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1.
ACS Appl Mater Interfaces ; 11(26): 23050-23064, 2019 Jul 03.
Article in English | MEDLINE | ID: mdl-31180643

ABSTRACT

Alterations in the normal gastrointestinal microbial community caused by unhealthy diet, environmental factors, and antibiotic overuse may severely affect human health and well-being. Novel antimicrobial drug formulations targeting pathogenic microflora while not affecting or even supporting symbiotic microflora are urgently needed. Here we report fabrication of a novel antimicrobial nanocontainer based on halloysite nanotubes loaded with curcumin and protected with a dextrin outer layer (HNTs+Curc/DX) and its effective use to suppress the overgrowth of pathogenic bacteria in Caenorhabditis elegans nematodes. Nanocontainers have been obtained using vacuum-facilitated loading of hydrophobic curcumin into halloysite lumens. We have applied UV-vis and infrared spectroscopy, thermogravimetry and microscopy to characterize the HNTs+Curc/DX nanocontainers. In experiments in vitro we found that HNTs+Curc/DX effectively suppressed the growth of Serratia marcescens cells, whereas Escherichia coli bacteria were not affected. We applied HNTs+Curc/DX nanocontainers to alleviate the S. marcescens infection in C. elegans nematodes in vivo. The nematodes ingest HNTs+Curc/DX at 4-6 ng per worm, which results in improvement of the nematodes' fertility and life expectancy. Remarkably, treatment of S. marcescens-infected nematodes with HNTs+Curc/DX nanocontainers completely restored the longevity, demonstrating the enhanced bioavailability of hydrophobic curcumin. We believe that our results reported here open new avenues for fabrication of effective antimicrobial nanoformulations based on hydrophobic drugs and clay nanotubes.


Subject(s)
Anti-Infective Agents/pharmacology , Caenorhabditis elegans/drug effects , Curcumin/pharmacology , Drug Delivery Systems , Aluminum Silicates/chemistry , Animals , Anti-Infective Agents/chemistry , Anti-Infective Agents/pharmacokinetics , Caenorhabditis elegans/microbiology , Clay/chemistry , Curcumin/chemistry , Dextrins/chemistry , Humans , Nanotubes/chemistry , Thermogravimetry
2.
Ultramicroscopy ; 194: 40-47, 2018 11.
Article in English | MEDLINE | ID: mdl-30071372

ABSTRACT

Atomic force microscopy (AFM), a powerful tool in interdisciplinary biomedical research, has been applied here to investigate the surface of live nematodes epicuticle. We have used AFM in PeakForce Tapping non-resonant imaging and nanomechanical characterisation mode to investigate and compare the surface features of epicuticle of two free-living microscopic nematodes, Caenorhabditis elegans and Turbatrix aceti. We have successfully immobilised live anesthetized adult nematodes on glass supports using either layer-by-layer-deposited polyelectrolyte films or bioadhesive coatings, which allowed for imaging the living nematodes in native environment. We have obtained AFM images and corresponding nanomechanical maps of annular rings and furrows, demonstrating the differences in topography and structure between the species. Our results demonstrate that AFM in PeakForce Tapping mode can be used to image and characterise surfaces of relatively-large live immobilised multicellular organisms, which can be further applied to a number of invertebrates.


Subject(s)
Caenorhabditis elegans/ultrastructure , Nematoda/ultrastructure , Rhabditoidea/ultrastructure , Animals , Glass/chemistry , Microscopy, Atomic Force/methods
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