Nano‐in‐Microparticles for Aerosol Delivery of Antibiotic‐Loaded, Fucose‐Derivatized, and Macrophage‐Targeted Liposomes to Combat Mycobacterial Infections: In Vitro Deposition, Pulmonary Barrier Interactions, and Targeted Delivery

Huck, Benedikt; Thiyagarajan, Durairaj; Bali, Aghiad; Boese, Annette; Besecke, Karen F W; Hozsa, Constantin; Gieseler, R. K. H.; Furch, Marcus; Carvalho-Wodarz, Cristiane de Souza; Waldow, Franziska; Schwudke, Dominik; Metelkina, Olga; Titz, Alexander; Huwer, Hanno; Schwarzkopf, Konrad; Hoppstädter, Jessica; Kiemer, Alexandra K.; Koch, Marcus; Loretz, Brigitta; Lehr, Claus‐Michael

doi:10.1002/adhm.202102117

Cited by 17 publications

(16 citation statements)

References 73 publications

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“…Interestingly, the proportion of Lf-NPs taken up by dTHP-1 cells decreased when free lactoferrin was included in the culture medium at increasing concentrations, which indicates specific uptake of lactoferrin nanoparticles. The current observation is similar to recent studies that utilized fucose as a targeting ligand on liposomal drug carriers. , Confocal laser scanning microscopic analysis further confirmed the internalization of fluorescent Lf-NPs in the endosomal compartments. Although free lactoferrin (which is also present in the lung lining and other body fluids) reduced the uptake of Lf-NPs and given the high basal phagocytic activity of macrophages, it appears possible to administer decent quantities of Lf-NPs through the pulmonary route because high concentrations of Lf-NPs would be necessary for a competitive uptake of exogenous lactoferrin to achieve desired effects.…”

Section: Discussionsupporting

confidence: 90%

“…aureus at a multiplicity of infection of 1:5 and 1:1, respectively. After 3 h, infected cells were washed carefully 3–4 times with sterile prewarmed PBS to remove extracellular bacteria . The cells were then treated with medium containing free drugs (at MIC), drug combinations (at MIC of combination), and Lf-NPs (final concentration of ca.…”

Section: Materials and Methodsmentioning

confidence: 99%

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Targeting Intracellular Bacteria with Dual Drug-loaded Lactoferrin Nanoparticles

Andima,

Boese,

Paul

et al. 2024

ACS Infect. Dis.

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Treatment of microbial infections is becoming daunting because of widespread antimicrobial resistance. The treatment challenge is further exacerbated by the fact that certain infectious bacteria invade and localize within host cells, protecting the bacteria from antimicrobial treatments and the host's immune response. To survive in the intracellular niche, such bacteria deploy surface receptors similar to host cell receptors to sequester iron, an essential nutrient for their virulence, from host iron-binding proteins, in particular lactoferrin and transferrin. In this context, we aimed to target lactoferrin receptors expressed by macrophages and bacteria; as such, we prepared and characterized lactoferrin nanoparticles (Lf-NPs) loaded with a dual drug combination of antimicrobial natural alkaloids, berberine or sanguinarine, with vancomycin or imipenem. We observed increased uptake of drug-loaded Lf-NPs by differentiated THP-1 cells with up to 90% proportion of fluorescent cells, which decreased to about 60% in the presence of free lactoferrin, demonstrating the targeting ability of Lf-NPs. The encapsulated antibiotic drug cocktail efficiently cleared intracellular Staphylococcus aureus (Newman strain) compared to the free drug combinations. However, the encapsulated drugs and the free drugs alike exhibited a bacteriostatic effect against the hard-to-treat Mycobacterium abscessus (smooth variant). In conclusion, the results of this study demonstrate the potential of lactoferrin nanoparticles for the targeted delivery of antibiotic drug cocktails for the treatment of intracellular bacteria.

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Section: Discussionsupporting

confidence: 90%

Section: Materials and Methodsmentioning

confidence: 99%

Targeting Intracellular Bacteria with Dual Drug-loaded Lactoferrin Nanoparticles

Andima,

Boese,

Paul

et al. 2024

ACS Infect. Dis.

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“…Besides tuberculosis, nontuberculous mycobacterial infections also manifest as intracellular infections. Huck et al prepared a fucose-derivatized liposome for the treatment of nontuberculous mycobacterial infections by targeting CLR overexpressed on AM 52 (Fig. 3).…”

Section: Receptor-mediated Targeting Strategymentioning

confidence: 99%

Nanomedicines for targeted pulmonary delivery: receptor-mediated strategy and alternatives

Wang,

Zhong,

Huang

et al. 2024

Nanoscale

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“…For example, intracellular infections are often found within the deep tissues of the lungs in the cases of cystic fibrosis and tuberculosis. Pulmonary administration of nanoantibiotic will improve the concentration of antibiotics delivered to the lungs while avoiding stability and side effects resulting from oral therapy . However, this presents a unique set of challenges and considerations in which formulation strategies to enable pulmonary delivery (i.e., nebulization or dry powder inhalers), their ability to reach the site of infection upon administration, ability to bypass the thick mucus layer, and interaction with the local immune system need to be investigated.…”

Section: Experimental Considerations and Reporting Recommendations Fo...mentioning

confidence: 99%

Minimum Information for Conducting and Reporting In Vitro Intracellular Infection Assays

Subramaniam,

Joyce,

Ogunniyi

et al. 2024

ACS Infect. Dis.

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Bacterial pathogens are constantly evolving to outsmart the host immune system and antibiotics developed to eradicate them. One key strategy involves the ability of bacteria to survive and replicate within host cells, thereby causing intracellular infections. To address this unmet clinical need, researchers are adopting new approaches, such as the development of novel molecules that can penetrate host cells, thus exerting their antimicrobial activity intracellularly, or repurposing existing antibiotics using nanocarriers (i.e., nanoantibiotics) for site-specific delivery. However, inconsistency in information reported across published studies makes it challenging for scientific comparison and judgment of experiments for future direction by researchers. Together with the lack of reproducibility of experiments, these inconsistencies limit the translation of experimental results beyond pre-clinical evaluation. Minimum information guidelines have been instrumental in addressing such challenges in other fields of biomedical research. Guidelines and recommendations provided herein have been designed for researchers as essential parameters to be disclosed when publishing their methodology and results, divided into four main categories: (i) experimental design, (ii) establishing an in vitro model, (iii) assessment of efficacy of novel therapeutics, and (iv) statistical assessment. These guidelines have been designed with the intention to improve the reproducibility and rigor of future studies while enabling quantitative comparisons of published studies, ultimately facilitating translation of emerging antimicrobial technologies into clinically viable therapies that safely and effectively treat intracellular infections.

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Nano‐in‐Microparticles for Aerosol Delivery of Antibiotic‐Loaded, Fucose‐Derivatized, and Macrophage‐Targeted Liposomes to Combat Mycobacterial Infections: In Vitro Deposition, Pulmonary Barrier Interactions, and Targeted Delivery

Cited by 17 publications

References 73 publications

Targeting Intracellular Bacteria with Dual Drug-loaded Lactoferrin Nanoparticles

Targeting Intracellular Bacteria with Dual Drug-loaded Lactoferrin Nanoparticles

Nanomedicines for targeted pulmonary delivery: receptor-mediated strategy and alternatives

Minimum Information for Conducting and Reporting In Vitro Intracellular Infection Assays

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