Cholesterol nanoarchaeosomes for alendronate targeted delivery as an anti-endothelial dysfunction agent

Jerez, Horacio Emanuel; Simioni, Yamila Roxana; Ghosal, Kajal; Morilla, Maria Jose; Romero, Eder Lilia

doi:10.3762/bjnano.15.46

Beilstein J. Nanotechnol.

2024

DOI: 10.3762/bjnano.15.46

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Cholesterol nanoarchaeosomes for alendronate targeted delivery as an anti-endothelial dysfunction agent

Horacio Emanuel Jerez,

Yamila Roxana Simioni,

Kajal Ghosal

et al.

Abstract: Sodium alendronate (ALN) is a very hydrosoluble and poorly permeable molecule used as an antiresorptive agent and with vascular anticalcifying capacity. Loaded into targeted nanovesicles, its anti-inflammatory activity may be amplified towards extra-osseous and noncalcified target cells, such as severely irritated vascular endothelium. Here cytotoxicity, mitochondrial membrane potential, ATP content, and membrane fluidity of human endothelial venous cells (HUVECs) were determined after endocytosis of ALN-loade… Show more

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Cited by 3 publications

References 87 publications

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Collagen Nanofiber-Mediated Encapsulation of Gefitinib for Lung Cancer Treatment

Perumalsami,

Sabapathi,

Frank

et al. 2024

BioNanoSci.

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Collagen Nanofiber-Mediated Encapsulation of Gefitinib for Lung Cancer Treatment

Perumalsami,

Sabapathi,

Frank

et al. 2024

BioNanoSci.

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Development, structural characterization, in vitro release and oral bioavailability studies of novel surface-modified natural Fiber Interlaced Liposomal Vitamin C

Jacob,

Sharma,

Valsaraj

et al. 2024

New J. Chem.

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Chitosan-casein as novel drug delivery system for transferring Phyllanthus emblica to inhibit Pseudomonas aeruginosa

Ramezani,

Sazegar,

Rouhi

2024

BMC Biotechnol

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This study investigated the ability of Phyllanthus emblica encapsulated within chitosan-coated casein (CS-casein-Amla) nanoparticles to inhibit the growth of multi-drug-resistant Pseudomonas aeruginosa ( P. aeruginosa) bacteria and prevent the formation of biofilms. The MDR strains underwent screening, and the morphological characteristics of the resulting nanoparticles were assessed using SEM, DLS, and FTIR. In addition, the efficacy of encapsulation, stability, and drug release were evaluated. The PpgL , BdlA , and GacA biofilm gene transcription quantities were quantified by quantitative real-time PCR. Simultaneously, the nanoparticles were assessed for their antibacterial and cytotoxic effects using the well diffusion and MTT procedures. CS-casein-Amla nanoparticles with a size of 500.73 ± 13 nm, encapsulation efficiency of 76.33 ± 0.81%, and stability for 60 days at 4 °C (Humidity 30%) were created. The biological analysis revealed that CS-casein-Amla nanoparticles exhibited strong antibacterial properties. This was shown by their capacity to markedly reduce the transcription of PpgL , BdlA , and GacA biofilm genes at a statistically significant value of p ≤ 0.01. The nanoparticles demonstrated decreased antibiotic resistance compared to unbound Amla and CS-casein. Compared to Amla, CS-casein-Amla nanoparticles showed very little toxicity against HDF cells at dosages ranging from 1.56 to 100 µg/mL ( p ≤ 0.01). The results highlight the potential of CS-casein-Amla nanoparticles as a significant advancement in combating highly resistant P. aeruginosa . The powerful antibacterial properties of CS-casein-Amla nanoparticles against P. aeruginosa MDR strains, which are highly resistant pathogens of great concern, may catalyze the development of novel antibacterial research approaches. Supplementary Information The online version contains supplementary material available at 10.1186/s12896-024-00907-9.

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Cholesterol nanoarchaeosomes for alendronate targeted delivery as an anti-endothelial dysfunction agent

Cited by 3 publications

References 87 publications

Collagen Nanofiber-Mediated Encapsulation of Gefitinib for Lung Cancer Treatment

Collagen Nanofiber-Mediated Encapsulation of Gefitinib for Lung Cancer Treatment

Development, structural characterization, in vitro release and oral bioavailability studies of novel surface-modified natural Fiber Interlaced Liposomal Vitamin C

Chitosan-casein as novel drug delivery system for transferring Phyllanthus emblica to inhibit Pseudomonas aeruginosa

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