This disclosure provides compositions, methods, and systems comprising a papillomaviral delivery vehicle for the delivery of gene editing material to cells. The papillomaviral delivery vehicle comprises a papillomavirus-derived capsid and DNA encoding a gene editing material encapsulated by the capsid. The papillomaviral delivery vehicle can be transduced into a cell under conditions conducive for the cell to synthesize the gene editing material. The cell can comprise a polynucleotide target and the gene editing material can target the polynucleotide target. The polynucleotide target can be a DNA polynucleotide target or RNA polynucleotide target.

Some embodiments of the present disclosure are directed to methods and compositions for the treatment of tumors, using a combination of immunotherapeutic agents and tumor-targeting viral capsid protein assemblages comprising anti-cancer molecules conjugated to viral capsid proteins.

Some embodiments of the present disclosure are directed to methods and compositions for the treatment of tumors, using a combination of immunotherapeutic agents and tumor-targeting viral capsid protein assemblages comprising anti-cancer molecules conjugated to viral capsid proteins.

Disclosed are probes based on papilloma virus and modified SV40 that can be used for detecting circulating tumor cells (CTCs) in the blood stream, methods for manufacturing such probes, and methods for using such probes.

A non-human papilloma pseudovirus or virus like particle has at least one papilloma capsid protein codon-optimized for expression in eukaryotic cells or cell lines. A pharmaceutical composition includes the non-human papilloma pseudovirus or virus like particle, and a diagnostic agent, an imaging agent, and a therapeutic agent. A non-human papilloma pseudovirus or virus like particle can be used as a medicament. A method for producing a non-human papilloma pseudovirus or virus like particle involves codon-optimizing of capsid proteins of non-human papillomaviruses for expression in eukaryotic cells, synthesizing of the sequences and cloning of the synthesized sequences into expression vectors, and producing non-human papilloma pseudovirus or virus like particles. t-carrageenan can be used as transduction enhancer for non-human papilloma pseudovirus or virus like particles in vitro.

Methods of preparing papillomavirus nucleic acid transfer vectors, in-disassembled cluding by disassembly/reassembly of papillomavirus L1 and L2 virus-like particles, in a defined, cell-free high-efficiency production protocol. These methods may be used to efficiently encapsidate desired moieties, e.g., toxic or therapeutic nucleic acids such as DNA and RNA, and the resultant pseudovirus particles may be used as in vivo delivery vehicles.

A non-human papilloma pseudovirus or virus like particle has at least one papilloma capsid protein codon-optimized for expression in eukaryotic cells or cell lines. A pharmaceutical composition includes the non-human papilloma pseudovirus or virus like particle, and a diagnostic agent, an imaging agent, and a therapeutic agent. A non-human papilloma pseudovirus or virus like particle can be used as a medicament. A method for producing a non-human papilloma pseudovirus or virus like particle involves codon-optimizing of capsid proteins of non-human papillomaviruses for expression in eukaryotic cells, synthesizing of the sequences and cloning of the synthesized sequences into expression vectors, and producing non-human papilloma pseudovirus or virus like particles. .Math.-carrageenan can be used as transduction enhancer for non-human papilloma pseudovirus or virus like particles in vitro.

Some embodiments of the present disclosure are directed to methods and compositions for the treatment of tumors, using a combination of immunotherapeutic agents and tumor-targeting viral capsid protein assemblages comprising anti-cancer molecules conjugated to viral capsid proteins.