Polyethylene glycol and chitosan functionalized manganese oxide nanoparticles for antimicrobial and anticancer activities

[Display omitted] Biocompatible polymer-functionalized magnetic nanoparticles could offer promising applications in biomedical sciences. We fabricated polymer functionalized tri-manganese tetra oxide (Mn3O4) nanoparticles with the co-precipitation method and an octahedral crystal structure having a...

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Published inJournal of colloid and interface science Vol. 648; pp. 907 - 915
Main Authors Mahmood, Arslan, Munir, Tariq, Rasul, Azhar, Ghfar, Ayman A., Mumtaz, Sohail
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 15.10.2023
Subjects
Anti-Infective Agents - pharmacology
Anticancer
Antimicrobial
Chitosan - pharmacology
Humans
Nanoparticles - chemistry
Oxides - chemistry
Oxides - pharmacology
Polyethylene Glycols - chemistry
Polymers
Remote control
Surface functionalized Mn3O4-NPs
Surface functionalized Mn3O4-NPs
Antimicrobial
Anticancer
Remote control
Surface functionalized MnO-NPs
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Abstract [Display omitted] Biocompatible polymer-functionalized magnetic nanoparticles could offer promising applications in biomedical sciences. We fabricated polymer functionalized tri-manganese tetra oxide (Mn3O4) nanoparticles with the co-precipitation method and an octahedral crystal structure having a crystallite size of 10–17 nm was identified via XRD analyses. The SEM graph depicted the non-uniform and smooth surface of PEG-functionalized Mn3O4 NPs as compared to Mn3O4 and chitosan-coated Mn3O4 NPs. Elemental composition in the prepared sample was examined by EDX analysis. Various modes such as MnO, MnOH, OH, symmetric, and anti-symmetric of CH2 attached to the spectrum of Mn3O4 NPs were observed with FTIR analysis. The magnetization factor decreased and increase the coreacivity and retentivity of surface functionalized Mn3O4-NPs was calculated via VSM analysis. In-vitro bioassay, antibacterial activity was tested against Escherichiacoli, Bacillus cereus, and anti-fungal activities against two Fusarium strains indicated clear antimicrobial activities. The MTT assay to examine the anticancer activity against the MCF-7 cancer cell line was performed and the T1 MRI contrast agent demonstrated that PEG-coated Mn3O4 NPs exhibited anti-cancer activities. We propose that surface-functionalized magnetic NPs used for the treatment of cancer by using a remote controlled process of hyperthermia therapy.
AbstractList [Display omitted] Biocompatible polymer-functionalized magnetic nanoparticles could offer promising applications in biomedical sciences. We fabricated polymer functionalized tri-manganese tetra oxide (Mn3O4) nanoparticles with the co-precipitation method and an octahedral crystal structure having a crystallite size of 10–17 nm was identified via XRD analyses. The SEM graph depicted the non-uniform and smooth surface of PEG-functionalized Mn3O4 NPs as compared to Mn3O4 and chitosan-coated Mn3O4 NPs. Elemental composition in the prepared sample was examined by EDX analysis. Various modes such as MnO, MnOH, OH, symmetric, and anti-symmetric of CH2 attached to the spectrum of Mn3O4 NPs were observed with FTIR analysis. The magnetization factor decreased and increase the coreacivity and retentivity of surface functionalized Mn3O4-NPs was calculated via VSM analysis. In-vitro bioassay, antibacterial activity was tested against Escherichiacoli, Bacillus cereus, and anti-fungal activities against two Fusarium strains indicated clear antimicrobial activities. The MTT assay to examine the anticancer activity against the MCF-7 cancer cell line was performed and the T1 MRI contrast agent demonstrated that PEG-coated Mn3O4 NPs exhibited anti-cancer activities. We propose that surface-functionalized magnetic NPs used for the treatment of cancer by using a remote controlled process of hyperthermia therapy.
Biocompatible polymer-functionalized magnetic nanoparticles could offer promising applications in biomedical sciences. We fabricated polymer functionalized tri-manganese tetra oxide (Mn O ) nanoparticles with the co-precipitation method and an octahedral crystal structure having a crystallite size of 10-17 nm was identified via XRD analyses. The SEM graph depicted the non-uniform and smooth surface of PEG-functionalized Mn O NPs as compared to Mn O and chitosan-coated Mn O NPs. Elemental composition in the prepared sample was examined by EDX analysis. Various modes such as MnO, MnOH, OH, symmetric, and anti-symmetric of CH attached to the spectrum of Mn O NPs were observed with FTIR analysis. The magnetization factor decreased and increase the coreacivity and retentivity of surface functionalized Mn O -NPs was calculated via VSM analysis. In-vitro bioassay, antibacterial activity was tested against Escherichiacoli, Bacillus cereus, and anti-fungal activities against two Fusarium strains indicated clear antimicrobial activities. The MTT assay to examine the anticancer activity against the MCF-7 cancer cell line was performed and the T MRI contrast agent demonstrated that PEG-coated Mn O NPs exhibited anti-cancer activities. We propose that surface-functionalized magnetic NPs used for the treatment of cancer by using a remote controlled process of hyperthermia therapy.
Author Ghfar, Ayman A.
Mahmood, Arslan
Mumtaz, Sohail
Rasul, Azhar
Munir, Tariq
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Keywords Surface functionalized Mn3O4-NPs
Antimicrobial
Anticancer
Remote control
Surface functionalized MnO-NPs
Language English
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Snippet [Display omitted] Biocompatible polymer-functionalized magnetic nanoparticles could offer promising applications in biomedical sciences. We fabricated polymer...
Biocompatible polymer-functionalized magnetic nanoparticles could offer promising applications in biomedical sciences. We fabricated polymer functionalized...
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SubjectTerms Anti-Infective Agents - pharmacology
Anticancer
Antimicrobial
Chitosan - pharmacology
Humans
Nanoparticles - chemistry
Oxides - chemistry
Oxides - pharmacology
Polyethylene Glycols - chemistry
Polymers
Remote control
Surface functionalized Mn3O4-NPs
Title Polyethylene glycol and chitosan functionalized manganese oxide nanoparticles for antimicrobial and anticancer activities
URI https://dx.doi.org/10.1016/j.jcis.2023.06.029
https://www.ncbi.nlm.nih.gov/pubmed/37329602
https://search.proquest.com/docview/2827263684
Volume 648
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