPs with higher antibacterial activity compared to the commercially available colloidal silver solutions were prepared and investigated. Bacteria were plated and the antibacterial activity was tested at the same concentration of silver ions in all samples. The AgNPs did not show any significant reduction in the antibacterial activity for an acceptable time period. In addition, AgNPs were transferred to organic phase and retained their antibacterial efficacy in both aqueous and nonaqueous media and exhibited no toxicity in eukaryotic cells.Conclusion: We developed AgNPs with a 20 nm diameter and negative zeta potential with powerful antibacterial activity and low toxicity compared to currently available colloidal silver, suitable for cosmetic preservatives and pharmaceutical preparations administrable to humans and/or animals as needed. Keywords: silver nanoparticles, antibacterial activity, long-term effect, nanoparticle toxicity, phase transfer

Published

2017

9. Direct quantification of cytosolic delivery of drug nanocarriers using FlAsH-EDT2

Author

Rotem, R, Bertolini, J, Salvioni, L, Barbieri, L, Rizzuto, M, Tinelli, V, Gori, A, Adams, S, Colombo, M, Prosperi, D, Bertolini, JA, Rizzuto, MA, Rotem, R, Bertolini, J, Salvioni, L, Barbieri, L, Rizzuto, M, Tinelli, V, Gori, A, Adams, S, Colombo, M, Prosperi, D, Bertolini, JA, and Rizzuto, MA

Abstract

The delivery of therapeutics across the cell membrane and into the cytoplasm is a major challenge that limits the development of new therapies. This challenge is compounded by the lack of a general assay for cytosolic delivery. Here we develop this assay based on the pro-fluorophore CrAsH-EDT2, and provide cytosolic penetration results for a variety of drug delivery agents (polyethyleneimine, poly-arginine, Ferritin, poly [maleic anhydride-alt-isobutene] grafted with dodecylamine, and cationic liposomes) into HeLa and T98G cells. Our results show that this method can be widely applicable to different cells and drug delivery agents, and yield statistically robust results. We later use this method to optimize and improve a model drug delivery agent's (Ferritin) cytosolic penetration.

Published

2023

10. Conjugation of gold nanoparticles with multidentate surfactants for enhanced stability and biological properties

Author

Rotem, R, Giustra, M, Arrigoni, F, Bertolini, J, Garbujo, S, Rizzuto, M, Salvioni, L, Barbieri, L, Bertini, L, De Gioia, L, Colombo, M, Prosperi, D, Bertolini, JA, Rizzuto, MA, Rotem, R, Giustra, M, Arrigoni, F, Bertolini, J, Garbujo, S, Rizzuto, M, Salvioni, L, Barbieri, L, Bertini, L, De Gioia, L, Colombo, M, Prosperi, D, Bertolini, JA, and Rizzuto, MA

Abstract

This work originated from the need to functionalize surfactant-coated inorganic nanoparticles for biomedical applications, a process that is limited by excess unbound surfactant. These limitations are connected to the bioconjugation of targeting molecules that are often in equilibrium between the free aliquot in solution and that which binds the surface of the nanoparticles. The excess in solution can play a role in the biocompatability in vitro and in vivo of the final nanoparticles stock. For this purpose, we tested the ability of common surfactants - monothiolated polyethylene glycol and amphiphilic polymers - to colloidally stabilize nanoparticles as excess surfactant is removed and compared them to newly appearing multidentate surfactants endowed with high avidity for inorganic nanoparticles. Our results showed that monothiolated polyethylene glycol or amphiphilic polymers have an insufficient affinity to the nanoparticles and as the excess surfactant is removed the colloidal stability is lost, while multidentate high-avidity surfactants excel in the same regard, possibly allowing improvement in an array of nanoparticle applications, especially in those stated.

Published

2023

11. Development of an Effective Tumor-Targeted Contrast Agent for Magnetic Resonance Imaging Based on Mn/H-Ferritin Nanocomplexes

Author

Tullio, C, Salvioni, L, Bellini, M, Degrassi, A, Fiandra, L, D'Arienzo, M, Garbujo, S, Rotem, R, Testa, F, Prosperi, D, Colombo, M, Tullio C., Salvioni L., Bellini M., Degrassi A., Fiandra L., D'Arienzo M., Garbujo S., Rotem R., Testa F., Prosperi D., Colombo M., Tullio, C, Salvioni, L, Bellini, M, Degrassi, A, Fiandra, L, D'Arienzo, M, Garbujo, S, Rotem, R, Testa, F, Prosperi, D, Colombo, M, Tullio C., Salvioni L., Bellini M., Degrassi A., Fiandra L., D'Arienzo M., Garbujo S., Rotem R., Testa F., Prosperi D., and Colombo M.

Abstract

Magnetic resonance imaging (MRI) is one of the most sophisticated diagnostic tools that is routinely used in clinical practice. Contrast agents (CAs) are commonly exploited to afford much clearer images of detectable organs and to reduce the risk of misdiagnosis caused by limited MRI sensitivity. Currently, only a few gadolinium-based CAs are approved for clinical use. Concerns about their toxicity remain, and their administration is approved only under strict controls. Here, we report the synthesis and validation of a manganese-based CA, namely, Mn@HFn-RT. Manganese is an endogenous paramagnetic metal able to produce a positive contrast like gadolinium, but it is thought to result in less toxicity for the human body. Mn ions were efficiently loaded inside the shell of a recombinant H-ferritin (HFn), which is selectively recognized by the majority of human cancer cells through their transferrin receptor 1. Mn@HFn-RT was characterized, showing excellent colloidal stability, superior relaxivity, and a good safety profile. In vitro experiments confirmed the ability of Mn@HFn-RT to efficiently and selectively target breast cancer cells. In vivo, Mn@HFn-RT allowed the direct detection of tumors by positive contrast enhancement in a breast cancer murine model, using very low metal dosages and exhibiting rapid clearance after diagnosis. Hence, Mn@HFn-RT is proposed as a promising CA candidate to be developed for MRI.

Published

2021

12. The role of polymeric coatings for a safe-by-design development of biomedical gold nanoparticles assessed in zebrafish embryo

Author

Floris, P, Garbujo, S, Rolla, G, Giustra, M, Salvioni, L, Catelani, T, Colombo, M, Mantecca, P, Fiandra, L, Floris P., Garbujo S., Rolla G., Giustra M., Salvioni L., Catelani T., Colombo M., Mantecca P., Fiandra L., Floris, P, Garbujo, S, Rolla, G, Giustra, M, Salvioni, L, Catelani, T, Colombo, M, Mantecca, P, Fiandra, L, Floris P., Garbujo S., Rolla G., Giustra M., Salvioni L., Catelani T., Colombo M., Mantecca P., and Fiandra L.

Abstract

In the biomedical field, gold nanoparticles (GNPs) have attracted the attention of the scientific community thanks to their high potential in both diagnostic and therapeutic applications. The extensive use of GNPs led researchers to investigate their toxicity, identifying stability, size, shape, and surface charge as key properties determining their impact on biological systems, with possible strategies defined to reduce it according to a Safe-by-Design (SbD) approach. The purpose of the present work was to analyze the toxicity of GNPs of various sizes and with different coating polymers on the developing vertebrate model, zebrafish. In particular, increasing concentrations (from 0.001 to 1 nM) of 6 or 15 nm poly-(isobutylene-alt-maleic anhydride)-graft-dodecyl polymer (PMA)-or polyethylene glycol (PEG)-coated GNPs were tested on zebrafish embryos using the fish embryo test (FET). While GNP@PMA did not exert significant toxicity on zebrafish embryos, GNP@PEG induced a significant inhibition of embryo viability, a delay of hatching (with the smaller size NPs), and a higher incidence of malformations, in terms of tail morphology and eye development. Transmission electron microscope analysis evidenced that the more negatively charged GNP@PMA was sequestered by the positive charges of chorion proteins, with a consequent reduction in the amount of NPs able to reach the developing embryo and exert toxicological activity. The mild toxic response observed on embryos directly exposed to GNP@PMA suggest that these NPs are promising in terms of SbD development of gold-based biomedical nanodevices. On the other hand, the almost neutral GNP@PEG, which did not interact with the chorion surface and was free to cross chorion pores, significantly impacted the developing zebrafish. The present study raises concerns about the safety of PEGylated gold nanoparticles and contributes to the debated issue of the free use of this nanotool in medicine and nano-biotechnologies.

Published

2021

13. Impact of tuning the surface charge distribution on colloidal iron oxide nanoparticle toxicity investigated in caenorhabditis elegans

Author

Amigoni, L, Salvioni, L, Sciandrone, B, Giustra, M, Pacini, C, Tortora, P, Prosperi, D, Colombo, M, Regonesi, M, Amigoni L., Salvioni L., Sciandrone B., Giustra M., Pacini C., Tortora P., Prosperi D., Colombo M., Regonesi M. E., Amigoni, L, Salvioni, L, Sciandrone, B, Giustra, M, Pacini, C, Tortora, P, Prosperi, D, Colombo, M, Regonesi, M, Amigoni L., Salvioni L., Sciandrone B., Giustra M., Pacini C., Tortora P., Prosperi D., Colombo M., and Regonesi M. E.

Abstract

Assessing the toxic effect in living organisms remains a major issue for the development of safe nanomedicines and exposure of researchers involved in the synthesis, handling and manip-ulation of nanoparticles. In this study, we demonstrate that Caenorhabditis elegans could represent an in vivo model alternative to superior mammalians for the collection of several physiological functionality parameters associated to both short-term and long-term effects of colloidally stable nanoparticles even in absence of microbial feeding, usually reported to be necessary to ensure ap-propriate intake. Contextually, we investigated the impact of surface charge on toxicity of super-paramagnetic iron oxide coated with a wrapping polymeric envelop that confers them optimal col-loidal stability. By finely tuning the functional group composition of this shallow polymer–obtain-ing totally anionic, partially pegylated, partially anionic and partially cationic, respectively–we showed that the ideal surface charge organization to optimize safety of colloidal nanoparticles is the one containing both cationic and anionic groups. Our results are in accordance with previous evidence that zwitterionic nanoparticles allow long circulation, favorable distribution in the tumor area and optimal tumor penetration and thus support the hypothesis that zwitterionic iron oxide nanoparticles could be an excellent solution for diagnostic imaging and therapeutic applications in nanooncology.

Published

2021

14. The vault nanoparticle: A gigantic ribonucleoprotein assembly involved in diverse physiological and pathological phenomena and an ideal nanovector for drug delivery and therapy

Author

Frascotti, G, Galbiati, E, Mazzucchelli, M, Pozzi, M, Salvioni, L, Vertemara, J, Tortora, P, Frascotti G., Galbiati E., Mazzucchelli M., Pozzi M., Salvioni L., Vertemara J., Tortora P., Frascotti, G, Galbiati, E, Mazzucchelli, M, Pozzi, M, Salvioni, L, Vertemara, J, Tortora, P, Frascotti G., Galbiati E., Mazzucchelli M., Pozzi M., Salvioni L., Vertemara J., and Tortora P.

Abstract

The vault nanoparticle is a eukaryotic ribonucleoprotein complex consisting of 78 individual 97 kDa‐“major vault protein” (MVP) molecules that form two symmetrical, cup‐shaped, hollow halves. It has a huge size (72.5 × 41 × 41 nm) and an internal cavity, wherein the vault poly(ADP‐ribose) polymerase (vPARP), telomerase‐associated protein‐1 (TEP1), and some small untranslated RNAs are accommodated. Plenty of literature reports on the biological role(s) of this nanocomplex, as well as its involvement in diseases, mostly oncological ones. Nevertheless, much has still to be understood as to how vault participates in normal and pathological mechanisms. In this comprehensive review, current understanding of its biological roles is discussed. By different mechanisms, vault’s individual components are involved in major cellular phenomena, which result in protection against cellular stresses, such as DNA‐damaging agents, irradiation, hypoxia, hyperosmotic, and oxidative conditions. These diverse cellular functions are accomplished by different mechanisms, mainly gene expression reprogramming, activation of proliferative/prosurvival signaling pathways, export from the nucleus of DNA‐damaging drugs, and import of specific proteins. The cellular functions of this nanocomplex may also result in the onset of pathological conditions, mainly (but not exclusively) tumor proliferation and multidrug resistance. The current understanding of its biological roles in physiological and pathological processes should also provide new hints to extend the scope of its exploitation as a nanocarrier for drug delivery.

Published

2021

15. 99mTc-radiolabeled silica nanocarriers for targeted detection and treatment of HER2-positive breast cancer

Author

Rainone, P, De Palma, A, Sudati, F, Roffia, V, Rigamonti, V, Salvioni, L, Colombo, M, Ripamonti, M, Spinelli, A, Mazza, D, Mauri, P, Moresco, R, Prosperi, D, Belloli, S, Rainone P., De Palma A., Sudati F., Roffia V., Rigamonti V., Salvioni L., Colombo M., Ripamonti M., Spinelli A. E., Mazza D., Mauri P., Moresco R. M., Prosperi D., Belloli S., Rainone, P, De Palma, A, Sudati, F, Roffia, V, Rigamonti, V, Salvioni, L, Colombo, M, Ripamonti, M, Spinelli, A, Mazza, D, Mauri, P, Moresco, R, Prosperi, D, Belloli, S, Rainone P., De Palma A., Sudati F., Roffia V., Rigamonti V., Salvioni L., Colombo M., Ripamonti M., Spinelli A. E., Mazza D., Mauri P., Moresco R. M., Prosperi D., and Belloli S.

Abstract

Introduction: The overexpression of Human Epidermal Growth Factor Receptor 2 (HER2) is usually associated with aggressive and infiltrating breast cancer (BC) phenotype, and metastases. Functionalized silica-based nanocarriers (SiNPs) can be labeled for in vivo imaging applications and loaded with chemotherapy drugs, making possible the simultaneous noninvasive diagnosis and treatment (theranostic) for HER2-positive BC. Methods: Firstly, FITC-filled SiNPs, were engineered with two different amounts of Hc-TZ (trastuzumab half-chain) per single nanoparticle (1:2 and 1:8, SiNPs to Hc-TZ ratio), which was 99mTc-radiolabeled at histidine residues for ex vivo and in vivo biodistribution evaluations. Secondly, nanoparticles were loaded with DOX and their in vitro and ex vivo/in vivo delivery was assessed, in comparison with liposomal Doxorubicin (Caelyx). Finally, the treatment efficacy of DOX-SiNPs-TZ (1:8 Hc-TZ) was evaluated in vivo by PET and supported by MS-based proteomics profiling of tumors. Results: SiNPs-TZ (1:8 Hc-TZ) tumor uptake was significantly greater than that of SiNPs-TZ (1:2 Hc-TZ) at 6 hours post-injection (p.i.) in ex vivo biodistribution experiment. At 24 h p.i., radioactivity values remained steady. Fluorescence microscopy, confirmed the presence of radiolabeled SiNPs-TZ (1:8 Hc-TZ) within tumor even at later times. SiNPs-TZ (1:8 Hc-TZ) nanoparticles loaded with Doxorubicin (DOX-SiNPs-TZ) showed a similar DOX delivery capability than Caelyx (at 6 h p.i.), in in vitro and ex vivo assays. Nevertheless, at the end of treatment, tumor volume was significantly reduced by DOX-SiNPs-TZ (1:8 Hc-TZ), compared to Caelyx and DOX-SiNPs treatment. Proteomics study identified 88 high stringent differentially expressed proteins comparing the three treatment groups with controls. Conclusion: These findings demonstrated a promising detection specificity and treatment efficacy for our system (SiNPs-TZ, 1:8 Hc-TZ), encouraging its potential use as a new theranostic agen

Published

2021

16. Modeling the interaction of amphiphilic polymer nanoparticles with biomembranes to Guide rational design of drug delivery systems

Author

Rotem, R, Micale, A, Rizzuto, M, Migliavacca, M, Giustra, M, Salvioni, L, Tasin, F, Prosperi, D, Colombo, M, Rotem R., Micale A., Rizzuto M. A., Migliavacca M., Giustra M., Salvioni L., Tasin F., Prosperi D., Colombo M., Rotem, R, Micale, A, Rizzuto, M, Migliavacca, M, Giustra, M, Salvioni, L, Tasin, F, Prosperi, D, Colombo, M, Rotem R., Micale A., Rizzuto M. A., Migliavacca M., Giustra M., Salvioni L., Tasin F., Prosperi D., and Colombo M.

Abstract

Nanoparticle assisted drug delivery to the cytoplasm is limited by sequestration of nanoparticles in endosomes. Endosomal escape through polymer-induced membrane destabilization is one of a few well characterized mechanisms to overcome it. Aiming to utilize this method in vivo, it is necessary to understand how modulating the structural and chemical features of the polymer and the presence of proteins in biological fluids can affect this activity. Here, as a model for the endosomal membrane, we use the membrane of red blood cells to evaluate the membrane destabilization ability of a model amphiphilic polymer in the presence of blood plasma using a hemolysis assay. This allows determination of red blood cells membrane permeabilization through the quantification of hemoglobin leakage. Our results showed a strong inhibitory effect of plasma, and that hemolytic activity can be improved by chemical modification of the polymeric micelle, reducing its interaction with plasma proteins. Finally, a second mechanism of pH-induced direct diffusion is proposed and tested using an oil/water partitioning model. These results offer a body of knowledge to improve delivery of drugs across biological membranes using carefully designed polymeric nanocarriers.

Published

2020

17. Engineered Ferritin Nanoparticles for the Bioluminescence Tracking of Nanodrug Delivery in Cancer

Author

Bellini, M, Riva, B, Tinelli, V, Rizzuto, M, Salvioni, L, Colombo, M, Mingozzi, F, Visioli, A, Marongiu, L, Frascotti, G, Christodoulou, M, Passarella, D, Prosperi, D, Fiandra, L, Bellini M., Riva B., Tinelli V., Rizzuto M. A., Salvioni L., Colombo M., Mingozzi F., Visioli A., Marongiu L., Frascotti G., Christodoulou M. S., Passarella D., Prosperi D., Fiandra L., Bellini, M, Riva, B, Tinelli, V, Rizzuto, M, Salvioni, L, Colombo, M, Mingozzi, F, Visioli, A, Marongiu, L, Frascotti, G, Christodoulou, M, Passarella, D, Prosperi, D, Fiandra, L, Bellini M., Riva B., Tinelli V., Rizzuto M. A., Salvioni L., Colombo M., Mingozzi F., Visioli A., Marongiu L., Frascotti G., Christodoulou M. S., Passarella D., Prosperi D., and Fiandra L.

Abstract

The identification of a highly sensitive method to check the delivery of administered nanodrugs into the tumor cells is a crucial step of preclinical studies aimed to develop new nanoformulated cures, since it allows the real therapeutic potential of these devices to be forecast. In the present work, the ability of an H-ferritin (HFn) nanocage, already investigated as a powerful tool for cancer therapy thanks to its ability to actively interact with the transferrin receptor 1, to act as an efficient probe for the monitoring of nanodrug delivery to tumors is demonstrated. The final formulation is a bioluminescent nanoparticle, where the luciferin probe is conjugated on nanoparticle surface by means of a disulfide containing linker (Luc-linker@HFn) which is subjected to glutathione-induced cyclization in tumor cell cytoplasm. The prolonged imaging of luciferase+ tumor models, demonstrated by an in vitro and an in vivo approach, associated with the prolonged release of luciferin into cancer cells by disulfide bridge reduction, clearly indicates the high efficiency of Luc-linker@HFn for drug delivery to the tumor tissues.

Published

2020

18. Functionalization of colloidal nanoparticles with a discrete number of ligands based on a “HALO-bioclick” reaction

Author

Garbujo, S, Galbiati, E, Salvioni, L, Mazzucchelli, M, Frascotti, G, Sun, X, Megahed, S, Feliu, N, Prosperi, D, Parak, W, Colombo, M, Garbujo S., Galbiati E., Salvioni L., Mazzucchelli M., Frascotti G., Sun X., Megahed S., Feliu N., Prosperi D., Parak W. J., Colombo M., Garbujo, S, Galbiati, E, Salvioni, L, Mazzucchelli, M, Frascotti, G, Sun, X, Megahed, S, Feliu, N, Prosperi, D, Parak, W, Colombo, M, Garbujo S., Galbiati E., Salvioni L., Mazzucchelli M., Frascotti G., Sun X., Megahed S., Feliu N., Prosperi D., Parak W. J., and Colombo M.

Abstract

A recombinant HALO-GFP fusion protein was designed and isolated to demonstrate the feasibility of controlling the number and orientation of protein ligands to be conjugated on colloidal gold nanoparticles. AuNPs functionalized with exactly one or exactly two GFP molecules exhibited fully preserved functionality of the protein. The method is very straightforward and generally provides highly bioactive nanoparticle-protein conjugates.

Published

2020

19. Colloidal polymer-coated Zn-doped iron oxide nanoparticles with high relaxivity and specific absorption rate for efficient magnetic resonance imaging and magnetic hyperthermia

Author

Das, P, Salvioni, L, Malatesta, M, Vurro, F, Mannucci, S, Gerosa, M, Antonietta Rizzuto, M, Tullio, C, Degrassi, A, Colombo, M, Ferretti, A, Ponti, A, Calderan, L, Prosperi, D, Das P., Salvioni L., Malatesta M., Vurro F., Mannucci S., Gerosa M., Antonietta Rizzuto M. A., Tullio C., Degrassi A., Colombo M., Ferretti A. M., Ponti A., Calderan L., Prosperi D., Das, P, Salvioni, L, Malatesta, M, Vurro, F, Mannucci, S, Gerosa, M, Antonietta Rizzuto, M, Tullio, C, Degrassi, A, Colombo, M, Ferretti, A, Ponti, A, Calderan, L, Prosperi, D, Das P., Salvioni L., Malatesta M., Vurro F., Mannucci S., Gerosa M., Antonietta Rizzuto M. A., Tullio C., Degrassi A., Colombo M., Ferretti A. M., Ponti A., Calderan L., and Prosperi D.

Abstract

Colloidally stable nanoparticles-based magnetic agents endowed with very high relaxivity and specific absorption rate are extremely desirable for efficient magnetic resonance imaging and magnetic hyperthermia, respectively. Here, we report a water dispersible magnetic agent consisting of zinc-doped superparamagnetic iron oxide nanoparticles (i.e., Zn-SPIONs) of 15 nm size with high saturation magnetization coated with an amphiphilic polymer for effective magnetic resonance imaging and magnetic hyperthermia of glioblastoma cells. These biocompatible polymer-coated Zn-SPIONs had 24 nm hydrodynamic diameter and exhibited high colloidal stability in various aqueous media, very high transverse relaxivity of 471 mM−1 s−1, and specific absorption rate up to 743.8 W g−1, which perform better than most iron oxide nanoparticles reported in the literature, including commercially available agents. Therefore, using these polymer-coated Zn-SPIONs even at low concentrations, T2-weighted magnetic resonance imaging and moderate magnetic hyperthermia of glioblastoma cells under clinically relevant magnetic field were successfully implemented. In addition, the results of this in vitro study suggest the superior potential of Zn-SPIONs as a theranostic nanosystem for brain cancer treatment, simultaneously acting as a contrast agent for magnetic resonance imaging and a heat mediator for localized magnetic hyperthermia.

Published

2020

20. Saporin Toxin Delivered by Engineered Colloidal Nanoparticles Is Strongly Effective against Cancer Cells

Author

Salvioni, L, Testa, F, Barbieri, L, Giustra, M, Bertolini, J, Tomaino, G, Tortora, P, Prosperi, D, Colombo, M, Salvioni, Lucia, Testa, Filippo, Barbieri, Linda, Giustra, Marco, Bertolini, Jessica Armida, Tomaino, Giulia, Tortora, Paolo, Prosperi, Davide, Colombo, Miriam, Salvioni, L, Testa, F, Barbieri, L, Giustra, M, Bertolini, J, Tomaino, G, Tortora, P, Prosperi, D, Colombo, M, Salvioni, Lucia, Testa, Filippo, Barbieri, Linda, Giustra, Marco, Bertolini, Jessica Armida, Tomaino, Giulia, Tortora, Paolo, Prosperi, Davide, and Colombo, Miriam

Abstract

Ribosome-inactivating proteins, including Saporin toxin, have found application in the search for innovative alternative cancer therapies to conventional chemo- and radiotherapy. Saporin's main mechanism of action involves the inhibition of cytoplasmic protein synthesis. Its strong theoretical efficacy is counterbalanced by negligible cell uptake and diffusion into the cytosol. In this work, we demonstrate that by immobilizing Saporin on iron oxide nanoparticles coated with an amphiphilic polymer, which promotes nanoconjugate endosomal escape, a strong cytotoxic effect mediated by ribosomal functional inactivation can be achieved. Cancer cell death was mediated by apoptosis dependent on nanoparticle concentration but independent of surface ligand density. The cytotoxic activity of Saporin-conjugated colloidal nanoparticles proved to be selective against three different cancer cell lines in comparison with healthy fibroblasts.

Published

2022

21. Folic acid functionalization for targeting self-assembled paclitaxel-based nanoparticles

Author

Colombo, E, Coppini, D, Maculan, S, Seneci, P, Santini, B, Testa, F, Salvioni, L, Vanacore, G, Colombo, M, Passarella, D, Coppini, DA, Vanacore, GM, Colombo, E, Coppini, D, Maculan, S, Seneci, P, Santini, B, Testa, F, Salvioni, L, Vanacore, G, Colombo, M, Passarella, D, Coppini, DA, and Vanacore, GM

Abstract

Hetero-nanoparticles self-assembled from a conjugate bearing folic acid as the targeting agent, and another bearing paclitaxel as the active agent are reported. Hetero-nanoparticles containing varying percentages of folic acid conjugates are characterised, and their biological activity is determined.

Published

2022

22. Eco-luxury: Making sustainable drugs and cosmetics with Prosopis cineraria natural extracts

Author

Giustra, M, Cerri, F, Anadol, Y, Salvioni, L, Antonelli Abella, T, Prosperi, D, Galli, P, Colombo, M, Marco Giustra, Federico Cerri, Yaprak Anadol, Lucia Salvioni, Tatiana Antonelli Abella, Davide Prosperi, Paolo Galli, Miriam Colombo, Giustra, M, Cerri, F, Anadol, Y, Salvioni, L, Antonelli Abella, T, Prosperi, D, Galli, P, Colombo, M, Marco Giustra, Federico Cerri, Yaprak Anadol, Lucia Salvioni, Tatiana Antonelli Abella, Davide Prosperi, Paolo Galli, and Miriam Colombo

Abstract

Climate change associated with global warming is a major warning of the twenty-first century, threatening ecosystems through uncontrolled temperature rises, drought, lack of water with a strong impact on productivity, economy, and worldwide life well-being. In most cases, the poor regions of the planet suffer from a lack of exploitable resources deriving from natural reserves. For this reason, wild vegetables able to grow in deserted areas are attracting increasing attention due to their beneficial properties. Among them, Prosopis cineraria has been recently recognized in the UAE not only as a cultural heritage but also as a potential source of raw materials for agri-food and pharmaceutics still poorly valued. P. cineraria occurs in most of the world's hot arid and semi-arid regions as a native or introduced species and, due to its multiple properties, could be exploited for medical, food, and, more recently, in different growing productivity fields like a luxury, especially in countries like the UAE. The use of actives-rich natural sources offers clear advantages over synthetic compounds in terms of process and product eco-sustainability. In this manuscript, we review the main properties and potential applications of P. cineraria aiming to promote the scientific interest toward the development of innovative approaches in several productive fields, including pharma and cosmetics, exploiting the versatility of materials that can be extracted from the various parts of the plant and discuss commercialization opportunities of the plant to support biodiversity and sustainability. In conclusion, P. cineraria turns out to be a plant able to grow in hostile environments, already providing nutrients for populations of Western Asia and the Indian subcontinent and possibly translatable to poor arid regions.

Published

2022

23. Surfactant protein D (SP-D) as a biomarker of SARS-CoV-2 infection

Author

Salvioni, L, Testa, F, Sulejmani, A, Pepe, F, Lovaglio, P, Berta, P, Dominici, R, Leoni, V, Prosperi, D, Vittadini, G, Colombo, M, Fiandra, L, Salvioni, Lucia, Testa, Filippo, Sulejmani, Adela, Pepe, Francesca, Lovaglio, Pietro Giorgio, Berta, Paolo, Dominici, Roberto, Leoni, Valerio, Prosperi, Davide, Vittadini, Giorgio, Colombo, Miriam, Fiandra, Luisa, Salvioni, L, Testa, F, Sulejmani, A, Pepe, F, Lovaglio, P, Berta, P, Dominici, R, Leoni, V, Prosperi, D, Vittadini, G, Colombo, M, Fiandra, L, Salvioni, Lucia, Testa, Filippo, Sulejmani, Adela, Pepe, Francesca, Lovaglio, Pietro Giorgio, Berta, Paolo, Dominici, Roberto, Leoni, Valerio, Prosperi, Davide, Vittadini, Giorgio, Colombo, Miriam, and Fiandra, Luisa

Abstract

Background: Surfactant protein-D (SP-D) is a lung-resident protein that has emerged as a potential biomarker for COVID-19. Previous investigations on acute respiratory distress syndrome patients demonstrated a significant increment of SP-D serum levels in pathological conditions. Since SP-D is not physiologically permeable to alveoli-capillary membrane and poorly expressed by other tissues, this enhancement is likely due to an impairment of the pulmonary barrier caused by prolonged inflammation. Methods: A retrospective study on a relatively large cohort of patients of Hospital Pio XI of Desio was conducted to assess differences of the hematic SP-D concentrations among COVID-19 patients and healthy donors and if SP-D levels resulted a risk factor for disease severity and mortality. Results: The first analysis, using an ANOVA-model, showed a significant difference in the mean of log SP-D levels between COVID-19 patients and healthy donors. Significant variations were also found between dead vs survived patients. Results confirm that SP-D concentrations were significantly higher for both hospitalized COVID-19 and dead patients, with threshold values of 150 and 250 ng/mL, respectively. Further analysis conducted with Logistic Mixed models, highlighted that higher SP-D levels at admission and increasing differences among follow-up and admission values resulted the strongest significant risk factors of mortality (model predictive accuracy, AUC = 0.844). Conclusions: The results indicate that SP-D can be a predictive marker of COVID-19 disease and its outcome. Considering its prognostic value in terms of mortality, the early detection of SP-D levels and its follow-up in hospitalized patients should be considered to direct the therapeutic intervention.

Published

2022

24. Thirty years of cancer nanomedicine: Success, frustration, and hope

Author

Salvioni, L, Rizzuto, M, Bertolini, J, Pandolfi, L, Colombo, M, Prosperi, D, Salvioni L., Rizzuto M. A., Bertolini J. A., Pandolfi L., Colombo M., Prosperi D., Salvioni, L, Rizzuto, M, Bertolini, J, Pandolfi, L, Colombo, M, Prosperi, D, Salvioni L., Rizzuto M. A., Bertolini J. A., Pandolfi L., Colombo M., and Prosperi D.

Abstract

Starting with the enhanced permeability and retention (EPR) effect discovery, nanomedicine has gained a crucial role in cancer treatment. The advances in the field have led to the approval of nanodrugs with improved safety profile and still inspire the ongoing investigations. However, several restrictions, such as high manufacturing costs, technical challenges, and effectiveness below expectations, raised skeptical opinions within the scientific community about the clinical relevance of nanomedicine. In this review, we aim to give an overall vision of the current hurdles encountered by nanotherapeutics along with their design, development, and translation, and we offer a prospective view on possible strategies to overcome such limitations

Published

2019

25. Are nanotechnological approaches the future of treating inflammatory diseases?

Author

Rizzuto, M, Salvioni, L, Rotem, R, Colombo, M, Zanoni, I, Granucci, F, Prosperi, D, Rizzuto M. A., Salvioni L., Rotem R., Colombo M., Zanoni I., Granucci F., Prosperi D., Rizzuto, M, Salvioni, L, Rotem, R, Colombo, M, Zanoni, I, Granucci, F, Prosperi, D, Rizzuto M. A., Salvioni L., Rotem R., Colombo M., Zanoni I., Granucci F., and Prosperi D.

Abstract

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.

Published

2019

26. The emerging role of nanotechnology in skincare

Author

Salvioni, L, Morelli, L, Ochoa, E, Labra, M, Fiandra, L, Palugan, L, Prosperi, D, Colombo, M, Salvioni, Lucia, Morelli, Lucia, Ochoa, Evelyn, Labra, Massimo, Fiandra, Luisa, Palugan, Luca, Prosperi, Davide, Colombo, Miriam, Salvioni, L, Morelli, L, Ochoa, E, Labra, M, Fiandra, L, Palugan, L, Prosperi, D, Colombo, M, Salvioni, Lucia, Morelli, Lucia, Ochoa, Evelyn, Labra, Massimo, Fiandra, Luisa, Palugan, Luca, Prosperi, Davide, and Colombo, Miriam

Abstract

The role of cosmetic products is rapidly evolving in our society, with their use increasingly seen as an essentialcontribution to personal wellness. This suggests the necessity of a detailed elucidation of the use of nanoparticles(NPs) in cosmetics. The aim of the present work is to offer a critical and comprehensive review discussing the im-pact of exploiting nanomaterials in advanced cosmetic formulations, emphasizing the beneficial effects of theirextensive use in next-generation products despite a persisting prejudice around the application of nanotechnol-ogy in cosmetics. The discussion here includes an interpretation of the data underlying generic information re-ported on the product labels of formulations already available in the marketplace, information that often lacksdetailsidentifying specific components of the product, especially when nanomaterials are employed. The empha-sis of this review is mainly focused on skincare because it is believed to be the cosmetics market sector in whichthe impact of nanotechnology is being seen most significantly. To date, nanotechnology has been demonstratedto improve the performance of cosmetics in a number of different ways: 1) increasing both the entrapment effi-ciency and dermal penetration of the active ingredient, 2) controlling drug release, 3) enhancing physical stabil-ity, 4) improving moisturizing power, and 5) providing better UV protection. Specific attention is paid to theeffect of nanoparticles contained in semisolid formulations on skin penetration issues. In light of the emergingconcerns about nanoparticle toxicity, an entire section has been devoted to listing detailed examples ofnanocosmetic products for which safety has been investigated

Published

2021

27. H-Ferritin nanoparticle-mediated delivery of antibodies across a BBB in vitro model for treatment of brain malignancies

Author

Rizzuto, M, Dal Magro, R, Barbieri, L, Pandolfi, L, Sguazzini-Viscontini, A, Truffi, M, Salvioni, L, Corsi, F, Colombo, M, Re, F, Prosperi, D, Rizzuto, Maria Antonietta, Dal Magro, Roberta, Barbieri, Linda, Pandolfi, Laura, Sguazzini-Viscontini, Anna, Truffi, Marta, Salvioni, Lucia, Corsi, Fabio, Colombo, Miriam, Re, Francesca, Prosperi, Davide, Rizzuto, M, Dal Magro, R, Barbieri, L, Pandolfi, L, Sguazzini-Viscontini, A, Truffi, M, Salvioni, L, Corsi, F, Colombo, M, Re, F, Prosperi, D, Rizzuto, Maria Antonietta, Dal Magro, Roberta, Barbieri, Linda, Pandolfi, Laura, Sguazzini-Viscontini, Anna, Truffi, Marta, Salvioni, Lucia, Corsi, Fabio, Colombo, Miriam, Re, Francesca, and Prosperi, Davide

Abstract

Brain cancers are a group of neoplasms that can be either primary, such as glioblastoma multiforme (GBM), or metastatic, such as the HER2+ breast cancer brain metastasis. The brain represents a sanctuary for cancer cells thanks to the presence of the blood brain barrier (BBB) that controls trafficking of molecules, protecting the brain from toxic substances including drugs. Considering that GBM and HER2+ breast cancer brain metastases are characterized by EGFR and HER2 over-expression respectively, CTX- and TZ-based treatment could be effective. Several studies show that these monoclonal antibodies (mAbs) exert both a cytostatic activity interfering with the transduction pathways of EGFR family and a cytotoxic activity mainly through the immune system activation via the antibody dependent cell-mediated cytotoxicity (ADCC). Since the major limitation to therapeutic mAbs application is the presence of the BBB, here we use a recombinant form of human apoferritin (HFn) as a nanovector to promote the delivery of mAbs to the brain for the activation of the ADCC response. Using a transwell model of the BBB we proved the crossing ability of HFn-mAb. Cellular uptake of HFn-mAb by human cerebral microvascular endothelial cells (hCMEC/D3) was demonstrated by confocal microscopy. Moreover, after crossing the endothelial monolayer, HFn-conjugated mAbs retain their biological activity against targets, as assessed by MTS and ADCC assays. Our data support the use of HFn as efficient carrier to enhance the BBB crossing of mAbs, without affecting their antitumoral activity.

Published

2021

28. Nanoparticle-Mediated Suicide Gene Therapy for Triple Negative Breast Cancer Treatment

Author

Salvioni, L, Zuppone, S, Andreata, F, Monieri, M, Mazzucchelli, S, Di Carlo, C, Morelli, L, Cordiglieri, C, Donnici, L, De Francesco, R, Corsi, F, Prosperi, D, Vago, R, Colombo, M, Salvioni, L, Zuppone, S, Andreata, F, Monieri, M, Mazzucchelli, S, Di Carlo, C, Morelli, L, Cordiglieri, C, Donnici, L, De Francesco, R, Corsi, F, Prosperi, D, Vago, R, and Colombo, M

Abstract

Systemic chemotherapy has not significantly reduced clinical demand for triple negative breast cancer (TNBC) treatments. To address the need for more effective therapy, the use of nonviral nanoparticles is explored to deliver suicide gene therapy as valuable alternative to protect nucleic acids in the bloodstream and improve their tumor uptake. Biocompatible cationic lipid nanoparticles are developed as a novel delivery system of a suicide plasmid gene encoding saporin. Active targeting is accomplished by taking advantage of nanoparticle functionalization with U11 peptide, designed to be directed toward urokinase plasminogen activator receptor, limiting off-target toxicity. The antitumor effect of U11-lipid-protamine-DNA (U11-LPD) nanoparticles are tested in TBNC cells, showing a strong prevalence of targeted versus nontargeted nanoparticles in terms of uptake kinetics and proliferation inhibition. Transfection of green fluorescent protein (GFP) plasmid in MDA-MB-231 cells is demonstrated. U11-LPD nanoparticles administered by retro bulbar injection exhibit excellent tumor tropism in TNBC orthotopic xenograft mice and effectively transfect TNBC cells with saporin plasmid resulting in tumor mass reduction. No systemic toxicity or organ damage is discovered after repeated treatments with nanoparticles. The findings suggest that systemic administration of targeted LPD nanoparticles to deliver saporin safely allows for active inhibition of cancer progression even in the absence of specific promoter gene sequences.

Published

2020

29. Monitoring the fate of orally administered plga nanoformulation for local delivery of therapeutic drugs

Author

Morelli, L, Gimondi, S, Sevieri, M, Salvioni, L, Guizzetti, M, Colzani, B, Palugan, L, Foppoli, A, Talamini, L, Morosi, L, Zucchetti, M, Violatto, M, Russo, L, Salmona, M, Prosperi, D, Colombo, M, Bigini, P, Morelli, Lucia, Gimondi, Sara, Sevieri, Marta, Salvioni, Lucia, Guizzetti, Maria, Colzani, Barbara, Palugan, Luca, Foppoli, Anastasia, Talamini, Laura, Morosi, Lavinia, Zucchetti, Massimo, Violatto, Martina Bruna, Russo, Luca, Salmona, Mario, Prosperi, Davide, Colombo, Miriam, Bigini, Paolo, Morelli, L, Gimondi, S, Sevieri, M, Salvioni, L, Guizzetti, M, Colzani, B, Palugan, L, Foppoli, A, Talamini, L, Morosi, L, Zucchetti, M, Violatto, M, Russo, L, Salmona, M, Prosperi, D, Colombo, M, Bigini, P, Morelli, Lucia, Gimondi, Sara, Sevieri, Marta, Salvioni, Lucia, Guizzetti, Maria, Colzani, Barbara, Palugan, Luca, Foppoli, Anastasia, Talamini, Laura, Morosi, Lavinia, Zucchetti, Massimo, Violatto, Martina Bruna, Russo, Luca, Salmona, Mario, Prosperi, Davide, Colombo, Miriam, and Bigini, Paolo

Abstract

One of the goals of the pharmaceutical sciences is the amelioration of targeted drug delivery. In this context, nanocarrier-dependent transportation represents an ideal method for confronting a broad range of human disorders. In this study, we investigated the possibility of improving the selective release of the anti-cancer drug paclitaxel (PTX) in the gastro-intestinal tract by encapsulating it into the biodegradable nanoparticles made by FDA-approved poly(lactic-co-glycolic acid) (PLGA) and coated with polyethylene glycol to improve their stability (PLGA-PEG-NPs). Our study was performed by combining the synthesis and characterization of the nanodrug with in vivo studies of pharmacokinetics after oral administration in mice. Moreover, fluorescent PLGA-nanoparticles (NPs), were tested both in vitro and in vivo to observe their fate and biodistribution. Our study demonstrated that PLGA-NPs: (1) are stable in the gastric tract; (2) can easily penetrate inside carcinoma colon 2 (CaCo2) cells; (3) reduce the PTX absorption from the gastrointestinal tract, further limiting systemic exposure; (4) enable PTX local targeting. At present, the oral administration of biodegradable nanocarriers is limited because of stomach degradation and the sink effect played by the duodenum. Our findings, however, exhibit promising evidence towards our overcoming these limitations for a more specific and safer strategy against gastrointestinal disorders.

Published

2019

30. Nanoparticles-based delivery of biologic drugs: improvements and challenges

Author

Salvioni, L, COLOMBO, MIRIAM, SALVIONI, LUCIA, Salvioni, L, COLOMBO, MIRIAM, and SALVIONI, LUCIA

Abstract

Per farmaci biologici si intende principi attivi prodotti o derivati da una fonte biologica. Essi sono ampiamente studiati/impiegati come alternativa alle tradizionali piccole molecole organiche in quanto generalmente posseggono maggior potenza e specificità. Nonostante i grandi vantaggi, il loro utilizzo rimane ancora piuttosto limitato per la scarsa biodisponibilità intrinseca. Infatti, la suscettibilità a degradazione chimica ed enzimatica e l’elevata dimensione ne impediscono l’accumulo e/o l’azione nel tessuto target. Tra le diverse strategie proposte per superare queste limitazioni, le nanoparticelle (NPs) stanno emergendo come validi sistemi di trasporto e rilascio: esse infatti sono in grado di migliorare la distribuzione e l’assorbimento di farmaci e di ridurne l’inattivazione e l’eliminazione. Alla luce di quanto sopra esplicitato, lo scopo di questo lavoro di tesi è stato lo sviluppo di sistemi di rilascio di farmaci biologici basati sull’impiego di NPs. In particolare, sono stati affrontati due diversi progetti: il primo riguardante la terapia di sostituzione ormonale, il secondo riguardante il delivery di geni suicidi. Nel primo progetto, è stata progettata, sviluppata e testata una forma farmaceutica solida somministrabile per via orale contenente NPs incapsulanti l’insulina, un peptide largamente impiegato nel trattamento del diabete mellito di tipo 1 e di tipo 2 allo stadio avanzato. La novità di questo approccio consiste nella combinazione di due strategie normalmente impiegate per aumentare la biodisponibilità di peptidi/proteine per via orale: l’impiego di NPs mucoadesive e il rilascio al colon. NPs incapsulanti insulina sono state sintetizzate in accordo con un protocollo riportato in letteratura con diverse modifiche atte a rendere il prodotto adatto per gli step successivi. Successivamente, tali NPs sono state incorporate in una forma farmaceutica solida e i nuclei ottenuti sono stati rivestiti allo scopo di ottenere un sistema di rilasc, Biological drugs (BD) include a wide range of products such as proteins, peptides, genetic materials and cells. Compared with the traditional small chemical drugs, BD generally show higher potency and selectivity of action and, so, have the potential to address many chronic diseases and various unmet medical needs. Unfortunately, most of BD are characterized by short circulating half-life, low stability and rapid body clearance via glomerular filtration. Among the several strategies proposed to overcome these drawbacks, nanoparticles (NPs) are emerging as valid drug delivery tools: indeed, they are able to improve the drug distribution, reduce its inactivation and elimination and provide the opportunity of non-invasive administration. The aim of this thesis was the development of NPs-based BD delivery systems. In particular, I was involved in two distinct projects: one concerned the hormonal substitution therapy, while the second a suicide gene delivery. In the first project, an oral nanocarrier for insulin colon delivery was developed. The novelty of this approach was the evaluation of the synergistic effect of colon release and muco-adhesive NPs in presence of a permeation enhancer. Insulin-loaded polymeric NPs (NI) were synthesized according to previously published protocols with several improvements. Then, NI were incorporated into cores that were subsequently coated with three overlapping layers, aiming to release insulin into the large intestine. The system was evaluated in vitro for its physico-technological characteristics, NPs dispersion, disintegration and release performance, showing delayed release behavior. Finally, the coated nanoformulation effect was tested in diabetic rats: a significant hypoglycaemic activity, due to the synergistic effect of NPs and colon delivery, was observed. Based on the in vivo efficacy, scalable process and safety profile, the proposed multitasking system appears a promising way to control diabetes. In the second project, li

Published

2019

31. Negatively charged silver nanoparticles with potent antibacterial activity and reduced toxicity for pharmaceutical preparations

Author

Salvioni, L, Galbiati, E, Collico, V, Alessio, G, Avvakumova, S, Corsi, F, Tortora, P, Prosperi, D, Colombo, M, SALVIONI, LUCIA, GALBIATI, ELISABETTA, COLLICO, VERONICA, ALESSIO, GIULIA, AVVAKUMOVA, SVETLANA, TORTORA, PAOLO, PROSPERI, DAVIDE, COLOMBO, MIRIAM, Salvioni, L, Galbiati, E, Collico, V, Alessio, G, Avvakumova, S, Corsi, F, Tortora, P, Prosperi, D, Colombo, M, SALVIONI, LUCIA, GALBIATI, ELISABETTA, COLLICO, VERONICA, ALESSIO, GIULIA, AVVAKUMOVA, SVETLANA, TORTORA, PAOLO, PROSPERI, DAVIDE, and COLOMBO, MIRIAM

Abstract

Background: The discovery of new solutions with antibacterial activity as efficient and safe alternatives to common preservatives (such as parabens) and to combat emerging infections and drug-resistant bacterial pathogens is highly expected in cosmetics and pharmaceutics. Colloidal silver nanoparticles (NPs) are attracting interest as novel effective antimicrobial agents for the prevention of several infectious diseases. Methods: Water-soluble, negatively charged silver nanoparticles (AgNPs) were synthesized by reduction with citric and tannic acid and characterized by transmission electron microscopy, dynamic light scattering, zeta potential, differential centrifuge sedimentation, and ultraviolet–visible spectroscopy. AgNPs were tested with model Gram-negative and Gram-positive bacteria in comparison to two different kinds of commercially available AgNPs. Results: In this work, AgNPs with higher antibacterial activity compared to the commercially available colloidal silver solutions were prepared and investigated. Bacteria were plated and the antibacterial activity was tested at the same concentration of silver ions in all samples. The AgNPs did not show any significant reduction in the antibacterial activity for an acceptable time period. In addition, AgNPs were transferred to organic phase and retained their antibacterial efficacy in both aqueous and nonaqueous media and exhibited no toxicity in eukaryotic cells. Conclusion: We developed AgNPs with a 20 nm diameter and negative zeta potential with powerful antibacterial activity and low toxicity compared to currently available colloidal silver, suitable for cosmetic preservatives and pharmaceutical preparations administrable to humans and/or animals as needed.

Published

2017

32. Oral delivery of insulin via polyethylene imine-based nanoparticles for colonic release allows glycemic control in diabetic rats

Author

Salvioni, L, Fiandra, L, Del Curto, M, Mazzucchelli, S, Allevi, R, Truffi, M, Sorrentino, L, Santini, B, Cerea, M, Palugan, L, Corsi, F, Colombo, M, SALVIONI, LUCIA, MAZZUCCHELLI, SERENA, SANTINI, BENEDETTA, COLOMBO, MIRIAM, Salvioni, L, Fiandra, L, Del Curto, M, Mazzucchelli, S, Allevi, R, Truffi, M, Sorrentino, L, Santini, B, Cerea, M, Palugan, L, Corsi, F, Colombo, M, SALVIONI, LUCIA, MAZZUCCHELLI, SERENA, SANTINI, BENEDETTA, and COLOMBO, MIRIAM

Abstract

In this study, insulin-containing nanoparticles were loaded into pellet cores and orally administered to diabetic rats. Polyethylene imine-based nanoparticles, either placebo or loaded with insulin, were incorporated by extrusion and spheronization technology into cores that were subsequently coated with three overlapping layers and a gastroresistant film. The starting and coated systems were evaluated in vitro for their physico-technololgical characteristics, as well as disintegration and release performance. Nanoparticles-loaded cores showed homogeneous particle size distribution and shape. When a superdisintegrant and a soluble diluent were included in the composition enhanced disintegration and release performance were observed. The selected formulations, coated either with enteric or three-layer films, showed gastroresistant and release delayed behavior in vitro, respectively. The most promising formulations were finally tested for their hypoglycemic effect in diabetic rats. Only the nanoformulations loaded into the three-layer pellets were able to induce a significant hypoglycemic activity in diabetic rats. Our results suggest that this efficient activity could be attributed to a retarded release of insulin into the distal intestine, characterized by relatively low proteolytic activity and optimal absorption.

Published

2016

33. Conjugation of gold nanoparticles with multidentate surfactants for enhanced stability and biological properties

Author

Rany Rotem, Marco Giustra, Federica Arrigoni, Jessica A. Bertolini, Stefania Garbujo, Maria A. Rizzuto, Lucia Salvioni, Linda Barbieri, Luca Bertini, Luca De Gioia, Miriam Colombo, Davide Prosperi, Rotem, R, Giustra, M, Arrigoni, F, Bertolini, J, Garbujo, S, Rizzuto, M, Salvioni, L, Barbieri, L, Bertini, L, De Gioia, L, Colombo, M, and Prosperi, D

Subjects

Gold nanoparticle, Polyethylene glycol, Sol, Biomedical application, Medical application, Biomedical Engineering, Amphiphilic polymer, General Chemistry, General Medicine, Surface active agents, Inorganic nanoparticle, Stability propertie, Enhanced stability, Polyethylene, Multidentate, Bio-conjugation, Biological propertie, General Materials Science

Abstract

This work originated from the need to functionalize surfactant-coated inorganic nanoparticles for biomedical applications, a process that is limited by excess unbound surfactant. These limitations are connected to the bioconjugation of targeting molecules that are often in equilibrium between the free aliquot in solution and that which binds the surface of the nanoparticles. The excess in solution can play a role in the biocompatability in vitro and in vivo of the final nanoparticles stock. For this purpose, we tested the ability of common surfactants - monothiolated polyethylene glycol and amphiphilic polymers - to colloidally stabilize nanoparticles as excess surfactant is removed and compared them to newly appearing multidentate surfactants endowed with high avidity for inorganic nanoparticles. Our results showed that monothiolated polyethylene glycol or amphiphilic polymers have an insufficient affinity to the nanoparticles and as the excess surfactant is removed the colloidal stability is lost, while multidentate high-avidity surfactants excel in the same regard, possibly allowing improvement in an array of nanoparticle applications, especially in those stated.

Published

2023

34. Direct quantification of cytosolic delivery of drug nanocarriers using FlAsH-EDT2

Author

R, Rotem, J A, Bertolini, L, Salvioni, L, Barbieri, M A, Rizzuto, V, Tinelli, A, Gori, S, Adams, M, Colombo, D, Prosperi, Rotem, R, Bertolini, J, Salvioni, L, Barbieri, L, Rizzuto, M, Tinelli, V, Gori, A, Adams, S, Colombo, M, and Prosperi, D

Subjects

Pharmaceutical Preparations, Drug delivery, Biomedical Engineering, Pharmaceutical Science, Molecular Medicine, Medicine (miscellaneous), General Materials Science, Bioengineering, Cell penetration, Flow cytometry, Quantification method, FlAsH-EDT2

Abstract

The delivery of therapeutics across the cell membrane and into the cytoplasm is a major challenge that limits the development of new therapies. This challenge is compounded by the lack of a general assay for cytosolic delivery. Here we develop this assay based on the pro-fluorophore CrAsH-EDT2, and provide cytosolic penetration results for a variety of drug delivery agents (polyethyleneimine, poly-arginine, Ferritin, poly [maleic anhydride-alt-isobutene] grafted with dodecylamine, and cationic liposomes) into HeLa and T98G cells. Our results show that this method can be widely applicable to different cells and drug delivery agents, and yield statistically robust results. We later use this method to optimize and improve a model drug delivery agent's (Ferritin) cytosolic penetration.

Published

2023

35. Saporin Toxin Delivered by Engineered Colloidal Nanoparticles Is Strongly Effective against Cancer Cells

Author

Lucia Salvioni, Filippo Testa, Linda Barbieri, Marco Giustra, Jessica Armida Bertolini, Giulia Tomaino, Paolo Tortora, Davide Prosperi, Miriam Colombo, Salvioni, L, Testa, F, Barbieri, L, Giustra, M, Bertolini, J, Tomaino, G, Tortora, P, Prosperi, D, and Colombo, M

Subjects

breast cancer, colloidal nanoparticle, ribosome-inactivating proteins (RIPs), toxins, Saporin, colloidal nanoparticles, cancer therapy, Pharmaceutical Science, toxin

Abstract

Ribosome-inactivating proteins, including Saporin toxin, have found application in the search for innovative alternative cancer therapies to conventional chemo- and radiotherapy. Saporin’s main mechanism of action involves the inhibition of cytoplasmic protein synthesis. Its strong theoretical efficacy is counterbalanced by negligible cell uptake and diffusion into the cytosol. In this work, we demonstrate that by immobilizing Saporin on iron oxide nanoparticles coated with an amphiphilic polymer, which promotes nanoconjugate endosomal escape, a strong cytotoxic effect mediated by ribosomal functional inactivation can be achieved. Cancer cell death was mediated by apoptosis dependent on nanoparticle concentration but independent of surface ligand density. The cytotoxic activity of Saporin-conjugated colloidal nanoparticles proved to be selective against three different cancer cell lines in comparison with healthy fibroblasts.

Published

2022

36. 99mTc-Radiolabeled Silica Nanocarriers for Targeted Detection and Treatment of HER2-Positive Breast Cancer

Author

Marilena Ripamonti, Valentina Rigamonti, Davide Prosperi, Antonella De Palma, Davide Mazza, Pierluigi Mauri, Francesco Sudati, Rosa Maria Moresco, Paolo Rainone, Sara Belloli, Miriam Colombo, Antonello E. Spinelli, Lucia Salvioni, Valentina Roffia, Rainone, P, De Palma, A, Sudati, F, Roffia, V, Rigamonti, V, Salvioni, L, Colombo, M, Ripamonti, M, Spinelli, A, Mazza, D, Mauri, P, Moresco, R, Prosperi, D, Belloli, S, Spinelli, Ae, and Moresco, Rm

Subjects

Biodistribution, Medicine (General), 99m Tc-radiolabeling, Doxorubicin-loaded nanoparticle, Biophysics, Pharmaceutical Science, Bioengineering, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Biomaterials, R5-920, targeted silica nanoparticles, In vivo, International Journal of Nanomedicine, Spect imaging, Drug Discovery, medicine, Doxorubicin, Original Research, 99mtc-radiolabeling, tz-half chain conjugation, Chemistry, Organic Chemistry, General Medicine, her2-positive bc, 021001 nanoscience & nanotechnology, doxorubicin-loaded nanoparticles, 0104 chemical sciences, Cancer research, spect imaging, Nanocarriers, 0210 nano-technology, Drug carrier, Targeted silica nanoparticle, Preclinical imaging, Ex vivo, medicine.drug

Abstract

Paolo Rainone,1– 3 Antonella De Palma,4 Francesco Sudati,5 Valentina Roffia,4 Valentina Rigamonti,6 Lucia Salvioni,6 Miriam Colombo,6 Marilena Ripamonti,2 Antonello Enrico Spinelli,7 Davide Mazza,7 Pierluigi Mauri,4 Rosa Maria Moresco,1,2,7 Davide Prosperi,6 Sara Belloli2,7 1Department of Medicine and Surgery, University of Milano-Bicocca, Monza, 20900, Italy; 2Institute of Molecular Bioimaging and Physiology of CNR, Segrate, 20090, Italy; 3Doctorate School of Molecular and Translational Medicine, University of Milan, Milan, Italy; 4Institute of Biomedical Technologies of CNR, Segrate, 20090, Italy; 5PET and Nuclear Medicine Unit, San Raffaele Scientific Institute, Milan, 20132, Italy; 6NanoBioLab, Department of Biotechnology and Biosciences, University of Milano-Bicocca, Milan, 20126, Italy; 7Experimental Imaging Center, San Raffaele Scientific Institute, Milan, 20132, ItalyCorrespondence: Sara BelloliInstitute of Molecular Bioimaging and Physiology of CNR, Via Fratelli Cervi 93, Segrate, 20090, ItalyTel +39 02 26433640Fax +39 02 26432717Email belloli.sara@hsr.itIntroduction: The overexpression of Human Epidermal Growth Factor Receptor 2 (HER2) is usually associated with aggressive and infiltrating breast cancer (BC) phenotype, and metastases. Functionalized silica-based nanocarriers (SiNPs) can be labeled for in vivo imaging applications and loaded with chemotherapy drugs, making possible the simultaneous noninvasive diagnosis and treatment (theranostic) for HER2-positive BC.Methods: Firstly, FITC-filled SiNPs, were engineered with two different amounts of Hc-TZ (trastuzumab half-chain) per single nanoparticle (1:2 and 1:8, SiNPs to Hc-TZ ratio), which was 99mTc-radiolabeled at histidine residues for ex vivo and in vivo biodistribution evaluations. Secondly, nanoparticles were loaded with DOX and their in vitro and ex vivo/in vivo delivery was assessed, in comparison with liposomal Doxorubicin (Caelyx). Finally, the treatment efficacy of DOX-SiNPs-TZ (1:8 Hc-TZ) was evaluated in vivo by PET and supported by MS-based proteomics profiling of tumors.Results: SiNPs-TZ (1:8 Hc-TZ) tumor uptake was significantly greater than that of SiNPs-TZ (1:2 Hc-TZ) at 6 hours post-injection (p.i.) in ex vivo biodistribution experiment. At 24 h p.i., radioactivity values remained steady. Fluorescence microscopy, confirmed the presence of radiolabeled SiNPs-TZ (1:8 Hc-TZ) within tumor even at later times. SiNPs-TZ (1:8 Hc-TZ) nanoparticles loaded with Doxorubicin (DOX-SiNPs-TZ) showed a similar DOX delivery capability than Caelyx (at 6 h p.i.), in in vitro and ex vivo assays. Nevertheless, at the end of treatment, tumor volume was significantly reduced by DOX-SiNPs-TZ (1:8 Hc-TZ), compared to Caelyx and DOX-SiNPs treatment. Proteomics study identified 88 high stringent differentially expressed proteins comparing the three treatment groups with controls.Conclusion: These findings demonstrated a promising detection specificity and treatment efficacy for our system (SiNPs-TZ, 1:8 Hc-TZ), encouraging its potential use as a new theranostic agent for HER2-positive BC lesions. In addition, proteomic profile confirmed that a set of proteins, related to tumor aggressiveness, were positively affected by targeted nanoparticles.Keywords: HER2-positive BC, targeted silica nanoparticles, TZ-half chain conjugation, 99mTc-radiolabeling, SPECT imaging, doxorubicin-loaded nanoparticles

Published

2021

37. Ferric carboxymaltose for iron deficiency at discharge after acute heart failure

Author

Stefano Savonitto, D Soon, V Tseluyko, J Heymeriks, L Petrescu, Fabio T. M. Costa, P Garcia Pacho, G Chapidze, Michael Motro, M Diez, A Prado, Piotr Ponikowski, Sanjib Kumar Sharma, DL Serban, A. Salvioni, S del Prado, Giuseppe Boriani, Stephan von Haehling, HG Cestari, PR Nierop, LC Iosipescu, Hans Kragten, Má Hominal, Bridget-Anne Kirwan, Andre Keren, D Horvat, J Thierer, D Sim, Rabih R. Azar, Peter van der Meer, G Stanciulescu, F Cosmi, Sy Loh, Jarosław Drożdż, David Sim, K Paposhvili, M Berli, Alain Cohen-Solal, Stefan D. Anker, Arnaout, ML Parody, GO Zapata, T Ben-Gal, J Schaap, Bas L.J.H. Kietselaer, O Raed, G Kiwan, Marco Metra, Shaul Atar, Udo Michael Göhring, Edoardo Gronda, A Ružić, C Beltrano, Dpw Beelen, Davor Milicic, R Ray, JM Weinstein, FI Ga Bosa Ojeda, Y-K Wong, Dalton Bertolim Précoma, Javed Butler, JR Gonzalez Juanatey, V Chumburidze, Gerasimos Filippatos, V Witzling, Y Malynovsky, I Kraiz, A Samodol, J Trevelyan, L Nigro Maia, M Stanislavchuk, Gilmar Reis, I Khintibidze, D Zdrenghea, Beata Wożakowska-Kapłon, BD Molina, C Abdallah, Ham van Kesteren, Tim Friede, Marcin Gruchała, Majdi Halabi, Ewa A. Jankowska, P Van Bergen, Constantin Militaru, O Koval, DA Darabantiu, A Kormann, J Szachniewicz, Maria Dorobantu, M van de Wetering, R Nijmeijer, H Hamdan, Stefano Ghio, Henry J. Dargie, G Azize, Nicolas Danchin, S Chaaban, S Gerward, P Pimentel Filho, M Uguccioni, K Abdelbaki, N Vita, J.F.K. Saraiva, D Almeida, Michael Shochat, M Ohlsson, R Van de Wal, V Zolotaikina, W Kinany, A Tycińska, A Hershson, T Shaburishvili, Vincent Fabien, FR dos Santos, Alfredo Bardají, Rgej Groutars, M Flugelman, J Bono, M Udovicic, M Artuković, K Šutalo, J Drozdz, TJ Yeo, F Ferre Pacora, Z Lominadze, M Emans, S Pettit, HA Luquez, P Terrosu, Marcus Ohlsson, M Gąsior, S Tušek, Enrico Passamonti, Nyy Al-Windy, P Midi, DA Pascual Figal, P van der Meer, V Zvi, Wilco Tanis, Felipe Martinez, RR Borelli, Diana A. Gorog, O Parhomenko, Klaus H Jensen, M Meijs, J Nessler, M Piepoli, DM Toader, Jose C. Nicolau, A Glenny, José Luis Zamorano, L Tilling, T McDonagh, K Pesek, H Fernandez, Davor Miličić, Domingo A. Pascual-Figal, Theresa McDonagh, G Khabeishvili, Josep Comin-Colet, Israel Gotsman, S Rassi, M Dorobantu, E Straburzyńska-Migaj, L Fattore, L Rudenko, D Crisu, S.S. Kabbani, M Gomez Bueno, Basil S. Lewis, S Goland, Y Arbel, M Bronisz, I Vakaliuk, A Fucili, A Mortara, R Zukermann, N Emukhvari, B Hassouna, K Mizia-Stec, F Turrini, R Szelemej, A Rodica Dan, L Lobo Marquez, Hadi Skouri, A Kabir, Frank Ruschitzka, R García Durán, R Gil, Michael Shechter, P Westendorp, Piergiuseppe Agostoni, A Fernandez, Oscar Pereira Dutra, P Ameri, Wolfram Doehner, JG Smith, Irakli Khintibidze, Luciano Moreira Baracioli, J Šikić, Stuart Pocock, Olivier C. Manintveld, MC Tomescu, M Di Biase, Luiz Carlos Bodanese, E Mirek-Bryniarska, Alexander Parkhomenko, Cardiovascular Centre (CVC), Restoring Organ Function by Means of Regenerative Medicine (REGENERATE), Cardiology, leboeuf, Christophe, Wrocław Medical University, London School of Hygiene and Tropical Medicine (LSHTM), Charité - UniversitätsMedizin = Charité - University Hospital [Berlin], King's College Hospital (KCH), Universitatea din Bucuresti (UB), University of Lódź, Vifor Pharma Ltd [Glattbrugg, Switzerland], National and Kapodistrian University of Athens (NKUA), Hadassah Hebrew University Medical Center [Jerusalem], Tbilisi State University, Maastricht University Medical Centre (MUMC), Maastricht University [Maastricht], Prague University of Economics and Business, Università degli Studi di Brescia = University of Brescia (UniBs), University of Zagreb, Universidade de São Paulo = University of São Paulo (USP), Skane University Hospital [Malmo], Lund University [Lund], National Scientific Center 'M.D. Strazhesko Institute of Cardiology' [Kyiv, Ukraine] (NSC/MDSIC), Universidad de Murcia, University hospital of Zurich [Zurich], National Heart Centre Singapore (NHCS), Saint Joseph Medical Center [Beirut], University Medical Center Groningen [Groningen] (UMCG), Clinical Cardiovascular Research Institute [Haifa, Israel] (2CRI), Bellvitge University Hospital [Barcelona, Spain], University Medical Center Göttingen (UMG), Biomarqueurs CArdioNeuroVASCulaires (BioCANVAS), Université Paris 13 (UP13)-Université Paris Diderot - Paris 7 (UPD7)-Institut National de la Santé et de la Recherche Médicale (INSERM), Hôpital Européen Georges Pompidou [APHP] (HEGP), Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Hôpitaux Universitaires Paris Ouest - Hôpitaux Universitaires Île de France Ouest (HUPO), Charité Campus Virchow-Klinikum (CVK), University of Glasgow, Tel Aviv University (TAU), University of Southern Mississippi (USM), Socar Research S.A. [Nyon, Switzerland] (SR), and AFFIRM-AHF investigators: G Azize, A Fernandez, G O Zapata, P Garcia Pacho, A Glenny, F Ferre Pacora, M L Parody, J Bono, C Beltrano, A Hershson, N Vita, H A Luquez, H G Cestari, H Fernandez, A Prado, M Berli, R García Durán, J Thierer, M Diez, L Lobo Marquez, R R Borelli, M Á Hominal, M Metra, P Ameri, P Agostoni, A Salvioni, L Fattore, E Gronda, S Ghio, F Turrini, M Uguccioni, M Di Biase, M Piepoli, S Savonitto, A Mortara, P Terrosu, A Fucili, G Boriani, P Midi, E Passamonti, F Cosmi, P van der Meer, P Van Bergen, M van de Wetering, Nyy Al-Windy, W Tanis, M Meijs, Rgej Groutars, Hks The, B Kietselaer, Ham van Kesteren, Dpw Beelen, J Heymeriks, R Van de Wal, J Schaap, M Emans, P Westendorp, P R Nierop, R Nijmeijer, O C Manintveld, M Dorobantu, D A Darabantiu, D Zdrenghea, D M Toader, L Petrescu, C Militaru, D Crisu, M C Tomescu, G Stanciulescu, A Rodica Dan, L C Iosipescu, D L Serban, J Drozdz, J Szachniewicz, M Bronisz, A Tycińska, B Wozakowska-Kaplon, E Mirek-Bryniarska, M Gruchała, J Nessler, E Straburzyńska-Migaj, K Mizia-Stec, R Szelemej, R Gil, M Gąsior, I Gotsman, M Halabi, M Shochat, M Shechter, V Witzling, R Zukermann, Y Arbel, M Flugelman, T Ben-Gal, V Zvi, W Kinany, J M Weinstein, S Atar, S Goland, D Milicic, D Horvat, S Tušek, M Udovicic, K Šutalo, A Samodol, K Pesek, M Artuković, A Ružić, J Šikić, T McDonagh, J Trevelyan, Y-K Wong, D Gorog, R Ray, S Pettit, S Sharma, A Kabir, H Hamdan, L Tilling, L Baracioli, L Nigro Maia, O Dutra, G Reis, P Pimentel Filho, J F Saraiva, A Kormann, F R Dos Santos, L Bodanese, D Almeida, D Precoma, S Rassi, F Costa, S Kabbani, K Abdelbaki, C Abdallah, M S Arnaout, R Azar, S Chaaban, O Raed, G Kiwan, B Hassouna, A Bardaji, J Zamorano, S Del Prado, J R Gonzalez Juanatey, F I Ga Bosa Ojeda, M Gomez Bueno, B D Molina, D A Pascual Figal, D Sim, T J Yeo, S Y Loh, D Soon, M Ohlsson, J G Smith, S Gerward, I Khintibidze, Z Lominadze, G Chapidze, N Emukhvari, G Khabeishvili, V Chumburidze, K Paposhvili, T Shaburishvili, G Khabeishvili, O Parhomenko, I Kraiz, O Koval, V Zolotaikina, Y Malynovsky, I Vakaliuk, L Rudenko, V Tseluyko, M Stanislavchuk.

Subjects

Male, medicine.medical_specialty, Anemia, 030204 cardiovascular system & hematology, Rate ratio, Placebo, Ferric Compounds, Ventricular Function, Left, law.invention, 03 medical and health sciences, 0302 clinical medicine, [SDV.MHEP.CSC]Life Sciences [q-bio]/Human health and pathology/Cardiology and cardiovascular system, Double-Blind Method, Randomized controlled trial, law, Internal medicine, medicine, Humans, 030212 general & internal medicine, Maltose, Adverse effect, TOLVAPTAN, Aged, Aged, 80 and over, Heart Failure, RISK, Ejection fraction, Anemia, Iron-Deficiency, business.industry, MORTALITY, Hazard ratio, DEATH, General Medicine, Middle Aged, medicine.disease, Patient Discharge, [SDV.MHEP.CSC] Life Sciences [q-bio]/Human health and pathology/Cardiology and cardiovascular system, 3. Good health, Hospitalization, Treatment Outcome, Heart failure, Administration, Intravenous, Female, HOSPITALIZATIONS, business

Abstract

Background: Intravenous ferric carboxymaltose has been shown to improve symptoms and quality of life in patients with chronic heart failure and iron deficiency. We aimed to evaluate the effect of ferric carboxymaltose, compared with placebo, on outcomes in patients who were stabilised after an episode of acute heart failure. Methods: AFFIRM-AHF was a multicentre, double-blind, randomised trial done at 121 sites in Europe, South America, and Singapore. Eligible patients were aged 18 years or older, were hospitalised for acute heart failure with concomitant iron deficiency (defined as ferritin

Published

2020

38. Eco-luxury: Making sustainable drugs and cosmetics with Prosopis cineraria natural extracts

Author

Marco Giustra, Federico Cerri, Yaprak Anadol, Lucia Salvioni, Tatiana Antonelli Abella, Davide Prosperi, Paolo Galli, Miriam Colombo, Giustra, M, Cerri, F, Anadol, Y, Salvioni, L, Antonelli Abella, T, Prosperi, D, Galli, P, and Colombo, M

Subjects

Prosopis cineraria, natural product, pharmaceutic, agrofood, arid region, eco-sustainability, BIO/10 - BIOCHIMICA, cosmetic

Abstract

Climate change associated with global warming is a major warning of the twenty-first century, threatening ecosystems through uncontrolled temperature rises, drought, lack of water with a strong impact on productivity, economy, and worldwide life well-being. In most cases, the poor regions of the planet suffer from a lack of exploitable resources deriving from natural reserves. For this reason, wild vegetables able to grow in deserted areas are attracting increasing attention due to their beneficial properties. Among them, Prosopis cineraria has been recently recognized in the UAE not only as a cultural heritage but also as a potential source of raw materials for agri-food and pharmaceutics still poorly valued. P. cineraria occurs in most of the world's hot arid and semi-arid regions as a native or introduced species and, due to its multiple properties, could be exploited for medical, food, and, more recently, in different growing productivity fields like a luxury, especially in countries like the UAE. The use of actives-rich natural sources offers clear advantages over synthetic compounds in terms of process and product eco-sustainability. In this manuscript, we review the main properties and potential applications of P. cineraria aiming to promote the scientific interest toward the development of innovative approaches in several productive fields, including pharma and cosmetics, exploiting the versatility of materials that can be extracted from the various parts of the plant and discuss commercialization opportunities of the plant to support biodiversity and sustainability. In conclusion, P. cineraria turns out to be a plant able to grow in hostile environments, already providing nutrients for populations of Western Asia and the Indian subcontinent and possibly translatable to poor arid regions.

Published

2022

39. Specific immunosuppressive role of nanodrugs targeting calcineurin in innate myeloid cells

Author

Miriam Colombo, Laura Marongiu, Francesca Mingozzi, Roberta Marzi, Clara Cigni, Fabio Alessandro Facchini, Rany Rotem, Mihai Valache, Giulia Stucchi, Giuseppe Rocca, Laura Gornati, Maria Antonietta Rizzuto, Lucia Salvioni, Ivan Zanoni, Alessandro Gori, Davide Prosperi, Francesca Granucci, Colombo, M, Marongiu, L, Mingozzi, F, Marzi, R, Cigni, C, Facchini, F, Rotem, R, Valache, M, Stucchi, G, Rocca, G, Gornati, L, Rizzuto, M, Salvioni, L, Zanoni, I, Gori, A, Prosperi, D, and Granucci, F

Subjects

Multidisciplinary, Health science, Immunology, Drug, Immune response

Abstract

Calcineurin (CN) inhibitors currently used to avoid transplant rejection block the activation of adaptive immune responses but also prevent the development of tolerance toward the graft, by directly inhibiting T cells. CN, through the transcription factors of the NFAT family, plays an important role also in the differentiation dendritic cells (DCs), the main cells responsible for the activation of T lymphocytes. Therefore, we hypothesized that the inhibition of CN only in DCs and not in T cells could be sufficient to prevent T cell responses, while allowing for the development of tolerance. Here, we show that inhibition of CN/NFAT pathway in innate myeloid cells, using a new nanoconjugate capable of selectively targeting phagocytes in vivo, protects against graft rejection and induces a longer graft acceptance compared to common CN inhibitors. We propose a new generation of nanoparticles-based selective immune suppressive agents for a better control of transplant acceptance.

Published

2021

40. Impact of Tuning the Surface Charge Distribution on Colloidal Iron Oxide Nanoparticle Toxicity Investigated in

Author

Barbara Sciandrone, Paolo Tortora, Maria Elena Regonesi, Loredana Amigoni, Marco Giustra, Chiara Pacini, Davide Prosperi, Miriam Colombo, Lucia Salvioni, Amigoni, L, Salvioni, L, Sciandrone, B, Giustra, M, Pacini, C, Tortora, P, Prosperi, D, Colombo, M, and Regonesi, M

Subjects

General Chemical Engineering, Am-phiphilic polymer, Oxide, Nanoparticle, 02 engineering and technology, Caenorhabditis elegans, Article, 03 medical and health sciences, chemistry.chemical_compound, Colloid, In vivo, General Materials Science, Surface charge, Nanotoxicology, QD1-999, Caenorhabditis elegan, 030304 developmental biology, 0303 health sciences, Chemistry, iron oxide nanoparticles, Cationic polymerization, 021001 nanoscience & nanotechnology, Iron oxide nanoparticle, Biophysics, amphiphilic polymer, 0210 nano-technology, Iron oxide nanoparticles

Abstract

Assessing the toxic effect in living organisms remains a major issue for the development of safe nanomedicines and exposure of researchers involved in the synthesis, handling and manipulation of nanoparticles. In this study, we demonstrate that Caenorhabditis elegans could represent an in vivo model alternative to superior mammalians for the collection of several physiological functionality parameters associated to both short-term and long-term effects of colloidally stable nanoparticles even in absence of microbial feeding, usually reported to be necessary to ensure appropriate intake. Contextually, we investigated the impact of surface charge on toxicity of superparamagnetic iron oxide coated with a wrapping polymeric envelop that confers them optimal colloidal stability. By finely tuning the functional group composition of this shallow polymer–obtaining totally anionic, partially pegylated, partially anionic and partially cationic, respectively–we showed that the ideal surface charge organization to optimize safety of colloidal nanoparticles is the one containing both cationic and anionic groups. Our results are in accordance with previous evidence that zwitterionic nanoparticles allow long circulation, favorable distribution in the tumor area and optimal tumor penetration and thus support the hypothesis that zwitterionic iron oxide nanoparticles could be an excellent solution for diagnostic imaging and therapeutic applications in nanooncology.

Published

2021

41. The Role of Polymeric Coatings for a Safe-by-Design Development of Biomedical Gold Nanoparticles Assessed in Zebrafish Embryo

Author

Pamela Floris, Paride Mantecca, Lucia Salvioni, Luisa Fiandra, Miriam Colombo, Stefania Garbujo, Tiziano Catelani, Marco Giustra, Gabriele Rolla, Floris, P, Garbujo, S, Rolla, G, Giustra, M, Salvioni, L, Catelani, T, Colombo, M, Mantecca, P, and Fiandra, L

Subjects

Gold nanoparticle, General Chemical Engineering, 02 engineering and technology, Polyethylene glycol, 010402 general chemistry, 01 natural sciences, Article, lcsh:Chemistry, chemistry.chemical_compound, polymeric-coating, PEG ratio, General Materials Science, Surface charge, Zebrafish, chemistry.chemical_classification, biology, toxicity, FET, Embryo, Polymer, 021001 nanoscience & nanotechnology, biology.organism_classification, zebrafish, 3. Good health, 0104 chemical sciences, chemistry, lcsh:QD1-999, Colloidal gold, gold nanoparticles, Toxicity, embryonic structures, Biophysics, safe-by-design, 0210 nano-technology

Abstract

In the biomedical field, gold nanoparticles (GNPs) have attracted the attention of the scientific community thanks to their high potential in both diagnostic and therapeutic applications. The extensive use of GNPs led researchers to investigate their toxicity, identifying stability, size, shape, and surface charge as key properties determining their impact on biological systems, with possible strategies defined to reduce it according to a Safe-by-Design (SbD) approach. The purpose of the present work was to analyze the toxicity of GNPs of various sizes and with different coating polymers on the developing vertebrate model, zebrafish. In particular, increasing concentrations (from 0.001 to 1 nM) of 6 or 15 nm poly-(isobutylene-alt-maleic anhydride)-graft-dodecyl polymer (PMA)- or polyethylene glycol (PEG)-coated GNPs were tested on zebrafish embryos using the fish embryo test (FET). While GNP@PMA did not exert significant toxicity on zebrafish embryos, GNP@PEG induced a significant inhibition of embryo viability, a delay of hatching (with the smaller size NPs), and a higher incidence of malformations, in terms of tail morphology and eye development. Transmission electron microscope analysis evidenced that the more negatively charged GNP@PMA was sequestered by the positive charges of chorion proteins, with a consequent reduction in the amount of NPs able to reach the developing embryo and exert toxicological activity. The mild toxic response observed on embryos directly exposed to GNP@PMA suggest that these NPs are promising in terms of SbD development of gold-based biomedical nanodevices. On the other hand, the almost neutral GNP@PEG, which did not interact with the chorion surface and was free to cross chorion pores, significantly impacted the developing zebrafish. The present study raises concerns about the safety of PEGylated gold nanoparticles and contributes to the debated issue of the free use of this nanotool in medicine and nano-biotechnologies.

Published

2021

42. The emerging role of nanotechnology in skincare

Author

Massimo Labra, Miriam Colombo, Luisa Fiandra, Davide Prosperi, Lucia Morelli, Evelyn Ochoa, Lucia Salvioni, Luca Palugan, Salvioni, L, Morelli, L, Ochoa, E, Labra, M, Fiandra, L, Palugan, L, Prosperi, D, and Colombo, M

Subjects

Anti-aging product, media_common.quotation_subject, Lipid nanoparticle, Nanotechnology, 02 engineering and technology, Cosmetics, 010402 general chemistry, 01 natural sciences, Colloid and Surface Chemistry, Dermal penetration, Skin delivery, Cosmetic, Physical and Theoretical Chemistry, Beneficial effects, media_common, Skin, Uv protection, Active ingredient, Skincare, Surfaces and Interfaces, 021001 nanoscience & nanotechnology, Nanomaterial, 0104 chemical sciences, Impact of nanotechnology, Nanostructures, Skin penetration, Nanoparticles, Physical stability, Business, 0210 nano-technology

Abstract

The role of cosmetic products is rapidly evolving in our society, with their use increasingly seen as an essential contribution to personal wellness. This suggests the necessity of a detailed elucidation of the use of nanoparticles (NPs) in cosmetics. The aim of the present work is to offer a critical and comprehensive review discussing the impact of exploiting nanomaterials in advanced cosmetic formulations, emphasizing the beneficial effects of their extensive use in next-generation products despite a persisting prejudice around the application of nanotechnology in cosmetics. The discussion here includes an interpretation of the data underlying generic information reported on the product labels of formulations already available in the marketplace, information that often lacks details identifying specific components of the product, especially when nanomaterials are employed. The emphasis of this review is mainly focused on skincare because it is believed to be the cosmetics market sector in which the impact of nanotechnology is being seen most significantly. To date, nanotechnology has been demonstrated to improve the performance of cosmetics in a number of different ways: 1) increasing both the entrapment efficiency and dermal penetration of the active ingredient, 2) controlling drug release, 3) enhancing physical stability, 4) improving moisturizing power, and 5) providing better UV protection. Specific attention is paid to the effect of nanoparticles contained in semisolid formulations on skin penetration issues. In light of the emerging concerns about nanoparticle toxicity, an entire section has been devoted to listing detailed examples of nanocosmetic products for which safety has been investigated.

Published

2021

43. The Vault Nanoparticle: A Gigantic Ribonucleoprotein Assembly Involved in Diverse Physiological and Pathological Phenomena and an Ideal Nanovector for Drug Delivery and Therapy

Author

Maria Rosa Pozzi, Paolo Tortora, Gianni Frascotti, Elisabetta Galbiati, Matteo Mazzucchelli, Lucia Salvioni, Jacopo Vertemara, Frascotti, G, Galbiati, E, Mazzucchelli, M, Pozzi, M, Salvioni, L, Vertemara, J, and Tortora, P

Subjects

0301 basic medicine, Cancer Research, Chemistry, Review, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, major vault protein (MVP), lcsh:RC254-282, nanomedicine, Cell biology, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Oncology, vault nanoparticle, 030220 oncology & carcinogenesis, Drug delivery, Gene expression, Nanocarriers, Signal transduction, multidrug resistance (MDR), Reprogramming, Vault (organelle), TEP1, Ribonucleoprotein

Abstract

Simple Summary In recent decades, a molecular complex referred to as vault nanoparticle has attracted much attention by the scientific community, due to its unique properties. At the molecular scale, it is a huge assembly consisting of 78 97-kDa polypeptide chains enclosing an internal cavity, wherein enzymes involved in DNA integrity maintenance and some small noncoding RNAs are accommodated. Basically, two reasons justify this interest. On the one hand, this complex represents an ideal tool for the targeted delivery of drugs, provided it is suitably engineered, either chemically or genetically; on the other hand, it has been shown to be involved in several cellular pathways and mechanisms that most often result in multidrug resistance. It is therefore expected that a better understanding of the physiological roles of this ribonucleoproteic complex may help develop new therapeutic strategies capable of coping with cancer progression. Here, we provide a comprehensive review of the current knowledge. Abstract The vault nanoparticle is a eukaryotic ribonucleoprotein complex consisting of 78 individual 97 kDa-“major vault protein” (MVP) molecules that form two symmetrical, cup-shaped, hollow halves. It has a huge size (72.5 × 41 × 41 nm) and an internal cavity, wherein the vault poly(ADP-ribose) polymerase (vPARP), telomerase-associated protein-1 (TEP1), and some small untranslated RNAs are accommodated. Plenty of literature reports on the biological role(s) of this nanocomplex, as well as its involvement in diseases, mostly oncological ones. Nevertheless, much has still to be understood as to how vault participates in normal and pathological mechanisms. In this comprehensive review, current understanding of its biological roles is discussed. By different mechanisms, vault’s individual components are involved in major cellular phenomena, which result in protection against cellular stresses, such as DNA-damaging agents, irradiation, hypoxia, hyperosmotic, and oxidative conditions. These diverse cellular functions are accomplished by different mechanisms, mainly gene expression reprogramming, activation of proliferative/prosurvival signaling pathways, export from the nucleus of DNA-damaging drugs, and import of specific proteins. The cellular functions of this nanocomplex may also result in the onset of pathological conditions, mainly (but not exclusively) tumor proliferation and multidrug resistance. The current understanding of its biological roles in physiological and pathological processes should also provide new hints to extend the scope of its exploitation as a nanocarrier for drug delivery.

Published

2021

44. Development of an Effective Tumor-Targeted Contrast Agent for Magnetic Resonance Imaging Based on Mn/H-Ferritin Nanocomplexes

Author

Lucia Salvioni, Miriam Colombo, Anna Degrassi, Massimiliano D’Arienzo, Davide Prosperi, Chiara Tullio, Stefania Garbujo, Michela Bellini, Luisa Fiandra, Filippo Testa, Rany Rotem, Tullio, C, Salvioni, L, Bellini, M, Degrassi, A, Fiandra, L, D'Arienzo, M, Garbujo, S, Rotem, R, Testa, F, Prosperi, D, and Colombo, M

Subjects

diagnostic imaging, Gadolinium, H-ferritin, Biomedical Engineering, chemistry.chemical_element, Contrast Media, Transferrin receptor, Antineoplastic Agents, Breast Neoplasms, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Article, law.invention, Biomaterials, Mice, Breast cancer, In vivo, law, medicine, Animals, Humans, medicine.diagnostic_test, tumor targeting, Biochemistry (medical), Magnetic resonance imaging, General Chemistry, contrast agent, 021001 nanoscience & nanotechnology, medicine.disease, Magnetic Resonance Imaging, In vitro, 3. Good health, 0104 chemical sciences, chemistry, Toxicity, Apoferritins, Cancer research, Recombinant DNA, manganese, Female, 0210 nano-technology, MRI

Abstract

Magnetic resonance imaging (MRI) is one of the most sophisticated diagnostic tools that is routinely used in clinical practice. Contrast agents (CAs) are commonly exploited to afford much clearer images of detectable organs and to reduce the risk of misdiagnosis caused by limited MRI sensitivity. Currently, only a few gadolinium-based CAs are approved for clinical use. Concerns about their toxicity remain, and their administration is approved only under strict controls. Here, we report the synthesis and validation of a manganese-based CA, namely, Mn@HFn-RT. Manganese is an endogenous paramagnetic metal able to produce a positive contrast like gadolinium, but it is thought to result in less toxicity for the human body. Mn ions were efficiently loaded inside the shell of a recombinant H-ferritin (HFn), which is selectively recognized by the majority of human cancer cells through their transferrin receptor 1. Mn@HFn-RT was characterized, showing excellent colloidal stability, superior relaxivity, and a good safety profile. In vitro experiments confirmed the ability of Mn@HFn-RT to efficiently and selectively target breast cancer cells. In vivo, Mn@HFn-RT allowed the direct detection of tumors by positive contrast enhancement in a breast cancer murine model, using very low metal dosages and exhibiting rapid clearance after diagnosis. Hence, Mn@HFn-RT is proposed as a promising CA candidate to be developed for MRI.

Published

2021

45. H-Ferritin nanoparticle-mediated delivery of antibodies across a BBB in vitro model for treatment of brain malignancies

Author

Marta Truffi, Davide Prosperi, Maria Antonietta Rizzuto, Laura Pandolfi, Anna Sguazzini-Viscontini, Francesca Re, Linda Barbieri, Lucia Salvioni, Fabio Corsi, Miriam Colombo, Roberta Dal Magro, Rizzuto, M, Dal Magro, R, Barbieri, L, Pandolfi, L, Sguazzini-Viscontini, A, Truffi, M, Salvioni, L, Corsi, F, Colombo, M, Re, F, and Prosperi, D

Subjects

medicine.drug_class, Biomedical Engineering, 02 engineering and technology, Blood–brain barrier, Monoclonal antibody, Glioblastoma multiforme, 03 medical and health sciences, Immune system, Nanoparticle, medicine, Humans, General Materials Science, Cytotoxicity, monoclonal antibodie, 030304 developmental biology, Blood-brain barrier, Antibody-dependent cell-mediated cytotoxicity, 0303 health sciences, biology, Chemistry, Brain Neoplasms, Endothelial Cells, 021001 nanoscience & nanotechnology, medicine.disease, medicine.anatomical_structure, Cancer cell, Apoferritins, biology.protein, Cancer research, Nanoparticles, Antibody, 0210 nano-technology, Brain metastasis

Abstract

Brain cancers are a group of neoplasms that can be either primary, such as glioblastoma multiforme (GBM), or metastatic, such as the HER2+ breast cancer brain metastasis. The brain represents a sanctuary for cancer cells thanks to the presence of the blood brain barrier (BBB) that controls trafficking of molecules, protecting the brain from toxic substances including drugs. Considering that GBM and HER2+ breast cancer brain metastases are characterized by EGFR and HER2 over-expression respectively, CTX- and TZ-based treatment could be effective. Several studies show that these monoclonal antibodies (mAbs) exert both a cytostatic activity interfering with the transduction pathways of EGFR family and a cytotoxic activity mainly through the immune system activation via the antibody dependent cell-mediated cytotoxicity (ADCC). Since the major limitation to therapeutic mAbs application is the presence of the BBB, here we use a recombinant form of human apoferritin (HFn) as a nanovector to promote the delivery of mAbs to the brain for the activation of the ADCC response. Using a transwell model of the BBB we proved the crossing ability of HFn-mAb. Cellular uptake of HFn-mAb by human cerebral microvascular endothelial cells (hCMEC/D3) was demonstrated by confocal microscopy. Moreover, after crossing the endothelial monolayer, HFn-conjugated mAbs retain their biological activity against targets, as assessed by MTS and ADCC assays. Our data support the use of HFn as efficient carrier to enhance the BBB crossing of mAbs, without affecting their antitumoral activity.

Published

2021

46. Modeling the interaction of amphiphilic polymer nanoparticles with biomembranes to Guide rational design of drug delivery systems

Author

Martina Migliavacca, Marco Giustra, Miriam Colombo, Rany Rotem, Angelo Micale, Davide Prosperi, Federico Tasin, Maria Antonietta Rizzuto, Lucia Salvioni, Rotem, R, Micale, A, Rizzuto, M, Migliavacca, M, Giustra, M, Salvioni, L, Tasin, F, Prosperi, D, and Colombo, M

Subjects

Endosome, Polymers, 02 engineering and technology, Endosomes, 01 natural sciences, Micelle, Colloid and Surface Chemistry, Drug Delivery Systems, 0103 physical sciences, medicine, Physical and Theoretical Chemistry, Micelles, Drug Carriers, 010304 chemical physics, Chemistry, Rational design, Amphiphilic polymer, Biological membrane, Surfaces and Interfaces, General Medicine, 021001 nanoscience & nanotechnology, medicine.disease, Endosomal escape, Blood proteins, Hemolysis, Membrane, Drug delivery, Biophysics, Nanoparticles, 0210 nano-technology, Biotechnology

Abstract

Nanoparticle assisted drug delivery to the cytoplasm is limited by sequestration of nanoparticles in endosomes. Endosomal escape through polymer-induced membrane destabilization is one of a few well characterized mechanisms to overcome it. Aiming to utilize this method in vivo, it is necessary to understand how modulating the structural and chemical features of the polymer and the presence of proteins in biological fluids can affect this activity. Here, as a model for the endosomal membrane, we use the membrane of red blood cells to evaluate the membrane destabilization ability of a model amphiphilic polymer in the presence of blood plasma using a hemolysis assay. This allows determination of red blood cells membrane permeabilization through the quantification of hemoglobin leakage. Our results showed a strong inhibitory effect of plasma, and that hemolytic activity can be improved by chemical modification of the polymeric micelle, reducing its interaction with plasma proteins. Finally, a second mechanism of pH-induced direct diffusion is proposed and tested using an oil/water partitioning model. These results offer a body of knowledge to improve delivery of drugs across biological membranes using carefully designed polymeric nanocarriers.

Published

2020

47. Functionalization of colloidal nanoparticles with a discrete number of ligands based on a 'HALO-bioclick' reaction

Author

Lucia Salvioni, Miriam Colombo, Xing Sun, Stefania Garbujo, Elisabetta Galbiati, Wolfgang J. Parak, Davide Prosperi, Matteo Mazzucchelli, Gianni Frascotti, Neus Feliu, Saad Megahed, Garbujo, S, Galbiati, E, Salvioni, L, Mazzucchelli, M, Frascotti, G, Sun, X, Megahed, S, Feliu, N, Prosperi, D, Parak, W, and Colombo, M

Subjects

Green Fluorescent Proteins, Metal Nanoparticles, Nanoparticle, bioconjugation, 02 engineering and technology, Conjugated system, Ligands, 010402 general chemistry, 01 natural sciences, Halo-tag, Catalysis, monofunctionalization, Materials Chemistry, Molecule, Colloids, Bioconjugation, Molecular Structure, Chemistry, nanoparticle, Metals and Alloys, General Chemistry, 021001 nanoscience & nanotechnology, Combinatorial chemistry, Fusion protein, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Colloidal gold, Ceramics and Composites, Surface modification, Gold, 0210 nano-technology, Protein ligand

Abstract

A recombinant HALO-GFP fusion protein was designed and isolated to demonstrate the feasibility of controlling the number and orientation of protein ligands to be conjugated on colloidal gold nanoparticles. AuNPs functionalized with exactly one or exactly two GFP molecules exhibited fully preserved functionality of the protein. The method is very straightforward and generally provides highly bioactive nanoparticle-protein conjugates.

Published

2020

48. Colloidal polymer-coated Zn-doped iron oxide nanoparticles with high relaxivity and specific absorption rate for efficient magnetic resonance imaging and magnetic hyperthermia

Author

Davide Prosperi, Anna M. Ferretti, Silvia Mannucci, Pradip Das, Manuela Malatesta, Chiara Tullio, Marco Gerosa, Miriam Colombo, Maria Antonietta Rizzuto, Laura Calderan, Alessandro Ponti, Federica Vurro, Lucia Salvioni, Anna Degrassi, Das, P, Salvioni, L, Malatesta, M, Vurro, F, Mannucci, S, Gerosa, M, Antonietta Rizzuto, M, Tullio, C, Degrassi, A, Colombo, M, Ferretti, A, Ponti, A, Calderan, L, and Prosperi, D

Subjects

Materials science, Polymers, Zinc doping, Nanoparticle, Contrast Media, 02 engineering and technology, 010402 general chemistry, High relaxivity, 01 natural sciences, Biomaterials, Colloid, chemistry.chemical_compound, Colloid and Surface Chemistry, Nuclear magnetic resonance, medicine, Humans, Hyperthermia, Magnetite Nanoparticles, chemistry.chemical_classification, medicine.diagnostic_test, Superparamagnetism, Magnetic resonance imaging, Polymer, Polymer coating, 021001 nanoscience & nanotechnology, equipment and supplies, Magnetic Resonance Imaging, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Magnetic field, Zinc, Magnetic hyperthermia, chemistry, Iron oxide nanoparticle, Nanoparticles, Magnetic Iron Oxide Nanoparticles, Cancer theranostic, 0210 nano-technology, High specific absorption rate, human activities, Iron oxide nanoparticles

Abstract

Colloidally stable nanoparticles-based magnetic agents endowed with very high relaxivity and specific absorption rate are extremely desirable for efficient magnetic resonance imaging and magnetic hyperthermia, respectively. Here, we report a water dispersible magnetic agent consisting of zinc-doped superparamagnetic iron oxide nanoparticles (i.e., Zn-SPIONs) of 15 nm size with high saturation magnetization coated with an amphiphilic polymer for effective magnetic resonance imaging and magnetic hyperthermia of glioblastoma cells. These biocompatible polymer-coated Zn-SPIONs had 24 nm hydrodynamic diameter and exhibited high colloidal stability in various aqueous media, very high transverse relaxivity of 471 mM−1 s−1, and specific absorption rate up to 743.8 W g−1, which perform better than most iron oxide nanoparticles reported in the literature, including commercially available agents. Therefore, using these polymer-coated Zn-SPIONs even at low concentrations, T2-weighted magnetic resonance imaging and moderate magnetic hyperthermia of glioblastoma cells under clinically relevant magnetic field were successfully implemented. In addition, the results of this in vitro study suggest the superior potential of Zn-SPIONs as a theranostic nanosystem for brain cancer treatment, simultaneously acting as a contrast agent for magnetic resonance imaging and a heat mediator for localized magnetic hyperthermia.

Published

2020

49. Full-Length Recombinant hSP-D Binds and Inhibits SARS-CoV-2

Author

Marc Salzberg, Davide Ottolina, Raquel Arroyo, Fabio Corsi, Miriam Colombo, Davide Prosperi, Lucia Salvioni, Marta Truffi, Shawn N. Grant, Brett L. Hurst, Paul S. Kingma, Arroyo, R, Grant, S, Colombo, M, Salvioni, L, Corsi, F, Truffi, M, Ottolina, D, Hurst, B, Salzberg, M, Prosperi, D, and Kingma, P

Subjects

Adult, Male, 0301 basic medicine, Spike‐protein, viruses, ACE2, Plasma protein binding, Virus Replication, Microbiology, Biochemistry, Article, law.invention, 03 medical and health sciences, 0302 clinical medicine, Immune system, COVID‐19, law, medicine, Humans, Pulmonary Surfactant-Associated Protein D, Molecular Biology, Anti‐inflammatory, Aged, anti-inflammatory, Gel electrophoresis, medicine.diagnostic_test, SARS-CoV-2, Chemistry, SP-D, SP‐D, COVID-19, spike-protein, Middle Aged, Molecular biology, QR1-502, Recombinant Proteins, In vitro, 030104 developmental biology, Bronchoalveolar lavage, 030228 respiratory system, Viral replication, Spike Glycoprotein, Coronavirus, Recombinant DNA, Female, Caco-2 Cells, Protein Binding

Abstract

SARS-CoV-2 infection of host cells is driven by binding of the SARS-CoV-2 spike-(S)-protein to lung type II pneumocytes, followed by virus replication. Surfactant protein SP-D, member of the front-line immune defense of the lungs, binds glycosylated structures on invading pathogens such as viruses to induce their clearance from the lungs. The objective of this study is to measure the pulmonary SP-D levels in COVID-19 patients and demonstrate the activity of SP-D against SARS-CoV-2, opening the possibility of using SP-D as potential therapy for COVID-19 patients. Pulmonary SP-D concentrations were measured in bronchoalveolar lavage samples from patients with corona virus disease 2019 (COVID-19) by anti-SP-D ELISA. Binding assays were performed by ELISAs. Protein bridge and aggregation assays were performed by gel electrophoresis followed by silver staining and band densitometry. Viral replication was evaluated in vitro using epithelial Caco-2 cells. Results indicate that COVID-19 patients (n = 12) show decreased pulmonary levels of SP-D (median = 68.9 ng/mL) when compared to levels reported for healthy controls in literature. Binding assays demonstrate that SP-D binds the SARS-CoV-2 glycosylated spike-(S)-protein of different emerging clinical variants. Binding induces the formation of protein bridges, the critical step of viral aggregation to facilitate its clearance. SP-D inhibits SARS-CoV-2 replication in Caco-2 cells (EC90 = 3.7 μg/mL). Therefore, SP-D recognizes and binds to the spike-(S)-protein of SARS-CoV-2 in vitro, initiates the aggregation, and inhibits viral replication in cells. Combined with the low levels of SP-D observed in COVID-19 patients, these results suggest that SP-D is important in the immune response to SARS-CoV-2 and that rhSP-D supplementation has the potential to be a novel class of anti-viral that will target SARS-CoV-2 infection.

Published

2021

50. Thirty Years of Cancer Nanomedicine: Success, Frustration, and Hope

Author

Maria Antonietta Rizzuto, Miriam Colombo, Lucia Salvioni, Jessica Bertolini, Davide Prosperi, Laura Pandolfi, Salvioni, L, Rizzuto, M, Bertolini, J, Pandolfi, L, Colombo, M, and Prosperi, D

Subjects

0301 basic medicine, Cancer Research, nano–bio interaction, nanoparticle, cancer nanomedicine, 02 engineering and technology, Review, EPR effect, 021001 nanoscience & nanotechnology, clinical translation, Cancer treatment, 03 medical and health sciences, Safety profile, 030104 developmental biology, Oncology, Nanomedicine, tumor microenvironment, Engineering ethics, nanoparticles, 0210 nano-technology, Psychology, nano–bio interactions

Abstract

Starting with the enhanced permeability and retention (EPR) effect discovery, nanomedicine has gained a crucial role in cancer treatment. The advances in the field have led to the approval of nanodrugs with improved safety profile and still inspire the ongoing investigations. However, several restrictions, such as high manufacturing costs, technical challenges, and effectiveness below expectations, raised skeptical opinions within the scientific community about the clinical relevance of nanomedicine. In this review, we aim to give an overall vision of the current hurdles encountered by nanotherapeutics along with their design, development, and translation, and we offer a prospective view on possible strategies to overcome such limitations.

Published

2019