Unlocking cellular barriers: silica nanoparticles and fullerenol conjugated cell-penetrating agents for enhanced intracellular drug delivery

Ravelo-Nieto, Eduardo; Cifuentes, Javier; Puentes, Paola Ruiz; Rueda-Gensini, Laura; Quezada, Valentina; Ostos, C.; Muñoz-Camargo, Carolina; Reyes, Luis H.; Duarte-Ruiz, Álvaro; Cruz, Juan C.

doi:10.3389/fbioe.2023.1184973

Cited by 4 publications

(1 citation statement)

References 56 publications

(98 reference statements)

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“…SiNPs could probably lessen the A. veronii –induced ROS by penetrating smoothly through renal and hepatic cells, reflecting antioxidant protection. These findings were supported by Ravelo-Nieto et al ( 2023 ), who declared that SiNPs are safe, perfect penetrating agent that can easily pass through biological membranes without influencing the viability of cells. A similar report by Mahboub et al ( 2022b ) found that SiNPs can alleviate the histopathological changes induced by heavy metal toxicity in C. gariepinus .…”

Section: Discussionmentioning

confidence: 58%

Silica nanoparticles alleviate the immunosuppression, oxidative stress, biochemical, behavioral, and histopathological alterations induced by Aeromonas veronii infection in African catfish (Clarias gariepinus)

Mahboub,

Gad,

Aziz

et al. 2023

Fish Physiol Biochem

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In the aquaculture industry, silica nanoparticles (SiNPs) have great significance, mainly for confronting diseases. Therefore, the present study aims to assess the antibacterial efficiency of SiNPs as a versatile trial against Aeromonas veronii infection in African catfish (Clarias gariepinus). Further, we investigated the influence of SiNPs in palliating the immune-antioxidant stress biochemical, ethological, and histopathological alterations induced by A. veronii. The experiment was conducted for 10 days, and about 120 fish were distributed into four groups at random, with 30 fish each. The first group is a control that was neither exposed to infection nor SiNPs. The second group (SiNPs) was vulnerable to SiNPs at a concentration of 20 mg/L in water. The third group was experimentally infected with A. veronii at a concentration of 1.5 × 107 CFU/mL. The fourth group (A. veronii + SiNPs) was exposed to SiNPs and infected with A. veronii. Results outlined that A. veronii infection induced behavioral alterations and suppression of immune-antioxidant responses that appeared as a clear decline in protein profile indices, complement 3, lysozyme activity, glutathione peroxidase, and total antioxidant capacity. The kidney and liver function biomarkers (creatinine, urea, alkaline phosphatase, and alanine aminotransferase) and lipid peroxide (malondialdehyde) were substantially increased in the A. veronii group, with marked histopathological changes and immunohistochemical alterations in these tissues. Interestingly, the exposure to SiNPs resulted in a clear improvement in all measured biomarkers and a noticeable regeneration of the histopathological changes. Overall, it will establish that SiNPs are a new, successful tool for opposing immunological, antioxidant, physiological, and histopathological alterations induced by A. veronii infection.

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Section: Discussionmentioning

confidence: 58%

Silica nanoparticles alleviate the immunosuppression, oxidative stress, biochemical, behavioral, and histopathological alterations induced by Aeromonas veronii infection in African catfish (Clarias gariepinus)

Mahboub,

Gad,

Aziz

et al. 2023

Fish Physiol Biochem

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Versatile applications of fullerenol nanoparticles

Seke,

Zivkovic,

Stankovic

2024

International Journal of Pharmaceutics

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Enhanced Delivery and Potency of Chemotherapeutics in Melanoma Treatment via Magnetite Nanobioconjugates

Díaz,

Quezada,

Cifuentes

et al. 2024

ACS Omega

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Melanoma, known for its aggressive metastatic potential, poses significant treatment challenges. Despite the potent antiproliferative effects of anticancer drugs, systemic toxicity and low water solubility limit their efficacy. This study addresses these challenges by employing magnetite (Fe 3 O 4 ) nanobioconjugates as a drug delivery system, aimed at enhancing drug solubility and reducing off-target effects in melanoma therapy. Magnetite nanoparticles (MNPs) were engineered with functional molecules and loaded with the anticancer agents Temozolomide (TMZ) or paclitaxel (PTX). The nanobioconjugates were characterized via Fourier transform infrared spectroscopy (FTIR), thermogravimetric analysis (TGA), dynamic light scattering (DLS), and transmission electron microscopy (TEM). The results validated the efficacious synthesis and drug loading, attaining efficiencies ranging from 32 to 72% for TMZ and 32 to 60% for PTX. Biocompatibility assessments demonstrated excellent tolerance, with minimal hemolysis rates and platelet aggregation. In vitro studies revealed enhanced cytotoxicity against A-375 human melanoma cells compared to free drugs, with cellular uptake facilitated primarily through macropinocytosis, caveolin-, and clathrin-mediated endocytosis. Furthermore, the nanobioconjugates exhibited significant efficacy in targeting A-375 melanoma spheroids, underlining their potential in melanoma therapy. This research underscores magnetite nanobioconjugates as a promising avenue for targeted melanoma treatment, offering enhanced drug delivery specificity and reduced systemic toxicity in oncological drug delivery systems.

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Unlocking cellular barriers: silica nanoparticles and fullerenol conjugated cell-penetrating agents for enhanced intracellular drug delivery

Cited by 4 publications

References 56 publications

Silica nanoparticles alleviate the immunosuppression, oxidative stress, biochemical, behavioral, and histopathological alterations induced by Aeromonas veronii infection in African catfish (Clarias gariepinus)

Silica nanoparticles alleviate the immunosuppression, oxidative stress, biochemical, behavioral, and histopathological alterations induced by Aeromonas veronii infection in African catfish (Clarias gariepinus)

Versatile applications of fullerenol nanoparticles

Enhanced Delivery and Potency of Chemotherapeutics in Melanoma Treatment via Magnetite Nanobioconjugates

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