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Octahedral molybdenum cluster-based nanomaterials for potential photodynamic therapy

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    0563044 - ÚMCH 2023 RIV CH eng J - Journal Article
    Tavares, Marina Rodrigues - Kirakci, Kaplan - Kotov, Nikolay - Pechar, Michal - Lang, Kamil - Pola, Robert - Etrych, Tomáš
    Octahedral molybdenum cluster-based nanomaterials for potential photodynamic therapy.
    Nanomaterials. Roč. 12, č. 19 (2022), č. článku 3350. ISSN 2079-4991. E-ISSN 2079-4991
    R&D Projects: GA ČR(CZ) GA21-11688S; GA MŠMT(CZ) LTAUSA18083
    Institutional support: RVO:61389013 ; RVO:61388980
    Keywords : polymer carrier * photodynamic therapy * octahedral molybdenum clusters
    OECD category: Polymer science; Inorganic and nuclear chemistry (UACH-T)
    Impact factor: 5.3, year: 2022
    Method of publishing: Open access
    Result website:
    https://www.mdpi.com/2079-4991/12/19/3350
    DOI: https://doi.org/10.3390/nano12193350

    Photo/radiosensitizers, such as octahedral molybdenum clusters (Mo6), have been intensively studied for photodynamic applications to treat various diseases. However, their delivery to the desired target can be hampered by its limited solubility, low stability in physiological conditions, and inappropriate biodistribution, thus limiting the therapeutic effect and increasing the side effects of the therapy. To overcome such obstacles and to prepare photofunctional nanomaterials, we employed biocompatible and water-soluble copolymers based on N-(2-hydroxypropyl)methacrylamide (pHPMA) as carriers of Mo6 clusters. Several strategies based on electrostatic, hydrophobic, or covalent interactions were employed for the formation of polymer-cluster constructs. Importantly, the luminescent properties of the Mo6 clusters were preserved upon association with the polymers: all polymer-cluster constructs exhibited an effective quenching of their excited states, suggesting a production of singlet oxygen (O2(1Δg)) species which is a major factor for a successful photodynamic treatment. Even though the colloidal stability of all polymer-cluster constructs was satisfactory in deionized water, the complexes prepared by electrostatic and hydrophobic interactions underwent severe aggregation in phosphate buffer saline (PBS) accompanied by the disruption of the cohesive forces between the cluster and polymer molecules. On the contrary, the conjugates prepared by covalent interactions notably displayed colloidal stability in PBS in addition to high luminescence quantum yields, suggesting that pHPMA is a suitable nanocarrier for molybdenum cluster-based photosensitizers intended for photodynamic applications.

    Permanent Link: https://hdl.handle.net/11104/0335131

     
     
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