Atherosclerosis is a leading cause of death globally. Targeted imaging and therapeutics are desirable for the detection and treatment of the disease. In this study, we developed trifunctional Simian virus 40 (SV40)-based nanoparticles for in vivo targeting and imaging of atherosclerotic plaques. These novel trifunctional SV40-based nanoparticles encapsulate near-infrared quantum dots and bear a targeting element and a drug component. Using trifunctional SV40-based nanoparticles, we were able to noninvasively fluorescently image atherosclerotic plaques in live intact ApoE(-/-) mice. Near-infrared quantum dots encapsulated in the SV40 virus-like particles showed prominent optical properties for in vivo imaging. When different targeting peptides for vascular cell adhesion molecule-1, macrophages, and fibrin were used, early, developmental, and late stages of atherosclerosis could be targeted and imaged in live intact ApoE(-/-) mice, respectively. Targeted SV40 virus-like particles also delivered an increased concentration of the anticoagulant drug Hirulog to atherosclerosis plaques. Our study provides novel SV40-based nanoparticles with multivalency and multifunctionality suitable for in vivo imaging, molecular targeting, and drug delivery in atherosclerosis.
Cross-protective and non-invasively administered vaccines are attractive and highly desired for the control of influenza. Self-assembling nanotechnology provides an opportunity for the development of vaccines with superior performance. In this study, an intranasal nanovaccine is developed targeting the conserved ectodomain of influenza matrix protein 2(M2e). 3-sequential repeats of M2e (3M2e) is presented on the self-assembling recombinant human heavy chain ferritin (rHF) cage to form the 3M2e-rHF nanoparticle. Intranasal vaccination with 3M2e-rHF nanoparticles in the absence of an adjuvant induces robust immune responses, including high titers of sera M2e-specific IgG antibodies, T-cell immune responses, and mucosal secretory-IgA antibodies in mice. The 3M2e-rHF nanoparticles also confer complete protection against a lethal infection of homo-subtypic H1N1 and hetero-subtypic H9N2 virus. An analysis of the mechanism of protection underlying the intranasal immunization with the 3M2e-rHF nanoparticle indicates that M2e-specific mucosal secretory-IgA and T-cell immune responses may play critical roles in the prevention of infection. The results suggest that the 3M2e-rHF nanoparticle is a promising, needle-free, intranasally administered, cross-protective influenza vaccine. The use of self-assembling nanovaccines could be an ideal strategy for developing vaccines with characteristics such as high immunogenicity, cross-protection, and convenient administration, as well as being economical and suitable for large-scale production.
Tumor-associated macrophages (TAM) are primarily of the M2 type that facilitates tumor growth, metastasis, and immunosuppression. Therefore, repolarizing the TAMs to the pro-inflammatory M1 type is a promising therapeutic strategy...
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