Alpha-toxin (AT) is a major virulence factor in the disease pathogenesis of Staphylococcus aureus. We previously identified a monoclonal antibody (MAb) against AT that reduced disease severity in a mouse dermonecrosis model. Here, we evaluate the activity of an affinity-optimized variant, LC10, in a mouse model of S. aureus pneumonia. Passive immunization with LC10 increased survival and reduced bacterial numbers in the lungs and kidneys of infected mice and showed protection against diverse S. aureus clinical isolates. The lungs of S. aureus-infected mice exhibited bacterial pneumonia, including widespread inflammation, whereas the lungs of mice that received LC10 exhibited minimal inflammation and retained healthy architecture. Consistent with reduced immune cell infiltration, LC10-treated animals had significantly lower (P < 0.05) proinflammatory cytokine and chemokine levels in the bronchoalveolar lavage fluid than did those of the control animals. This reduction in inflammation and damage to the LC10-treated animals resulted in reduced vascular protein leakage and CO 2 levels in the blood. LC10 was also assessed for its therapeutic activity in combination with vancomycin or linezolid. Treatment with a combination of LC10 and vancomycin or linezolid resulted in a significant increase (P < 0.05) in survival relative to the monotherapies and was deemed additive to synergistic by isobologram analysis. Consistent with improved survival, the lungs of animals treated with antibiotic plus LC10 exhibited less inflammatory tissue damage than those that received monotherapy. These data provide insight into the mechanisms of protection provided by AT inhibition and support AT as a promising target for immunoprophylaxis or adjunctive therapy against S. aureus pneumonia.
We present a net-shaped DNA nanostructure (called “DNA Net” herein)
design strategy for selective recognition and high-affinity capture of intact SARS-CoV-2
virions through spatial pattern-matching and multivalent interactions between the
aptamers (targeting wild-type spike-RBD) positioned on the DNA Net and the trimeric
spike glycoproteins displayed on the viral outer surface. Carrying a designer
nanoswitch, the DNA Net-aptamers release fluorescence signals upon virus binding that
are easily read with a handheld fluorimeter for a rapid (in 10 min), simple
(mix-and-read), sensitive (PCR equivalent), room temperature compatible, and inexpensive
(∼$1.26/test) COVID-19 test assay. The DNA Net-aptamers also impede authentic
wild-type SARS-CoV-2 infection in cell culture with a near 1 × 10
3
-fold
enhancement of the monomeric aptamer. Furthermore, our DNA Net design principle and
strategy can be customized to tackle other life-threatening and economically influential
viruses like influenza and HIV, whose surfaces carry class-I viral envelope
glycoproteins like the SARS-CoV-2 spikes in trimeric forms.
Metallic nanocube ensembles exhibit tunable localized surface plasmon resonance to induce the light manipulation at the subwavelength scale. Nevertheless, precisely control anisotropic metallic nanocube ensembles with relative spatial directionality remains a challenge. Here, we report a DNA origami based nanoprinting (DOBNP) strategy to transfer the essential DNA strands with predefined sequences and positions to the surface of the gold nanocubes (AuNCs). These DNA strands ensured the specific linkages between AuNCs and gold nanoparticles (AuNPs) that generating the stereo‐controlled AuNC‐AuNP nanostructures (AANs) with controlled geometry and composition. By anchoring the single dye molecule in hot spot regions, the dramatic enhanced electromagnetic field aroused stronger surface enhanced Raman scattering (SERS) signal amplification. Our approach opens the opportunity for the fabrication of stereo‐controlled metal nanostructures for designing highly sensitive photonic devices.
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