A melt processed viral nanoparticle construct for delivery of virus or virus-like particles to a site of interest includes a degradable polymer matrix and a plurality of virus or virus-like particles encapsulated within the degradable polymer matrix. The nanoparticle construct upon administration to the site of interest providing a sustained release of the virus or virus-like particles and/or nanoparticles upon degradation of the polymer matrix.

Photodynamic virus particles including a plant virus particle associated with a photosensitizing agent are described. Methods of treating cancer in a subject by administering to the subject a therapeutically effective amount of the photodynamic virus particles and illuminating a cancer-bearing region of the subject to activate the photodynamic virus particles are also described.

Methods and compositions for the treatment of cancer provided herein. The compositions and methods contain a nanoparticle and a peptide that targets S100A9.

An anti-cancer virus composition including an icosahedral-shaped plant virus or virus-like particle linked to a HER2 antigen is described. The anti-cancer virus composition can be used for methods of treating or decreasing the risk of developing a HER2-expressing cancer in a subject by administering to a subject in need thereof an effective amount of the anti-cancer virus composition.

Photodynamic virus particles including a plant virus particle associated with a photosensitizing agent are described. Methods of treating cancer in a subject by administering to the subject a therapeutically effective amount of the photodynamic virus particles and illuminating a cancer-bearing region of the subject to activate the photodynamic virus particles are also described.

This disclosure provides a conjugate comprising a 7-mer peptide bound to the surface of a viral particle such as cowpea mosaic virus (CPMV). The c terminus of this peptide can be conjugated to desired molecules with the N terminus of the peptide interacting with CPMV surface.

The present invention relates to novel fusion polypeptides and the uses thereof. The invention particularly relates to conjugated coat proteins derived from nepoviruses, virus-like particles made with such proteins, and the uses thereof. The particles of the invention can expose and/or encage molecules of interest and have utility in various fields such as the pharmaceutical, agro, or veterinary areas.

A method of producing plant virus-like particles includes freeze drying an aqueous solution of plant virus particles to produce a substantially RNA-free plant virus-like particles.

Provided herein is a novel, multimodal in situ vaccination approach to treat cancer by combining ablation with administration of the naturally occurring plant virus or virus-like particle (VLP) nanoparticles such as cowpea mosaic virus (CPMV), a plant virus-based immunoadjuvant.

There is described a process for production of metal-coated virus particles or metallic nanoparticles, said process comprising admixing virus particles with plant material with reducing power and a metal salt, wherein the process can be provided in planta or ex planta and the virus particles aid the production of the metal-coated virus particles or metallic nanoparticles.