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2. Re-designing nano-silver technology exploiting one-pot hydroxyethyl cellulose-driven green synthesis.

Author

Blosi, M., Brigliadori, A., Ortelli, S., Zanoni, I., Gardini, D., Vineis, C., Varesano, A., Ballarin, B., Perucca, M., Costa, A. L., Pacioni, Natalia L., and Ibrahim, Nabil

Subjects
INDUCTIVELY coupled plasma atomic emission spectrometry, FIELD emission electron microscopy, PARTICLE size distribution, SURFACE plasmon resonance, MANUFACTURING processes, SILVER nanoparticles
Abstract

Re-designing existing nano-silver technologies to optimize efficacy and sustainability has a tangible impact on preventing infections and limiting the spread of pathogenic microorganisms. Advancements in manufacturing processes could lead to more cost-effective and scalable production methods, making nano-silver-based antimicrobial products more accessible in various applications, such as medical devices, textiles, and water purification systems. In this paper, we present a new, versatile, and eco-friendly one-pot process for preparing silver nanoparticles (AgNPs) at room temperature by using a quaternary ammonium salt of hydroxyethyl cellulose (HEC), a green ingredient, acting as a capping and reducing agent. The resulting nano-hybrid phase, AgHEC, consists of AgNPs embedded into a hydrogel matrix with a tunable viscosity depending on the conversion grade, from ions to nanoparticles, and on the pH. To investigate the synthesis kinetics, we monitored the reaction progress within the first 24 h by analyzing the obtained NPs in terms of particle size (dynamic light scattering (DLS), field emission scanning electron microscopy (FE-SEM), transmission electron microscopy (TEM)), Z-potential (ELS), surface plasmon resonance (UV-VIS), crystallographic phase (XRD), viscosity, and reaction yield (inductively coupled plasma-optical emission spectrometry (ICP-OES)). To explore the design space associated with AgHEC synthesis, we prepared a set of sample variants by changing two independent key parameters that affect nucleation and growth steps, thereby impacting the physicochemical properties and the investigated antimicrobial activity. One of the identified design alternatives pointed out an improved antimicrobial activity in the suspension, which was confirmed after application as a coating on nonwoven cellulose fabrics. This enhancement was attributed to a lower particle size distribution and a positive synergistic effect with the HEC matrix. [ABSTRACT FROM AUTHOR]

Published
2024
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3. Functional silver-based nanomaterials affecting zebrafish development: the adverse outcomes in relation to the nanoparticle physical and chemical structure

Author

Bonfanti, P, Colombo, A, Bengalli, R, Gualtieri, M, Zanoni, I, Blosi, M, Costa, A, Mantecca, P, Bonfanti, Patrizia, Colombo, Anita, Bengalli, Rossella, Gualtieri, Maurizio, Zanoni, Ilaria, Blosi, Magda, Costa, Anna, Mantecca, Paride, Bonfanti, P, Colombo, A, Bengalli, R, Gualtieri, M, Zanoni, I, Blosi, M, Costa, A, Mantecca, P, Bonfanti, Patrizia, Colombo, Anita, Bengalli, Rossella, Gualtieri, Maurizio, Zanoni, Ilaria, Blosi, Magda, Costa, Anna, and Mantecca, Paride

Abstract

The growing demand for effective antimicrobials determined a significant increase of new nanoformulated materials to fight against bacteria and viruses, to be used in many industrial sectors including textiles, cosmetics, pharmaceuticals, and air and water filtering. Nano silver (Ag)-based materials, well-known for their antibacterial properties, are among the most exploited ones. However, the toxicity mechanisms of Ag nanoparticles (NPs) are still debated, requiring more evidence to support a safe-by-design (SbD) strategy for these materials. This study used zebrafish (D. rerio) to assess and compare the toxic and adverse effects (AEs) of commercial Ag-NPs (naked and PVP-coated) and newly synthesized hydroxyethylcellulose-coated Ag-NPs in solution (Ag-HECs) or the powder (Ag-HECp) form. Statistical correlation analysis between AEs and NP physico-chemical (p-chem) properties, such as size, surface charge, and solubility, was also performed. The results ranked the materials as follows in terms of acute lethality (LC50) and malformation (EC50) effects: Ag-HECp > Ag-HECs > Ag-PVP > Ag-NKD. Notable AEs included axial defects, pericardial edema, and reduced lipid yolk consumption, impacting embryo growth and hatching time. Correlation analyses showed that the stabilizing agent HEC, though a safe polymer, played a significant role in modulating Ag-NPs' reactivity toward embryonic structures. The study discusses the biological mode of action and potential molecular events underlying the observed effects. These findings contribute to understanding the biological targets and AEs modulated by tuning Ag-NPs' properties and will additionally feed the SbD frameworks under development for implementing safe and sustainable Ag-based nano-enabled antimicrobial materials.

Published
2024

4. 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

5. Inhibition of transcription factor NFAT activity in activated platelets enhances their aggregation and exacerbates gram-negative bacterial septicemia

Author

Poli, V, Di Gioia, M, Sola-Visner, M, Granucci, F, Frelinger, A, Michelson, A, Zanoni, I, Poli V., Di Gioia M., Sola-Visner M., Granucci F., Frelinger A. L., Michelson A. D., Zanoni I., Poli, V, Di Gioia, M, Sola-Visner, M, Granucci, F, Frelinger, A, Michelson, A, Zanoni, I, Poli V., Di Gioia M., Sola-Visner M., Granucci F., Frelinger A. L., Michelson A. D., and Zanoni I.

Abstract

During gram-negative septicemia, interactions between platelets and neutrophils initiate a detrimental feedback loop that sustains neutrophil extracellular trap (NET) induction, disseminated intravascular coagulation, and inflammation. Understanding intracellular pathways that control platelet-neutrophil interactions is essential for identifying new therapeutic targets. Here, we found that thrombin signaling induced activation of the transcription factor NFAT in platelets. Using genetic and pharmacologic approaches, as well as iNFATuation, a newly developed mouse model in which NFAT activation can be abrogated in a cell-specific manner, we demonstrated that NFAT inhibition in activated murine and human platelets enhanced their activation and aggregation, as well as their interactions with neutrophils and NET induction. During gram-negative septicemia, NFAT inhibition in platelets promoted disease severity by increasing disseminated coagulation and NETosis. NFAT inhibition also partially restored coagulation ex vivo in patients with hypoactive platelets. Our results define non-transcriptional roles for NFAT that could be harnessed to address pressing clinical needs.

Published
2022

6. An adjuvant strategy enabled by modulation of the physical properties of microbial ligands expands antigen immunogenicity

Author

Borriello, F, Poli, V, Shrock, E, Spreafico, R, Liu, X, Pishesha, N, Carpenet, C, Chou, J, Di Gioia, M, Mcgrath, M, Dillen, C, Barrett, N, Lacanfora, L, Franco, M, Marongiu, L, Iwakura, Y, Pucci, F, Kruppa, M, Ma, Z, Lowman, D, Ensley, H, Nanishi, E, Saito, Y, O'Meara, T, Seo, H, Dhe-Paganon, S, Dowling, D, Frieman, M, Elledge, S, Levy, O, Irvine, D, Ploegh, H, Williams, D, Zanoni, I, Borriello F., Poli V., Shrock E., Spreafico R., Liu X., Pishesha N., Carpenet C., Chou J., Di Gioia M., McGrath M. E., Dillen C. A., Barrett N. A., Lacanfora L., Franco M. E., Marongiu L., Iwakura Y., Pucci F., Kruppa M. D., Ma Z., Lowman D. W., Ensley H. E., Nanishi E., Saito Y., O'Meara T. R., Seo H. -S., Dhe-Paganon S., Dowling D. J., Frieman M., Elledge S. J., Levy O., Irvine D. J., Ploegh H. L., Williams D. L., Zanoni I., Borriello, F, Poli, V, Shrock, E, Spreafico, R, Liu, X, Pishesha, N, Carpenet, C, Chou, J, Di Gioia, M, Mcgrath, M, Dillen, C, Barrett, N, Lacanfora, L, Franco, M, Marongiu, L, Iwakura, Y, Pucci, F, Kruppa, M, Ma, Z, Lowman, D, Ensley, H, Nanishi, E, Saito, Y, O'Meara, T, Seo, H, Dhe-Paganon, S, Dowling, D, Frieman, M, Elledge, S, Levy, O, Irvine, D, Ploegh, H, Williams, D, Zanoni, I, Borriello F., Poli V., Shrock E., Spreafico R., Liu X., Pishesha N., Carpenet C., Chou J., Di Gioia M., McGrath M. E., Dillen C. A., Barrett N. A., Lacanfora L., Franco M. E., Marongiu L., Iwakura Y., Pucci F., Kruppa M. D., Ma Z., Lowman D. W., Ensley H. E., Nanishi E., Saito Y., O'Meara T. R., Seo H. -S., Dhe-Paganon S., Dowling D. J., Frieman M., Elledge S. J., Levy O., Irvine D. J., Ploegh H. L., Williams D. L., and Zanoni I.

Abstract

Activation of the innate immune system via pattern recognition receptors (PRRs) is key to generate lasting adaptive immunity. PRRs detect unique chemical patterns associated with invading microorganisms, but whether and how the physical properties of PRR ligands influence the development of the immune response remains unknown. Through the study of fungal mannans, we show that the physical form of PRR ligands dictates the immune response. Soluble mannans are immunosilent in the periphery but elicit a potent pro-inflammatory response in the draining lymph node (dLN). By modulating the physical form of mannans, we developed a formulation that targets both the periphery and the dLN. When combined with viral glycoprotein antigens, this mannan formulation broadens epitope recognition, elicits potent antigen-specific neutralizing antibodies, and confers protection against viral infections of the lung. Thus, the physical properties of microbial ligands determine the outcome of the immune response and can be harnessed for vaccine development.

Published
2022

8. The interferon landscape along the respiratory tract impacts the severity of COVID-19

Author

Sposito, B, Broggi, A, Pandolfi, L, Crotta, S, Clementi, N, Ferrarese, R, Sisti, S, Criscuolo, E, Spreafico, R, Long, J, Ambrosi, A, Liu, E, Frangipane, V, Saracino, L, Bozzini, S, Marongiu, L, Facchini, F, Bottazzi, A, Fossali, T, Colombo, R, Clementi, M, Tagliabue, E, Chou, J, Pontiroli, A, Meloni, F, Wack, A, Mancini, N, Zanoni, I, Sposito B., Broggi A., Pandolfi L., Crotta S., Clementi N., Ferrarese R., Sisti S., Criscuolo E., Spreafico R., Long J. M., Ambrosi A., Liu E., Frangipane V., Saracino L., Bozzini S., Marongiu L., Facchini F. A., Bottazzi A., Fossali T., Colombo R., Clementi M., Tagliabue E., Chou J., Pontiroli A. E., Meloni F., Wack A., Mancini N., Zanoni I., Sposito, B, Broggi, A, Pandolfi, L, Crotta, S, Clementi, N, Ferrarese, R, Sisti, S, Criscuolo, E, Spreafico, R, Long, J, Ambrosi, A, Liu, E, Frangipane, V, Saracino, L, Bozzini, S, Marongiu, L, Facchini, F, Bottazzi, A, Fossali, T, Colombo, R, Clementi, M, Tagliabue, E, Chou, J, Pontiroli, A, Meloni, F, Wack, A, Mancini, N, Zanoni, I, Sposito B., Broggi A., Pandolfi L., Crotta S., Clementi N., Ferrarese R., Sisti S., Criscuolo E., Spreafico R., Long J. M., Ambrosi A., Liu E., Frangipane V., Saracino L., Bozzini S., Marongiu L., Facchini F. A., Bottazzi A., Fossali T., Colombo R., Clementi M., Tagliabue E., Chou J., Pontiroli A. E., Meloni F., Wack A., Mancini N., and Zanoni I.

Abstract

Severe coronavirus disease 2019 (COVID-19) is characterized by overproduction of immune mediators, but the role of interferons (IFNs) of the type I (IFN-I) or type III (IFN-III) families remains debated. We scrutinized the production of IFNs along the respiratory tract of COVID-19 patients and found that high levels of IFN-III, and to a lesser extent IFN-I, characterize the upper airways of patients with high viral burden but reduced disease risk or severity. Production of specific IFN-III, but not IFN-I, members denotes patients with a mild pathology and efficiently drives the transcription of genes that protect against severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). In contrast, compared to subjects with other infectious or noninfectious lung pathologies, IFNs are overrepresented in the lower airways of patients with severe COVID-19 that exhibit gene pathways associated with increased apoptosis and decreased proliferation. Our data demonstrate a dynamic production of IFNs in SARS-CoV-2-infected patients and show IFNs play opposing roles at distinct anatomical sites.

Published
2021

9. Targeting innate immunity by blocking CD14: Novel approach to control inflammation and organ dysfunction in COVID-19 illness

Author

Martin, T, Wurfel, M, Zanoni, I, Ulevitch, R, Martin T. R., Wurfel M. M., Zanoni I., Ulevitch R., Martin, T, Wurfel, M, Zanoni, I, Ulevitch, R, Martin T. R., Wurfel M. M., Zanoni I., and Ulevitch R.

Abstract

The SARS-CoV-2 pandemic has produced an unprecedented rush to develop new therapies, ranging from immunizations and antivirals to host-directed therapies to dampen potentially deleterious host inflammatory responses. With a sense of urgency, many groups have proposed repurposing approved drugs for other indications that might be deployed rapidly to control the viral infection or improve host responses. However, many of these therapies are based on drug availability rather than on a rational understanding of important steps in pathogenesis, particularly in the lungs, that lead to critical illness and life-threatening acute respiratory failure. Here we propose that the viral infection initially triggers a profound activation of innate immunity in the lungs that generates a self-perpetuating cytokine storm affecting the entire body. Inhibiting key proximal points in innate immunity pathways is feasible and offers a science-based approach to improving outcomes in moderate to severe COVID-19 illness.

Published
2020

10. Cellular and molecular mechanisms of antifungal innate immunity at epithelial barriers: The role of C-type lectin receptors

Author

Borriello, F, Zanoni, I, Granucci, F, Borriello F., Zanoni I., Granucci F., Borriello, F, Zanoni, I, Granucci, F, Borriello F., Zanoni I., and Granucci F.

Abstract

Humans are constantly exposed to fungi, either in the form of commensals at epithelial barriers or as inhaled spores. Innate immune cells play a pivotal role in maintaining commensal relationships and preventing skin, mucosal, or systemic fungal infections due to the expression of pattern recognition receptors that recognize fungal cell wall components and modulate both their activation status and the ensuing adaptive immune response. Commensal fungi also play a critical role in the modulation of homeostasis and disease susceptibility at epithelial barriers. This review will outline cellular and molecular mechanisms of anti-fungal innate immunity focusing on C-type lectin receptors and their relevance in the context of host-fungi interactions at skin and mucosal surfaces in murine experimental models as well as patients susceptible to fungal infections.

Published
2020

11. Eco design for Ag-based solutions against SARS-CoV-2 and E. coli

Author

Costa, A. L., Blosi, M., Brigliadori, A., Zanoni, I., Ortelli, S., Simeone, F. C., Delbue, S., D'Alessandro, S., Parapini, S., Vineis, C., Varesano, A., Toprak, Muhammet, Hamawandi, Bejan, Gardini, D., Costa, A. L., Blosi, M., Brigliadori, A., Zanoni, I., Ortelli, S., Simeone, F. C., Delbue, S., D'Alessandro, S., Parapini, S., Vineis, C., Varesano, A., Toprak, Muhammet, Hamawandi, Bejan, and Gardini, D.

Abstract

For the first time, we exploited the antiviral and antibacterial properties of Ag NPs stabilised by quaternized hydroxyethyl cellulose (Ag-HEC) against SARS-CoV-2 and Escherichia coli through an eco-friendly process at room temperature in three different environments: 1) water, where Ag was dispersed as a nanosol, 2) textiles, where Ag was applied as a coating, and 3) hydrogel where Ag is embedded. The antiviral performance of Ag-HEC nanosols was quantified through the selectivity index (SI), defined as the ratio between 50% cytotoxic and inhibitory concentration, in order to evaluate the ability to be active in a concentration range below the cytotoxicity value. The collected results pointed out an actual enhanced risk/benefit profile of Ag-HEC NPs with respect to chloroquine, with an SI of 22.2 and 8.4, respectively. Antibacterial and antiviral activities of Ag-HEC NPs immobilized on textiles or mucosa-like hydrogels were also assessed and their efficacy in potential application as protective clothing or nasal molecular masks was verified. This work demonstrated that a modern, safe and sustainable design allows traditional colloidal silver-based technologies to be efficiently exploited for a broad spectrum of antimicrobial solutions against bacterial and viral infections., QC 20230614

Published
2022
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13. Occupational risk of nano-biomaterials: Assessment of nano-enabled magnetite contrast agent using the BIORIMA Decision Support System

Author

Cazzagon, V., primary, Giubilato, E., additional, Pizzol, L., additional, Ravagli, C., additional, Doumett, S., additional, Baldi, G., additional, Blosi, M., additional, Brunelli, A., additional, Fito, C., additional, Huertas, F., additional, Marcomini, A., additional, Semenzin, E., additional, Zabeo, A., additional, Zanoni, I., additional, and Hristozov, D., additional

Published
2022
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14. Below the surface: The inner lives of TLR4 and TLR9

Author

Marongiu, L, Gornati, L, Artuso, I, Zanoni, I, Granucci, F, Marongiu L., Gornati L., Artuso I., Zanoni I., Granucci F., Marongiu, L, Gornati, L, Artuso, I, Zanoni, I, Granucci, F, Marongiu L., Gornati L., Artuso I., Zanoni I., and Granucci F.

Abstract

TLRs are a class of pattern recognition receptors (PRRs) that detect invading microbes by recognizing pathogen-associated molecular patterns (PAMPs). Upon PAMP engagement, TLRs activate a signaling cascade that leads to the production of inflammatory mediators. The localization of TLRs, either on the plasma membrane or in the endolysosomal compartment, has been considered to be a fundamental aspect to determine to which ligands the receptors bind, and which transduction pathways are induced. However, new observations have challenged this view by identifying complex trafficking events that occur upon TLR-ligand binding. These findings have highlighted the central role that endocytosis and receptor trafficking play in the regulation of the innate immune response. Here, we review the TLR4 and TLR9 transduction pathways and the importance of their different subcellular localization during the inflammatory response. Finally, we discuss the implications of TLR9 subcellular localization in autoimmunity.

Published
2019

15. 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

17. JEM career launchpad

Author

Bigas, A, Zanoni, I, Hepworth, MR, Eisenbarth, SC, Masters, SL, Kipnis, J, Vinuesa, CG, Good-Jacobson, KL, Tangye, SG, Yamazaki, S, Hivroz, C, Wojno, ET, Shulman, Z, Colonna, M, Bigas, A, Zanoni, I, Hepworth, MR, Eisenbarth, SC, Masters, SL, Kipnis, J, Vinuesa, CG, Good-Jacobson, KL, Tangye, SG, Yamazaki, S, Hivroz, C, Wojno, ET, Shulman, Z, and Colonna, M

Abstract

JEM has been a launching pad for scientific careers since its inception. Here is a collection of testimonials attesting to the diversity of the scientific community it serves.

Published
2021

18. Non-invasive stratification of hepatocellular carcinoma risk in non-alcoholic fatty liver using polygenic risk scores

Author

Bianco, C., Jamialahmadi, O., Pelusi, S., Baselli, G., Dongiovanni, P., Zanoni, I., Santoro, L., Maier, S., Liguori, Antonio, Meroni, M., Borroni, V., D'Ambrosio, R., Spagnuolo, Rocco, Alisi, A., Federico, A., Bugianesi, E., Petta, S., Miele, Luca, Vespasiani-Gentilucci, U., Anstee, Q. M., Stickel, F., Hampe, J., Fischer, J., Berg, T., Fracanzani, A. L., Soardo, G., Reeves, H., Prati, D., Romeo, S., Valenti, L., Liguori A., Spagnuolo R., Miele L. (ORCID:0000-0003-3464-0068), Bianco, C., Jamialahmadi, O., Pelusi, S., Baselli, G., Dongiovanni, P., Zanoni, I., Santoro, L., Maier, S., Liguori, Antonio, Meroni, M., Borroni, V., D'Ambrosio, R., Spagnuolo, Rocco, Alisi, A., Federico, A., Bugianesi, E., Petta, S., Miele, Luca, Vespasiani-Gentilucci, U., Anstee, Q. M., Stickel, F., Hampe, J., Fischer, J., Berg, T., Fracanzani, A. L., Soardo, G., Reeves, H., Prati, D., Romeo, S., Valenti, L., Liguori A., Spagnuolo R., and Miele L. (ORCID:0000-0003-3464-0068)

Abstract

Background & Aims: Hepatocellular carcinoma (HCC) risk stratification in individuals with dysmetabolism is a major unmet need. Genetic predisposition contributes to non-alcoholic fatty liver disease (NAFLD). We aimed to exploit robust polygenic risk scores (PRS) that can be evaluated in the clinic to gain insight into the causal relationship between NAFLD and HCC, and to improve HCC risk stratification. Methods: We examined at-risk individuals (NAFLD cohort, n = 2,566; 226 with HCC; and a replication cohort of 427 German patients with NAFLD) and the general population (UK Biobank [UKBB] cohort, n = 364,048; 202 with HCC). Variants in PNPLA3-TM6SF2-GCKR-MBOAT7 were combined in a hepatic fat PRS (PRS-HFC), and then adjusted for HSD17B13 (PRS-5). Results: In the NAFLD cohort, the adjusted impact of genetic risk variants on HCC was proportional to the predisposition to fatty liver (p = 0.002) with some heterogeneity in the effect. PRS predicted HCC more robustly than single variants (p <10-13). The association between PRS and HCC was mainly mediated through severe fibrosis, but was independent of fibrosis in clinically relevant subgroups, and was also observed in those without severe fibrosis (p <0.05). In the UKBB cohort, PRS predicted HCC independently of classical risk factors and cirrhosis (p <10-7). In the NAFLD cohort, we identified high PRS cut-offs (≥0.532/0.495 for PRS-HFC/PRS-5) that in the UKBB cohort detected HCC with ~90% specificity but limited sensitivity; PRS predicted HCC both in individuals with (p <10-5) and without cirrhosis (p <0.05). Conclusions: Our results are consistent with a causal relationship between hepatic fat and HCC. PRS improved the accuracy of HCC detection and may help stratify HCC risk in individuals with dysmetabolism, including those without severe liver fibrosis. Further studies are needed to validate our findings. Lay summary: By analyzing variations in genes that contribute to fatty liver disease, we developed

Published
2021

20. Intersection of phosphate transport, oxidative stress and TOR signalling in Candida albicans virulence

Author

Liu, N, Uppuluri, P, Broggi, A, Besold, A, Ryman, K, Kambara, H, Solis, N, Lorenz, V, Qi, W, Acosta-Zaldivar, M, Emami, S, Bao, B, An, D, Bonilla, F, Sola-Visner, M, Filler, S, Luo, H, Engstrom, Y, Ljungdahl, P, Culotta, V, Zanoni, I, Lopez-Ribot, J, Kohler, J, Liu N. -N., Uppuluri P., Broggi A., Besold A., Ryman K., Kambara H., Solis N., Lorenz V., Qi W., Acosta-Zaldivar M., Emami S. N., Bao B., An D., Bonilla F. A., Sola-Visner M., Filler S. G., Luo H. R., Engstrom Y., Ljungdahl P. O., Culotta V. C., Zanoni I., Lopez-Ribot J. L., Kohler J. R., Liu, N, Uppuluri, P, Broggi, A, Besold, A, Ryman, K, Kambara, H, Solis, N, Lorenz, V, Qi, W, Acosta-Zaldivar, M, Emami, S, Bao, B, An, D, Bonilla, F, Sola-Visner, M, Filler, S, Luo, H, Engstrom, Y, Ljungdahl, P, Culotta, V, Zanoni, I, Lopez-Ribot, J, Kohler, J, Liu N. -N., Uppuluri P., Broggi A., Besold A., Ryman K., Kambara H., Solis N., Lorenz V., Qi W., Acosta-Zaldivar M., Emami S. N., Bao B., An D., Bonilla F. A., Sola-Visner M., Filler S. G., Luo H. R., Engstrom Y., Ljungdahl P. O., Culotta V. C., Zanoni I., Lopez-Ribot J. L., and Kohler J. R.

Abstract

Phosphate is an essential macronutrient required for cell growth and division. Pho84 is the major high-affinity cell-surface phosphate importer of Saccharomyces cerevisiae and a crucial element in the phosphate homeostatic system of this model yeast. We found that loss of Candida albicans Pho84 attenuated virulence in Drosophila and murine oropharyngeal and disseminated models of invasive infection, and conferred hypersensitivity to neutrophil killing. Susceptibility of cells lacking Pho84 to neutrophil attack depended on reactive oxygen species (ROS): pho84-/- cells were no more susceptible than wild type C. albicans to neutrophils from a patient with chronic granulomatous disease, or to those whose oxidative burst was pharmacologically inhibited or neutralized. pho84-/- mutants hyperactivated oxidative stress signalling. They accumulated intracellular ROS in the absence of extrinsic oxidative stress, in high as well as low ambient phosphate conditions. ROS accumulation correlated with diminished levels of the unique superoxide dismutase Sod3 in pho84-/- cells, while SOD3 overexpression from a conditional promoter substantially restored these cells’ oxidative stress resistance in vitro. Repression of SOD3 expression sharply increased their oxidative stress hypersensitivity. Neither of these oxidative stress management effects of manipulating SOD3 transcription was observed in PHO84 wild type cells. Sod3 levels were not the only factor driving oxidative stress effects on pho84-/- cells, though, because overexpressing SOD3 did not ameliorate these cells’ hypersensitivity to neutrophil killing ex vivo, indicating Pho84 has further roles in oxidative stress resistance and virulence. Measurement of cellular metal concentrations demonstrated that diminished Sod3 expression was not due to decreased import of its metal cofactor manganese, as predicted from the function of S. cerevisiae Pho84 as a low-affinity manganese transporter. Instead of a role of Pho84 in metal trans

Published
2018

21. A polygenic risk score for progressive non-alcoholic fatty liver disease risk stratification

Author

Bianco, C, Pelusi, S, Baselli, Ga, Zanoni, I, Taliento, A, Dongiovanni, P, Rametta, R, Borroni, V, Federico, A, Gentilucci, Uv, D'Ambrosio, R, Bugianesi, E, Petta, S, Miele, L, Reeves, Hl, Fracanzani, Al, Soardo, G, Prati, D, Valenti, L, Miele, L (ORCID:0000-0003-3464-0068), Bianco, C, Pelusi, S, Baselli, Ga, Zanoni, I, Taliento, A, Dongiovanni, P, Rametta, R, Borroni, V, Federico, A, Gentilucci, Uv, D'Ambrosio, R, Bugianesi, E, Petta, S, Miele, L, Reeves, Hl, Fracanzani, Al, Soardo, G, Prati, D, Valenti, L, and Miele, L (ORCID:0000-0003-3464-0068)

Abstract

N/A

Published
2020

22. Microbiome studies in the medical sciences and the need for closer multidisciplinary interplay

Author

Mancini, N, Peri, F, Rescigno, M, Zanoni, I, Mancini, N, Peri, F, Rescigno, M, and Zanoni, I

Abstract

Next-generation sequencing techniques have enabled identification of the microorganisms colonizing mucosal tissues. The International Congress "MicrobiotaMi 2020" (Milan, February 2020) will focus on the mechanisms of microbiota-related functions in health and disease and their clinical application

Published
2020

23. Type III interferons disrupt the lung epithelial barrier upon viral recognition

Author

Broggi, A, Ghosh, S, Sposito, B, Spreafico, R, Balzarini, F, Lo Cascio, A, Clementi, N, De Santis, M, Mancini, N, Granucci, F, Zanoni, I, Broggi, Achille, Ghosh, Sreya, Sposito, Benedetta, Spreafico, Roberto, Balzarini, Fabio, Lo Cascio, Antonino, Clementi, Nicola, De Santis, Maria, Mancini, Nicasio, Granucci, Francesca, Zanoni, Ivan, Broggi, A, Ghosh, S, Sposito, B, Spreafico, R, Balzarini, F, Lo Cascio, A, Clementi, N, De Santis, M, Mancini, N, Granucci, F, Zanoni, I, Broggi, Achille, Ghosh, Sreya, Sposito, Benedetta, Spreafico, Roberto, Balzarini, Fabio, Lo Cascio, Antonino, Clementi, Nicola, De Santis, Maria, Mancini, Nicasio, Granucci, Francesca, and Zanoni, Ivan

Abstract

Viral infections of the lower respiratory tract are a leading cause of mortality. Mounting evidence indicates that most severe cases are characterized by aberrant immune responses and do not depend on viral burden. In this study, we assessed how type III interferons (IFN-l) contribute to the pathogenesis induced by RNA viruses. We report that IFN-l is present in the lower, but not upper, airways of patients with coronavirus disease 2019 (COVID-19). In mice, we demonstrate that IFN-l produced by lung dendritic cells in response to a synthetic viral RNA induces barrier damage, causing susceptibility to lethal bacterial superinfections. These findings provide a strong rationale for rethinking the pathophysiological role of IFN-l and its possible use in clinical practice against endemic viruses, such as influenza virus as well as the emerging severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection.

Published
2020

24. Bariatric surgery, compared to medical treatment, reduces morbidity at all ages but does not reduce mortality in patients aged < 43 years, especially if diabetes mellitus is present: a post hoc analysis of two retrospective cohort studies

Author

Pontiroli, A, Ceriani, V, Tagliabue, E, Zakaria, A, Veronelli, A, Folli, F, Zanoni, I, Pontiroli, AE, Zakaria, AS, Pontiroli, A, Ceriani, V, Tagliabue, E, Zakaria, A, Veronelli, A, Folli, F, Zanoni, I, Pontiroli, AE, and Zakaria, AS

Abstract

Background and aims: Bariatric surgery (BS) reduces long-term mortality in comparison with medical treatment of obesity. Some studies indicate that this effect is significant for patients above mean age in different cohorts, but not for younger patients. These findings raise the question whether morbid obese patients should undergo BS as soon as possible, or whether patients might undergo surgery later in their life. Methods: We performed a post hoc analysis of two studies; we evaluated surgery-related long-term mortality in: (1) the whole cohort [857 surgery patients (163 diabetes) vs. 2086 controls (512 diabetes)]; (2) patients above mean age [> 43 years, 427 surgery patients (133 diabetes) vs. 1054 controls (392 diabetes)]; (3) patients below mean age [≤ 43 years, 432 surgery patients (30 diabetes) vs. 1032 controls (120 diabetes]. Then, we analyzed age-related long-term mortality in the whole cohort, as well as in surgery patients and in controls. Finally, we analyzed incident diseases (diabetes, cardiovascular disease, and cancer) as a function of surgery versus no-surgery and of mean age. Results: Surgery patients, compared with controls receiving standard medical/dietary treatment, had reduced mortality in the whole cohort (HR = 0.45, 95% CI 0.33–0.62, p = 0.001) and in the study group aged > 43 years (HR = 0.39, 95% CI 0.28–0.56, p = 0.001), but not in the study group aged ≤ 43 years (HR = 0.87, 95% CI 0.42–1.80, p = 0.711). Reduced mortality was observed in non-diabetic and diabetic patients aged > 43 years (HR = 0.37, 95% CI 0.23–0.62, p = 0.001 and HR = 0.45, 95% CI 0.27–0.74, p = 0.002, respectively) who underwent bariatric surgery. In contrast, in patients aged ≤ 43 years, no significant protective effect of bariatric surgery appeared in non-diabetic patients (HR = 0.64, 95% CI 0.24–1.71, p = 0.371), and mortality increased, almost significantly, in diabetic patients aged < 43 years (HR = 2.87, 95% CI 0.96–8.56, p = 0.058), and even more in

Published
2020

29. Noninvasive risk stratification in nonalcoholic fatty liver disease: a polygenic risk score

Author

Bianco, C., primary, Pelusi, S., additional, Baselli, G., additional, Zanoni, I., additional, Taliento, A., additional, Dongiovanni, P., additional, Rametta, R., additional, Borroni, V., additional, Federico, A., additional, Vespasiani-Gentilucci, U., additional, D’Ambrosio, R., additional, Bugianesi, E., additional, Petta, S., additional, Miele, L., additional, Reeves, H., additional, Fracanzani, A., additional, Soardo, G., additional, Prati, D., additional, and Valenti, L., additional

Published
2020
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30. Dendritic cells in the cross hair for the generation of Tailored Vaccines

Author

Gornati, L, Zanoni, I, Granucci, F, Gornati, L, Zanoni, I, and Granucci, F

Abstract

Vaccines represent the discovery of utmost importance for global health, due to both prophylactic action to prevent infections and therapeutic intervention in neoplastic diseases. Despite this, current vaccination strategies need to be refined to successfully generate robust protective antigen-specific memory immune responses. To address this issue, one possibility is to exploit the high efficiency of dendritic cells (DCs) as antigen-presenting cells for T cell priming. DCs functional plasticity allows shaping the outcome of immune responses to achieve the required type of immunity. Therefore, the choice of adjuvants to guide and sustain DCs maturation, the design of multifaceted vehicles, and the choice of surface molecules to specifically target DCs represent the key issues currently explored in both preclinical and clinical settings. Here, we review advances in DCs-based vaccination approaches, which exploit direct in vivo DCs targeting and activation options. We also discuss the recent findings for efficient antitumor DCs-based vaccinations and combination strategies to reduce the immune tolerance promoted by the tumor microenvironment.

Published
2018

31. Deep dermal injection as a model of candida albicans skin infection for histological analyses

Author

Santus, W, Mingozzi, F, Vai, M, Granucci, F, Zanoni, I, Santus, W, Mingozzi, F, Vai, M, Granucci, F, and Zanoni, I

Abstract

The skin is an extremely extended organ of the body and, due to this large surface, it is continuously exposed to microorganisms. Skin damage can easily lead to infections in the dermis which can, in turn, result in the dissemination of pathogens into the bloodstream. Understanding how the immune system fights infections at the very early stage and how the host can eliminate the pathogens is an important step to set the base for future therapeutic interventions. Here we describe a model of Candida albicans infection that can visualize the processes that occur early during an infection, including when the pathogen has passed the epithelial barrier, as well as the immune response elicited by the C. albicans invasion. We used this infection model to perform histological analyses that show the immune cells that infiltrate the skin as well as the presence and localization of the pathogen. Samples collected after the infection can be processed for RNA extraction.

Published
2018

34. By Capturing Inflammatory Lipids Released from Dying Cells, the Receptor CD14 Induces Inflammasome-Dependent Phagocyte Hyperactivation

Author

Zanoni, I, Tan, Y, Di Gioia, M, Springstead, J, Kagan, J, Springstead, JR, Kagan, JC, Zanoni, I, Tan, Y, Di Gioia, M, Springstead, J, Kagan, J, Springstead, JR, and Kagan, JC

Abstract

A heterogeneous mixture of lipids called oxPAPC, derived from dying cells, can hyperactivate dendritic cells (DCs) but not macrophages. Hyperactive DCs are defined by their ability to release interleukin-1 (IL-1) while maintaining cell viability, endowing these cells with potent aptitude to stimulate adaptive immunity. Herein, we found that the bacterial lipopolysaccharide receptor CD14 captured extracellular oxPAPC and delivered these lipids into the cell to promote inflammasome-dependent DC hyperactivation. Notably, we identified two specific components within the oxPAPC mixture that hyperactivated macrophages, allowing these cells to release IL-1 for several days, by a CD14-dependent process. In murine models of sepsis, conditions that promoted cell hyperactivation resulted in inflammation but not lethality. Thus, multiple phagocytes are capable of hyperactivation in response to oxPAPC, with CD14 acting as the earliest regulator in this process, serving to capture and transport these lipids to promote inflammatory cell fate decisions. Inflammasomes elicit pyroptosis or cell hyperactivation, with the latter defined as living cells that release IL-1. Zanoni et al. report that CD14 captures distinct lipids within oxPAPC to promote dendritic cell and/or macrophage hyperactivation. Unlike pyroptotic stimuli, oxPAPC lipids promote long-term IL-1 release from cells and non-lethal inflammation in mice.

Published
2017

35. Inflammatory role of dendritic cells in Amyotrophic Lateral Sclerosis revealed by an analysis of patients’ peripheral blood

Author

Rusconi, M, Gerardi, F, Santus, W, Lizio, A, Sansone, V, Lunetta, C, Zanoni, I, Granucci, F, Sansone, VA, Granucci, F., Rusconi, M, Gerardi, F, Santus, W, Lizio, A, Sansone, V, Lunetta, C, Zanoni, I, Granucci, F, Sansone, VA, and Granucci, F.

Abstract

Chronic inflammation is one of the causes of neurodegeneration in Amyotrophic lateral sclerosis (ALS). Here we examined whether circulating dendritic cells (DCs) can contribute to disease progression. We found ALS patients show a significant reduction in the number of circulating DCs. Also, patients’ DCs present an increased expression of CD62L and a tendency to overexpress CCR2 compared with healthy donors. Moreover, DCs derived from a subpopulation of ALS patients produced higher levels of IL-8 and CCL-2 upon lipopolysaccharide (LPS)-stimulation. Finally, we found a significant inverse correlation between the time from onset of the pathology to its diagnosis and the levels of IL-6 secretion induced by LPS. Our data support the hypothesis, in a subpopulation of patients, DCs recruited at the diseased tissue produce high levels of CCL-2 and IL-8 and contribute to the inflammatory process promoting the recruitment of other inflammatory cells. An increased efficiency of IL-6 production may accelerate only the initial phases of disease progression. Blood DC analysis can be used to identify ALS patients with an altered course of inflammatory cell recruitment at the diseased central nervous system (CNS). The high levels of CD62L expression suggests this molecule could be a target for treatment of CNS inflammation.

Published
2017

36. Drug nanocarriers to treat autoimmunity and chronic inflammatory diseases

Author

Prosperi, D, Colombo, M, Zanoni, I, Granucci, F, Granucci, F., Prosperi, D, Colombo, M, Zanoni, I, Granucci, F, and Granucci, F.

Abstract

Nanoparticles represent a new generation of drug delivery systems that can be engineered to harness optimal target selectivity for specific cells and tissues and high drug loading capacity, allowing for improved pharmacokinetics and enhanced bioavailability of therapeutics. The spontaneous propensity of both organic and colloidal nanoparticles to be captured by the cells of the reticuloendothelial system encouraged their utilization as passive targeting systems that can be preferentially directed to innate immune cells, such as macrophages, dendritic cells and neutrophils. The natural affinity for phagocytic cells suggests the possible implementation of nanoparticles as an immunotherapeutic platform for inflammatory diseases and autoimmune disorders. Here we discuss the recent advances in the application of nanotechnology to induce antigen-specific tolerance in autoimmunity and the use of nanoparticles for anti-inflammatory therapies, including treatment of inflammatory bowel diseases, psoriasis and rheumatoid arthritis.

Published
2017

37. Methylation of Ir(III)-tetrazolato complexes: An effective route to modulate the emission outputs and to switch to antimicrobial properties

Author

Fiorini, V., Zanoni, I., Zacchini, S., Costa, A., Hochkoeppler, A., Zanotti, V., Ranieri, Anna, Massi, Massimiliano, Stefan, A., Stagni, S., Fiorini, V., Zanoni, I., Zacchini, S., Costa, A., Hochkoeppler, A., Zanotti, V., Ranieri, Anna, Massi, Massimiliano, Stefan, A., and Stagni, S.

Abstract

Two neutral cyclometalated Ir(iii)-tetrazolato complexes that differ by variations of the substituents on either the phenylpyridine or the tetrazolate ligand have been converted into the corresponding methylated and cationic analogues. NMR ( 1 H and 13 C) characterization of the Ir(iii) complexes provided the results in agreement with the chemo- and regioselective character of methylation at the N-3 position of the Ir(iii)-coordinated tetrazolato ring. This evidence was further corroborated by the analysis of the molecular structures of the cationic complexes obtained by X-ray diffraction. In view of the photophysical properties, the addition of a methyl moiety to neutral Ir(iii) tetrazolates, which behave as sky-blue or orange phosphors, caused a systematic red shift of their phosphorescence output. The transformation of neutral Ir(iii) tetrazolates into cationic Ir(iii)-tetrazole complexes was screened for any eventual antimicrobial activity in vitro against Gram negative (E. coli) and Gram positive (D. radiodurans) microorganisms. While both kinds of complexes were not active against E. coli, the conversion of the neutral Ir(iii) tetrazolates into the corresponding methylated and cationic Ir(iii)tetrazole derivatives determined the turn-on of a good to excellent antimicrobial activity toward Gram positive Deinococcus radiodurans, a non-pathogenic bacterium that is listed as one of the toughest microorganisms in light of its outstanding resistance to radiation and oxidative stress.

Published
2017

40. The dendritic cell life cycle

Author

Granucci, F, Zanoni, I, Zanoni, I., Granucci, F, Zanoni, I, and Zanoni, I.

Abstract

Dendritic cells (DCs) are a special class of leukocytes actively involved in initiating innate and adaptive immune responses against invading pathogens. They play a fundamental role in determining both the type and efficiency of adaptive immune reactions. In particular, the efficiency of adaptive responses is strictly correlated with the survival of the DCs that have encountered the antigen. In physiological conditions, the rapid death of DCs by apoptosis after an encounter with a microbe is important to prevent both aberrant activation and autoimmunity. The mechanism leading to DC apoptosis after exposure to lipopolysaccharide (LPS) was recently elucidated, with activation of the c2 and c3 isoforms of nuclear factor of activated T cells (NFAT) playing a particularly important role in this process. In particular, the exposure of DCs to LPS induces the activation of Src-family kinases and phospholipase C (PLC)gamma2, the influx of extracellular Ca(2+) and calcineurin-dependent nuclear NFAT translocation. The initiation of this pathway is independent of TLR4 engagement and depends exclusively on CD14. We also consider here the possible role of CD14 in initiating this pathway and the way in which the c2 and c3 isoforms of NFAT exert their pro-apoptotic effects

Published
2009

41. Prolonged contact with dendritic cells turns lymph node-resident NK cells into anti-tumor effectors

Author

Mingozzi, F, Spreafico, R, Gorletta, T, Cigni, C, DI GIOIA, M, Caccia, M, Sironi, L, Collini, M, Soncini, M, Rusconi, M, von Andrian, U, Chirico, G, Zanoni, I, Granucci, F, MINGOZZI, FRANCESCA, SPREAFICO, ROBERTO, GORLETTA, TATIANA ALESSANDRA, CIGNI, CLARA, DI GIOIA, MARCO, CACCIA, MICHELE, SIRONI, LAURA, COLLINI, MADDALENA, SONCINI, MATIAS CRISTOBAL, RUSCONI, MICHELA, CHIRICO, GIUSEPPE, ZANONI, IVAN, GRANUCCI, FRANCESCA, Mingozzi, F, Spreafico, R, Gorletta, T, Cigni, C, DI GIOIA, M, Caccia, M, Sironi, L, Collini, M, Soncini, M, Rusconi, M, von Andrian, U, Chirico, G, Zanoni, I, Granucci, F, MINGOZZI, FRANCESCA, SPREAFICO, ROBERTO, GORLETTA, TATIANA ALESSANDRA, CIGNI, CLARA, DI GIOIA, MARCO, CACCIA, MICHELE, SIRONI, LAURA, COLLINI, MADDALENA, SONCINI, MATIAS CRISTOBAL, RUSCONI, MICHELA, CHIRICO, GIUSEPPE, ZANONI, IVAN, and GRANUCCI, FRANCESCA

Abstract

Natural killer (NK) cells are critical players against tumors. The outcome of anti-tumor vaccination protocols depends on the efficiency of NK-cell activation, and efforts are constantly made to manipulate them for immunotherapeutic approaches. Thus, a better understanding of NK-cell activation dynamics is needed. NK-cell interactions with accessory cells and trafficking between secondary lymphoid organs and tumoral tissues remain poorly characterized. Here, we show that upon triggering innate immunity with lipopolysaccharide (LPS), NK cells are transiently activated, leave the lymph node, and infiltrate the tumor, delaying its growth. Interestingly, NK cells are not actively recruited at the draining lymph node early after LPS administration, but continue their regular homeostatic turnover. Therefore, NK cells resident in the lymph node at the time of LPS administration become activated and exert anti-tumor functions. NK-cell activation correlates with the establishment of prolonged interactions with dendritic cells (DCs) in lymph nodes, as observed by two-photon microscopy. Close DC and NK-cell contacts are essential for the localized delivery of DC-derived IL-18 to NK cells, a strict requirement in NK-cell activation.

Published
2016

42. Preparation of single-cell suspensions for cytofluorimetric analysis from different mouse skin regions

Author

Broggi, A, Cigni, C, Zanoni, I, Granucci, F, BROGGI, ACHILLE, CIGNI, CLARA, ZANONI, IVAN, GRANUCCI, FRANCESCA, Broggi, A, Cigni, C, Zanoni, I, Granucci, F, BROGGI, ACHILLE, CIGNI, CLARA, ZANONI, IVAN, and GRANUCCI, FRANCESCA

Abstract

The skin is a barrier organ that interacts with the external environment. Being continuously exposed to potential microbial invasion, the dermis and epidermis home a variety of immune cells in both homeostatic and inflammatory conditions. Tools to obtain skin cell release for cytofluorimetric analyses are, therefore, very useful in order to study the complex network of immune cells residing in the skin and their response to microbial stimuli. Here, we describe an efficient methodology for the digestion of mouse skin to rapidly and efficiently obtain single-cell suspensions. This protocol allows maintenance of maximum cell viability without compromising surface antigen expression. We also describe how to take and digest skin samples from different anatomical locations, such as the ear, trunk, tail, and footpad. The obtained suspensions are then stained and analyzed by flow cytometry to discriminate between different leukocyte populations.

Published
2016

43. An endogenous caspase-11 ligand elicits interleukin-1 release from living dendritic cells

Author

Zanoni, I, Tan, Y, Gioia, M, Broggi, A, Ruan, J, Shi, J, Donado, C, Shao, F, Wu, H, Springstead, J, Kagan, J, ZANONI, IVAN, BROGGI, ACHILLE, Kagan, J., Zanoni, I, Tan, Y, Gioia, M, Broggi, A, Ruan, J, Shi, J, Donado, C, Shao, F, Wu, H, Springstead, J, Kagan, J, ZANONI, IVAN, BROGGI, ACHILLE, and Kagan, J.

Abstract

Dendritic cells (DCs) use pattern recognition receptors to detect microorganisms and activate protective immunity. These cells and receptors are thought to operate in an all-or-nothing manner, existing in an immunologically active or inactive state. Here, we report that encounters with microbial products and self-encoded oxidized phospholipids (oxPAPC) induce an enhanced DC activation state, which we call "hyperactive." Hyperactive DCs induce potent adaptive immune responses and are elicited by caspase-11, an enzyme that binds oxPAPC and bacterial lipopolysaccharide (LPS). oxPAPC and LPS bind caspase-11 via distinct domains and elicit different inflammasome-dependent activities. Both lipids induce caspase-11-dependent interleukin-1 release, but only LPS induces pyroptosis. The cells and receptors of the innate immune system can therefore achieve different activation states, which may permit context-dependent responses to infection.

Published
2016

44. Mechanisms of Toll-like Receptor 4 Endocytosis Reveal a Common Immune-Evasion Strategy Used by Pathogenic and Commensal Bacteria

Author

Tan, Y, Zanoni, I, Cullen, T, Goodman, A, Kagan, J, Kagan, J., ZANONI, IVAN, Tan, Y, Zanoni, I, Cullen, T, Goodman, A, Kagan, J, Kagan, J., and ZANONI, IVAN

Abstract

Microbe-induced receptor trafficking has emerged as an essential means to promote innate immune signal transduction. Upon detection of bacterial lipopolysaccharides (LPS), CD14 induces an inflammatory endocytosis pathway that delivers Toll-like receptor 4 (TLR4) to endosomes. Although several regulators of CD14-dependent TLR4 endocytosis have been identified, the cargo-selection mechanism during this process remains unknown. We reveal that, in contrast to classic cytosolic interactions that promoted the endocytosis of transmembrane receptors, TLR4 was selected as cargo for inflammatory endocytosis entirely through extracellular interactions. Mechanistically, the extracellular protein MD-2 bound to and dimerized TLR4 in order to promote this endocytic event. Our analysis of LPS variants from human pathogens and gut commensals revealed a common mechanism by which bacteria prevent inflammatory endocytosis. We suggest that evasion of CD14-dependent endocytosis is an attribute that transcends the concept of pathogenesis and might be a fundamental feature of bacteria that inhabit eukaryotic hosts.

Published
2015

45. Toll-like receptor co-receptors as master regulators of the immune response

Author

Di Gioia, M, Zanoni, I, Di Gioia, Marco, Zanoni, Ivan, Di Gioia, M, Zanoni, I, Di Gioia, Marco, and Zanoni, Ivan

Abstract

Pattern recognition receptors (PRRs) are generally recognized as the initiators of all immune responses. PRRs bind molecular patterns associated with microorganisms or endogenous mediators released by stressed tissues. Upon ligand binding, PRRs induce the activation of an inflammatory process that ultimately leads to pathogen clearance or restoration of tissue homeostasis. PRRs govern these processes, regulating the activation of a complex network of transcription factors able to induce the appropriate immune response to a specific ligand. Toll-like-receptors (TLRs) are the first and best characterized PRR family, and for a long period of time they were believed to be autonomous proteins able to recognize and initiate all the immune response to a given stimulus. Recently this view was challenged by the discovery that so-called TLR co-receptors, such as CD14 and CD36, not only favor TLR-dependent signaling but can also transduce their own signal in a TLR-independent manner. Here we will discuss the capacity of TLR co-receptors to bind different microbial and endogenous ligands and to integrate TLR functions inducing specific signaling modules.

Published
2015

46. Cream formulation impact on topical administration of engineered colloidal nanoparticles

Author

Santini, B, Zanoni, I, Marzi, R, Cigni, C, Bedoni, M, Gramatica, F, Palugan, L, Corsi, F, Granucci, F, Colombo, M, SANTINI, BENEDETTA, ZANONI, IVAN, MARZI, ROBERTA, CIGNI, CLARA, GRANUCCI, FRANCESCA, COLOMBO, MIRIAM, Santini, B, Zanoni, I, Marzi, R, Cigni, C, Bedoni, M, Gramatica, F, Palugan, L, Corsi, F, Granucci, F, Colombo, M, SANTINI, BENEDETTA, ZANONI, IVAN, MARZI, ROBERTA, CIGNI, CLARA, GRANUCCI, FRANCESCA, and COLOMBO, MIRIAM

Abstract

In order to minimize the impact of systemic toxicity of drugs in the treatment of local acute and chronic inflammatory reactions, the achievement of reliable and efficient delivery of therapeutics in/through the skin is highly recommended. While the use of nanoparticles is now an established practice for drug intravenous targeted delivery, their transdermal penetration is still poorly understood and this important administration route remains almost unexplored. In the present study, we have synthesized magnetic (iron oxide) nanoparticles (MNP) coated with an amphiphilic polymer, developed a water-in-oil emulsion formulation for their topical administration and compared the skin penetration routes with the same nanoparticles deposited as a colloidal suspension. Transmission and scanning electron microscopies provided ultrastructural evidence that the amphiphilic nanoparticles (PMNP) cream formulation allowed the efficient penetration through all the skin layers with a controllable kinetics compared to suspension formulation. In addition to the preferential follicular pathway, also the intracellular and intercellular routes were involved. PMNP that crossed all skin layers were quantified by inductively coupled plasma mass spectrometry. The obtained data suggests that combining PMNP amphiphilic character with cream formulation improves the intradermal penetration of nanoparticles. While PMNP administration in living mice via aqueous suspension resulted in preferential nanoparticle capture by phagocytes and migration to draining lymph nodes, cream formulation favored uptake by all the analyzed dermis cell types, including hematopoietic and non-hematopoietic. Unlike aqueous suspension, cream formulation also favored the maintenance of nanoparticles in the dermal architecture avoiding their dispersion and migration to draining lymph nodes via afferent lymphatics.

Published
2015

47. Innate Immune Pattern Recognition: A Cell Biological Perspective

Author

Brubaker, S, Bonham, K, Zanoni, I, Kagan, J, Kagan, J., ZANONI, IVAN, Brubaker, S, Bonham, K, Zanoni, I, Kagan, J, Kagan, J., and ZANONI, IVAN

Abstract

Receptors of the innate immune system detect conserved determinants of microbial and viral origin. Activation of these receptors initiates signaling events that culminate in an effective immune response. Recently, the view that innate immune signaling events rely on and operate within a complex cellular infrastructure has become an important framework for understanding the regulation of innate immunity. Compartmentalization within this infrastructure provides the cell with the ability to assign spatial information to microbial detection and regulate immune responses. Several cell biological processes play a role in the regulation of innate signaling responses; at the same time, innate signaling can engage cellular processes as a form of defense or to promote immunological memory. In this review, we highlight these aspects of cell biology in pattern-recognition receptor signaling by focusing on signals that originate from the cell surface, from endosomal compartments, and from within the cytosol.

Published
2015

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