Your search keyword '"Magnetto, C"' showing total 14 results

1. Temperature Increase Dependence on Ultrasound Attenuation Coefficient in Innovative Tissue-mimicking Materials

Author

Cuccaro, R., Magnetto, C., Albo, P.A. Giuliano, Troia, A., and Lago, S.

Published

2015

2. Antimicrobial oxygen-loaded nanobubbles as promising tools to promote wound healing in hypoxic human keratinocytes [*N. Mandras is the corresponding author, **A.M. Cuffini and M. Prato are co-last authors]

Author

Banche, G., Allizond, V., Mandras, N., Finesso, N., Luganini, A., Genova, T., Argenziano, M., Magnetto, C., Gulino, G. R., Roana, J., Tullio, V., Giribaldi, G., Cavalli, R., Spagnolo, R., Troia, A., Cuffini, A. M., and Prato, M.

Subjects

Keratinocytes, Chronic wounds (CWs), Candida albicans, Nanobubbles (NBs), Methicillin-resistant Staphylococcus aureus (MRSA)

Published

2022

3. Oxygen-loaded nanodroplets effectively abrogate hypoxia dysregulating effects on secretion of MMP-9 and TIMP-1 by human monocytes

Author

Gulino, G, Magnetto, C, Khadjavi, A, Panariti, A, Rivolta, I, Soster, M, Argenziano, M, Cavalli, R, Giribaldi, G, Guiot, C, Prato, M, Prato, M., PANARITI, ALICE LUCIA, RIVOLTA, ILARIA, Gulino, G, Magnetto, C, Khadjavi, A, Panariti, A, Rivolta, I, Soster, M, Argenziano, M, Cavalli, R, Giribaldi, G, Guiot, C, Prato, M, Prato, M., PANARITI, ALICE LUCIA, and RIVOLTA, ILARIA

Abstract

Monocytes play a key role in the inflammatory stage of the healing process. To allow monocyte migration to injured tissues, the balances between secreted matrix metalloproteinases (MMPs) and their inhibitors (TIMPs) must be finely modulated. However, a reduction of blood supply and local oxygen tension can modify the phenotype of immune cells. Intriguingly, hypoxia might be targeted by new effective oxygenating devices such as 2H,3H-decafluoropentane- (DFP-) based oxygen-loaded nanodroplets (OLNs). Here, hypoxia effects on gelatinase/TIMP release from human peripheral monocytes were investigated, and the therapeutic potential of dextran-shelled OLNs was evaluated. Normoxic monocytes constitutively released 500 ng/mL MMP-9, 1.3 ng/mL TIMP-1, and 0.6 ng/mL TIMP-2 proteins. MMP-2 was not detected. After 24 hours, hypoxia significantly altered MMP-9/TIMP-1 balance by reducing MMP-9 and increasing TIMP-1, without affecting TIMP-2 secretion. Interestingly OLNs, not displaying toxicity to human monocytes after cell internalization, effectively counteracted hypoxia, restoring a normoxia-like MMP-9/TIMP-1 ratio. The action of OLNs was specifically dependent on time-sustained oxygen diffusion up to 24 h from their DFP-based core. Therefore, OLNs appear as innovative, nonconventional, cost-effective, and nontoxic therapeutic tools, to be potentially employed to restore the physiological invasive phenotype of immune cells in hypoxia-associated inflammation.

Published

2015

4. 2H,3H-decafluoropentane-based nanodroplets: New perspectives for oxygen delivery to hypoxic cutaneous tissues

Author

Prato, M, Magnetto, C, Jose, J, Khadjavi, A, Cavallo, F, Quaglino, E, Panariti, A, Rivolta, I, Benintende, E, Varetto, G, Argenziano, M, Troia, A, Cavalli, R, Guiot, C, Prato, M, Magnetto, C, Jose, J, Khadjavi, A, Cavallo, F, Quaglino, E, Panariti, A, Rivolta, I, Benintende, E, Varetto, G, Argenziano, M, Troia, A, Cavalli, R, and Guiot, C

Abstract

Perfluoropentane (PFP)-based oxygen-loaded nanobubbles (OLNBs) were previously proposed as adjuvant therapeutic tools for pathologies of different etiology sharing hypoxia as a common feature, including cancer, infection, and autoimmunity. Here we introduce a new platform of oxygen nanocarriers, based on 2H,3H-decafluoropentane (DFP) as core fluorocarbon. These new nanocarriers have been named oxygen-loaded nanodroplets (OLNDs) since DFP is liquid at body temperature, unlike gaseous PFP. Dextran-shelled OLNDs, available either in liquid or gel formulations, display spherical morphology, ∼600 nm diameters, anionic charge, good oxygen carrying capacity, and no toxic effects on human keratinocytes after cell internalization. In vitro OLNDs result more effective in releasing oxygen to hypoxic environments than former OLNBs, as demonstrated by analysis through oxymetry. In vivo, OLNDs effectively enhance oxy-hemoglobin levels, as emerged from investigation by photoacoustic imaging. Interestingly, ultrasound (US) treatment further improves transdermal oxygen release from OLNDs. Taken together, these data suggest that US-activated, DFP-based OLNDs might be innovative, suitable and cost-effective devices to topically treat hypoxia-associated pathologies of the cutaneous tissues.

Published

2015

5. Dextran-shelled oxygen-loaded nanodroplets reestablish a normoxia-like pro-angiogenic phenotype and behavior in hypoxic human dermal microvascular endothelium

Author

Basilico, N, Magnetto, C, D'Alessandro, S, Panariti, A, Rivolta, I, Genova, T, Khadjavi, A, Gulino, G, Argenziano, M, Soster, M, Cavalli, R, Giribaldi, G, Guiot, C, Prato, M, Prato, M., PANARITI, ALICE LUCIA, RIVOLTA, ILARIA, Basilico, N, Magnetto, C, D'Alessandro, S, Panariti, A, Rivolta, I, Genova, T, Khadjavi, A, Gulino, G, Argenziano, M, Soster, M, Cavalli, R, Giribaldi, G, Guiot, C, Prato, M, Prato, M., PANARITI, ALICE LUCIA, and RIVOLTA, ILARIA

Abstract

In chronic wounds, hypoxia seriously undermines tissue repair processes by altering the balances between pro-angiogenic proteolytic enzymes (matrix metalloproteinases, MMPs) and their inhibitors (tissue inhibitors of metalloproteinases, TIMPs) released from surrounding cells. Recently, we have shown that in human monocytes hypoxia reduces MMP-9 and increases TIMP-1 without affecting TIMP-2 secretion, whereas in human keratinocytes it reduces MMP-2, MMP-9, and TIMP-2, without affecting TIMP-1 release. Provided that the phenotype of the cellular environment is better understood, chronic wounds might be targeted by new oxygenating compounds such as chitosan- or dextran-shelled and 2H,3H-decafluoropentane-cored oxygen-loaded nanodroplets (OLNs). Here, we investigated the effects of hypoxia and dextran-shelled OLNs on the pro-angiogenic phenotype and behavior of human dermal microvascular endothelium (HMEC-1 cell line), another cell population playing key roles during wound healing. Normoxic HMEC-1 constitutively released MMP-2, TIMP-1 and TIMP-2 proteins, but not MMP-9. Hypoxia enhanced MMP-2 and reduced TIMP-1 secretion, without affecting TIMP-2 levels, and compromised cell ability to migrate and invade the extracellular matrix. When taken up by HMEC-1, nontoxic OLNs abrogated the effects of hypoxia, restoring normoxic MMP/TIMP levels and promoting cell migration, matrix invasion, and formation of microvessels. These effects were specifically dependent on time-sustained oxygen diffusion from OLN core, since they were not achieved by oxygen-free nanodroplets or oxygen-saturated solution. Collectively, these data provide new information on the effects of hypoxia on dermal endothelium and support the hypothesis that OLNs might be used as effective adjuvant tools to promote chronic wound healing processes.

Published

2015

6. Chitosan-shelled oxygen-loaded nanodroplets abrogate hypoxia dysregulation of human keratinocyte gelatinases and inhibitors: New insights for chronic wound healing

Author

Khadjavi, A, Magnetto, C, Panariti, A, Argenziano, M, Gulino, G, Rivolta, I, Cavalli, R, Giribaldi, G, Guiot, C, Prato, M, Prato, M., PANARITI, ALICE LUCIA, RIVOLTA, ILARIA, Khadjavi, A, Magnetto, C, Panariti, A, Argenziano, M, Gulino, G, Rivolta, I, Cavalli, R, Giribaldi, G, Guiot, C, Prato, M, Prato, M., PANARITI, ALICE LUCIA, and RIVOLTA, ILARIA

Abstract

Background: : In chronic wounds, efficient epithelial tissue repair is hampered by hypoxia, and balances between the molecules involved in matrix turn-over such as matrix metalloproteinases (MMPs) and tissue inhibitors of metalloproteinases (TIMPs) are seriously impaired. Intriguingly, new oxygenating nanocarriers such as 2H,3H-decafluoropentane-based oxygen-loaded nanodroplets (OLNs) might effectively target chronic wounds. Objective: : To investigate hypoxia and chitosan-shelled OLN effects on MMP/TIMP production by human keratinocytes. Methods: : HaCaT cells were treated for 24 h with 10% v/v OLNs both in normoxia or hypoxia. Cytotoxicity and cell viability were measured through biochemical assays; cellular uptake by confocal microscopy; and MMP and TIMP production by enzyme-linked immunosorbent assay or gelatin zymography. Results: : Normoxic HaCaT cells constitutively released MMP-2, MMP-9, TIMP-1 and TIMP-2. Hypoxia strongly impaired MMP/TIMP balances by reducing MMP-2, MMP-9, and TIMP-2, without affecting TIMP-1 release. After cellular uptake by keratinocytes, nontoxic OLNs abrogated all hypoxia effects on MMP/TIMP secretion, restoring physiological balances. OLN abilities were specifically dependent on time-sustained oxygen diffusion from OLN core. Conclusion: : Chitosan-shelled OLNs effectively counteract hypoxia-dependent dysregulation of MMP/TIMP balances in human keratinocytes. Therefore, topical administration of exogenous oxygen, properly encapsulated in nanodroplet formulations, might be a promising adjuvant approach to promote healing processes in hypoxic wounds.

Published

2015

7. Dextran-shelled oxygen-loaded nanodroplets reestablish a normoxia-like pro-angiogenic phenotype and behavior in hypoxic human dermal microvascular endothelium

Author

Ilaria Rivolta, Monica Argenziano, Marco Soster, Giulia Rossana Gulino, Giuliana Giribaldi, Amina Khadjavi, C. Magnetto, Tullio Genova, Sarah D'Alessandro, Mauro Prato, Roberta Cavalli, Nicoletta Basilico, Alice Panariti, Caterina Guiot, Basilico, N, Magnetto, C, D'Alessandro, S, Panariti, A, Rivolta, I, Genova, T, Khadjavi, A, Gulino, G, Argenziano, M, Soster, M, Cavalli, R, Giribaldi, G, Guiot, C, and Prato, M

Subjects

Keratinocytes, Nanostructure, Matrix metalloproteinase, Toxicology, Extracellular matrix, Anoxia, Hypoxia, Skin, education.field_of_study, Endothelial Cell, Tissue inhibitor of metalloproteinase (TIMP), Medicine (all), Proteolytic enzymes, Cell migration, Dextrans, Cell biology, Human microvascular endothelial cell (HMEC), Matrix metalloproteinase (MMP), Nanodroplet, Oxygen, Angiogenesis Inducing Agents, Cell Line, Cell Survival, Chitosan, Endothelial Cells, Endothelium, Vascular, Extracellular Matrix, Gelatinases, Humans, Matrix Metalloproteinase 2, Matrix Metalloproteinase 9, Nanostructures, Phenotype, Tissue Inhibitor of Metalloproteinase-1, Tissue Inhibitor of Metalloproteinase-2, Wound Healing, Pharmacology, medicine.anatomical_structure, Gelatinase, medicine.symptom, Keratinocyte, Human, Endothelium, Population, Angiogenesis Inducing Agent, Biology, Vascular, medicine, education, Dextran, Hypoxia (medical), Immunology, Wound healing

Abstract

In chronic wounds, hypoxia seriously undermines tissue repair processes by altering the balances between pro-angiogenic proteolytic enzymes (matrix metalloproteinases, MMPs) and their inhibitors (tissue inhibitors of metalloproteinases, TIMPs) released from surrounding cells. Recently, we have shown that in human monocytes hypoxia reduces MMP-9 and increases TIMP-1 without affecting TIMP-2 secretion, whereas in human keratinocytes it reduces MMP-2, MMP-9, and TIMP-2, without affecting TIMP-1 release. Provided that the phenotype of the cellular environment is better understood, chronic wounds might be targeted by new oxygenating compounds such as chitosan- or dextran-shelled and 2H,3H-decafluoropentane-cored oxygen-loaded nanodroplets (OLNs). Here, we investigated the effects of hypoxia and dextran-shelled OLNs on the pro-angiogenic phenotype and behavior of human dermal microvascular endothelium (HMEC-1 cell line), another cell population playing key roles during wound healing. Normoxic HMEC-1 constitutively released MMP-2, TIMP-1 and TIMP-2 proteins, but not MMP-9. Hypoxia enhanced MMP-2 and reduced TIMP-1 secretion, without affecting TIMP-2 levels, and compromised cell ability to migrate and invade the extracellular matrix. When taken up by HMEC-1, nontoxic OLNs abrogated the effects of hypoxia, restoring normoxic MMP/TIMP levels and promoting cell migration, matrix invasion, and formation of microvessels. These effects were specifically dependent on time-sustained oxygen diffusion from OLN core, since they were not achieved by oxygen-free nanodroplets or oxygen-saturated solution. Collectively, these data provide new information on the effects of hypoxia on dermal endothelium and support the hypothesis that OLNs might be used as effective adjuvant tools to promote chronic wound healing processes.

Published

2015

8. Chitosan-shelled oxygen-loaded nanodroplets abrogate hypoxia dysregulation of human keratinocyte gelatinases and inhibitors: New insights for chronic wound healing

Author

Caterina Guiot, Roberta Cavalli, Alice Panariti, Amina Khadjavi, Mauro Prato, Monica Argenziano, Ilaria Rivolta, C. Magnetto, Giuliana Giribaldi, Giulia Rossana Gulino, Khadjavi, A, Magnetto, C, Panariti, A, Argenziano, M, Gulino, G, Rivolta, I, Cavalli, R, Giribaldi, G, Guiot, C, and Prato, M

Subjects

Chronic wound, Keratinocytes, Male, Nanodroplet, Cell Survival, Matrix metalloproteinase, Toxicology, Cell Line, Nanoparticle, medicine, Humans, Enzyme Inhibitor, Viability assay, Enzyme Inhibitors, Hypoxia, Drug Carrier, Pharmacology, Drug Carriers, Chitosan, Tissue inhibitor of metalloproteinase (TIMP), Wound Healing, Chemistry, Medicine (all), Keratinocyte, Matrix metalloproteinase (MMP), Cell Hypoxia, Gelatinases, Middle Aged, Nanoparticles, Oxygen, Hypoxia (medical), Cell biology, HaCaT, medicine.anatomical_structure, Biochemistry, Cell culture, Gelatinase, medicine.symptom, Wound healing, Human

Abstract

Background : In chronic wounds, efficient epithelial tissue repair is hampered by hypoxia, and balances between the molecules involved in matrix turn-over such as matrix metalloproteinases (MMPs) and tissue inhibitors of metalloproteinases (TIMPs) are seriously impaired. Intriguingly, new oxygenating nanocarriers such as 2H,3H-decafluoropentane-based oxygen-loaded nanodroplets (OLNs) might effectively target chronic wounds. Objective : To investigate hypoxia and chitosan-shelled OLN effects on MMP/TIMP production by human keratinocytes. Methods : HaCaT cells were treated for 24 h with 10% v/v OLNs both in normoxia or hypoxia. Cytotoxicity and cell viability were measured through biochemical assays; cellular uptake by confocal microscopy; and MMP and TIMP production by enzyme-linked immunosorbent assay or gelatin zymography. Results : Normoxic HaCaT cells constitutively released MMP-2, MMP-9, TIMP-1 and TIMP-2. Hypoxia strongly impaired MMP/TIMP balances by reducing MMP-2, MMP-9, and TIMP-2, without affecting TIMP-1 release. After cellular uptake by keratinocytes, nontoxic OLNs abrogated all hypoxia effects on MMP/TIMP secretion, restoring physiological balances. OLN abilities were specifically dependent on time-sustained oxygen diffusion from OLN core. Conclusion : Chitosan-shelled OLNs effectively counteract hypoxia-dependent dysregulation of MMP/TIMP balances in human keratinocytes. Therefore, topical administration of exogenous oxygen, properly encapsulated in nanodroplet formulations, might be a promising adjuvant approach to promote healing processes in hypoxic wounds.

Published

2015

9. Oxygen-Loaded Nanodroplets Effectively Abrogate Hypoxia Dysregulating Effects on Secretion of MMP-9 and TIMP-1 by Human Monocytes

Author

Amina Khadjavi, C. Magnetto, Caterina Guiot, Monica Argenziano, Giulia Rossana Gulino, Giuliana Giribaldi, Mauro Prato, Alice Panariti, Marco Soster, Roberta Cavalli, Ilaria Rivolta, Gulino, G, Magnetto, C, Khadjavi, A, Panariti, A, Rivolta, I, Soster, M, Argenziano, M, Cavalli, R, Giribaldi, G, Guiot, C, and Prato, M

Subjects

Article Subject, Cell Survival, Immunology, Inflammation, Biology, Matrix metalloproteinase, Monocyte, Monocytes, Immune system, Cell Biology, Nanoparticle, medicine, lcsh:Pathology, Gelatinase, Humans, Secretion, Hypoxia, Tissue Inhibitor of Metalloproteinase-1, Hypoxia (medical), Oxygen tension, Cell biology, Oxygen, medicine.anatomical_structure, Matrix Metalloproteinase 9, Nanoparticles, medicine.symptom, Human, Research Article, lcsh:RB1-214

Abstract

Monocytes play a key role in the inflammatory stage of the healing process. To allow monocyte migration to injured tissues, the balances between secreted matrix metalloproteinases (MMPs) and their inhibitors (TIMPs) must be finely modulated. However, a reduction of blood supply and local oxygen tension can modify the phenotype of immune cells. Intriguingly, hypoxia might be targeted by new effective oxygenating devices such as 2H,3H-decafluoropentane- (DFP-) based oxygen-loaded nanodroplets (OLNs). Here, hypoxia effects on gelatinase/TIMP release from human peripheral monocytes were investigated, and the therapeutic potential of dextran-shelled OLNs was evaluated. Normoxic monocytes constitutively released ~500 ng/mL MMP-9, ~1.3 ng/mL TIMP-1, and ~0.6 ng/mL TIMP-2 proteins. MMP-2 was not detected. After 24 hours, hypoxia significantly altered MMP-9/TIMP-1 balance by reducing MMP-9 and increasing TIMP-1, without affecting TIMP-2 secretion. Interestingly OLNs, not displaying toxicity to human monocytes after cell internalization, effectively counteracted hypoxia, restoring a normoxia-like MMP-9/TIMP-1 ratio. The action of OLNs was specifically dependent on time-sustained oxygen diffusion up to 24 h from their DFP-based core. Therefore, OLNs appear as innovative, nonconventional, cost-effective, and nontoxic therapeutic tools, to be potentially employed to restore the physiological invasive phenotype of immune cells in hypoxia-associated inflammation.

Published

2015

10. 2H,3H-decafluoropentane-based nanodroplets: New perspectives for oxygen delivery to hypoxic cutaneous tissues

Author

C. Magnetto, Emilio Benintende, Monica Argenziano, Mauro Prato, Elena Quaglino, Jithin Jose, Roberta Cavalli, Gianfranco Varetto, Caterina Guiot, Amina Khadjavi, A. Troia, Federica Cavallo, Alice Panariti, Ilaria Rivolta, Prato, M, Magnetto, C, Jose, J, Khadjavi, A, Cavallo, F, Quaglino, E, Panariti, A, Rivolta, I, Benintende, E, Varetto, G, Argenziano, M, Troia, A, Cavalli, R, and Guiot, C

Subjects

Keratinocytes, Fluorocarbon, Genetics and Molecular Biology (all), Pathology, lcsh:Medicine, Oxygen, Biochemistry, chemistry.chemical_compound, Materials Testing, Nanotechnology, lcsh:Science, Internalization, Drug Carrier, Transdermal, media_common, Drug Carriers, Fluorocarbons, Mice, Inbred BALB C, Multidisciplinary, Chemistry, Medicine (all), Cell Hypoxia, Dextran, medicine.symptom, Drug carrier, Keratinocyte, Research Article, Human, Administration, Cutaneou, medicine.medical_specialty, Cell Survival, media_common.quotation_subject, chemistry.chemical_element, Administration, Cutaneous, Cell Line, Sonication, In vivo, medicine, Animals, Humans, Agricultural and Biological Sciences (all), Biochemistry, Genetics and Molecular Biology (all), Kinetic, Animal, lcsh:R, Hypoxia (medical), Kinetics, Biophysics, lcsh:Q, Nanocarriers

Abstract

Perfluoropentane (PFP)-based oxygen-loaded nanobubbles (OLNBs) were previously proposed as adjuvant therapeutic tools for pathologies of different etiology sharing hypoxia as a common feature, including cancer, infection, and autoimmunity. Here we introduce a new platform of oxygen nanocarriers, based on 2H,3H-decafluoropentane (DFP) as core fluorocarbon. These new nanocarriers have been named oxygen-loaded nanodroplets (OLNDs) since DFP is liquid at body temperature, unlike gaseous PFP. Dextran-shelled OLNDs, available either in liquid or gel formulations, display spherical morphology, ~600 nm diameters, anionic charge, good oxygen carrying capacity, and no toxic effects on human keratinocytes after cell internalization. In vitro OLNDs result more effective in releasing oxygen to hypoxic environments than former OLNBs, as demonstrated by analysis through oxymetry. In vivo, OLNDs effectively enhance oxy-hemoglobin levels, as emerged from investigation by photoacoustic imaging. Interestingly, ultrasound (US) treatment further improves transdermal oxygen release from OLNDs. Taken together, these data suggest that US-activated, DFP-based OLNDs might be innovative, suitable and cost-effective devices to topically treat hypoxia-associated pathologies of the cutaneous tissues.

Published

2015

11. Antimicrobial oxygen-loaded nanobubbles as promising tools to promote wound healing in hypoxic human keratinocytes.

Author

Banche G, Allizond V, Mandras N, Finesso N, Luganini A, Genova T, Argenziano M, Magnetto C, Gulino GR, Roana J, Tullio V, Giribaldi G, Cavalli R, Spagnolo R, Troia A, Cuffini AM, and Prato M

Abstract

Chronic wounds (CWs) are typically characterized by persistent hypoxia, exacerbated inflammation, and impaired skin tissue remodeling. Additionally, CWs are often worsened by microbial infections. Oxygen-loaded nanobubbles (OLNBs), displaying a peculiar structure based on oxygen-solving perfluorocarbons such as perfluoropentane in the inner core and polysaccharydes including chitosan in the outer shell, have proven effective in delivering oxygen to hypoxic tissues. Antimicrobial properties have been largely reported for chitosan. In the present work chitosan/perfluoropentane OLNBs were challenged for biocompatibility with human skin cells and ability to promote wound healing processes, as well as for their antimicrobial properties against methicillin-resistant Staphylococcus aureus (MRSA) and Candida albicans . After cellular internalization, OLNBs were not toxic to human keratinocytes (HaCaT), whereas oxygen-free NBs (OFNBs) slightly affected their viability. Hypoxia-dependent inhibition of keratinocyte migratory ability after scratch was fully reversed by OLNBs, but not OFNBs. Both OLNBs and OFNBs exerted chitosan-induced short-term bacteriostatic activity against MRSA (up to 6 h) and long-term fungistatic activity against C. albicans (up to 24 h). Short-term antibacterial activity associated with NB prolonged adhesion to MRSA cell wall (up to 24 h) while long-term antifungal activity followed NB early internalization by C. albicans (already after 3 h of incubation). Taken altogether, these data support chitosan-shelled and perfluoropentane-cored OLNB potential as innovative, promising, non-toxic, and cost-effective antimicrobial devices promoting repair processes to be used for treatment of MRSA- and C. albicans -infected CWs., Competing Interests: The authors report no declarations of interest., (© 2022 The Authors. Published by Elsevier B.V.)

Published

2022

12. 2H,3H-decafluoropentane-based nanodroplets: new perspectives for oxygen delivery to hypoxic cutaneous tissues.

Author

Prato M, Magnetto C, Jose J, Khadjavi A, Cavallo F, Quaglino E, Panariti A, Rivolta I, Benintende E, Varetto G, Argenziano M, Troia A, Cavalli R, and Guiot C

Subjects

Administration, Cutaneous, Animals, Cell Line, Cell Survival, Fluorocarbons administration & dosage, Humans, Keratinocytes, Kinetics, Materials Testing, Mice, Inbred BALB C, Sonication, Cell Hypoxia, Drug Carriers administration & dosage, Fluorocarbons chemistry, Nanotechnology, Oxygen administration & dosage

Abstract

Perfluoropentane (PFP)-based oxygen-loaded nanobubbles (OLNBs) were previously proposed as adjuvant therapeutic tools for pathologies of different etiology sharing hypoxia as a common feature, including cancer, infection, and autoimmunity. Here we introduce a new platform of oxygen nanocarriers, based on 2H,3H-decafluoropentane (DFP) as core fluorocarbon. These new nanocarriers have been named oxygen-loaded nanodroplets (OLNDs) since DFP is liquid at body temperature, unlike gaseous PFP. Dextran-shelled OLNDs, available either in liquid or gel formulations, display spherical morphology, ~600 nm diameters, anionic charge, good oxygen carrying capacity, and no toxic effects on human keratinocytes after cell internalization. In vitro OLNDs result more effective in releasing oxygen to hypoxic environments than former OLNBs, as demonstrated by analysis through oxymetry. In vivo, OLNDs effectively enhance oxy-hemoglobin levels, as emerged from investigation by photoacoustic imaging. Interestingly, ultrasound (US) treatment further improves transdermal oxygen release from OLNDs. Taken together, these data suggest that US-activated, DFP-based OLNDs might be innovative, suitable and cost-effective devices to topically treat hypoxia-associated pathologies of the cutaneous tissues.

Published

2015

13. Antimicrobial chitosan nanodroplets: new insights for ultrasound-mediated adjuvant treatment of skin infection.

Author

Banche G, Prato M, Magnetto C, Allizond V, Giribaldi G, Argenziano M, Khadjavi A, Gulino GR, Finesso N, Mandras N, Tullio V, Cavalli R, Guiot C, and Cuffini AM

Subjects

Candida metabolism, Cell Survival drug effects, Cells, Cultured, Humans, Methicillin-Resistant Staphylococcus aureus metabolism, Anti-Infective Agents metabolism, Candida drug effects, Chitosan metabolism, Keratinocytes microbiology, Methicillin-Resistant Staphylococcus aureus drug effects, Ultrasonography

Abstract

Background: Chronic wounds, characterized by hypoxia, inflammation and impaired tissue remodeling, are often worsened by bacterial/fungal infections. Intriguingly, chitosan-shelled/decafluoropentane-cored oxygen-loaded nanodroplets (OLNs) have proven effective in delivering oxygen to hypoxic tissues., Aim: The present work aimed at investigating nanodroplet antimicrobial properties against methicillin-resistant Staphylococcus aureus (MRSA) or Candida albicans, toxicity on human keratinocytes (HaCaT) and ultrasound (US)-triggered transdermal delivery., Materials & Methods: Nanodroplet antibacterial/antifungal properties, human cytotoxicity, and US-triggered transdermal delivery were measured through microbiological, biochemical, and sonophoresis assays, respectively., Results: OLNs and oxygen-free nanodroplets (OFNs) displayed short- or long-term cytostatic activity against MRSA or Candida albicans, respectively. OLNs were not toxic to keratinocytes, whereas OFNs slightly affected cell viability. Complementary US treatment promoted OLN transdermal delivery., Conclusion: As such, US-activated chitosan-shelled OLNs appear as promising, nonconventional and innovative tools for adjuvant treatment of infected chronic wounds.

Published

2015

14. Oxygen-Loaded Nanodroplets Effectively Abrogate Hypoxia Dysregulating Effects on Secretion of MMP-9 and TIMP-1 by Human Monocytes.

Author

Gulino GR, Magnetto C, Khadjavi A, Panariti A, Rivolta I, Soster M, Argenziano M, Cavalli R, Giribaldi G, Guiot C, and Prato M

Subjects

Cell Survival drug effects, Humans, Hypoxia metabolism, Matrix Metalloproteinase 9 metabolism, Monocytes metabolism, Nanoparticles administration & dosage, Oxygen administration & dosage, Tissue Inhibitor of Metalloproteinase-1 metabolism

Abstract

Monocytes play a key role in the inflammatory stage of the healing process. To allow monocyte migration to injured tissues, the balances between secreted matrix metalloproteinases (MMPs) and their inhibitors (TIMPs) must be finely modulated. However, a reduction of blood supply and local oxygen tension can modify the phenotype of immune cells. Intriguingly, hypoxia might be targeted by new effective oxygenating devices such as 2H,3H-decafluoropentane- (DFP-) based oxygen-loaded nanodroplets (OLNs). Here, hypoxia effects on gelatinase/TIMP release from human peripheral monocytes were investigated, and the therapeutic potential of dextran-shelled OLNs was evaluated. Normoxic monocytes constitutively released ~500 ng/mL MMP-9, ~1.3 ng/mL TIMP-1, and ~0.6 ng/mL TIMP-2 proteins. MMP-2 was not detected. After 24 hours, hypoxia significantly altered MMP-9/TIMP-1 balance by reducing MMP-9 and increasing TIMP-1, without affecting TIMP-2 secretion. Interestingly OLNs, not displaying toxicity to human monocytes after cell internalization, effectively counteracted hypoxia, restoring a normoxia-like MMP-9/TIMP-1 ratio. The action of OLNs was specifically dependent on time-sustained oxygen diffusion up to 24 h from their DFP-based core. Therefore, OLNs appear as innovative, nonconventional, cost-effective, and nontoxic therapeutic tools, to be potentially employed to restore the physiological invasive phenotype of immune cells in hypoxia-associated inflammation.

Published

2015