The invention discloses a human adenovirus species C having a capsid which comprises a modified adenovirus hexon protein, wherein the modified adenovirus hexon protein has a modified HVR1 region, wherein the modified HVR1 region has the sequence DEAATALEINLKKKKQAEQQ (SEQ ID NO.: 1). The invention further discloses the adenovirus of the disclosure for use in treating or preventing a human disease. The invention further discloses a nucleic acid encoding the modified adenovirus hexon protein. The invention further discloses the use of an adenovirus according to the disclosure for transducing mesenchymal stromal cells (MSCs) or tumor cells. The invention further discloses an in vitro method for transducing MSCs and a transduced MSC obtainable by the method. The invention further discloses the transduced MSC of the disclosure for use in treating a disease.

This invention relates to preparations comprising adenoviral vectors with modified capsid proteins. These modified capsid proteins enable customisable decoration of the adenoviral vector to be performed, enabling diverse applications from personalised cancer vaccines to targeted gene therapy vectors, and mixtures of the same. In particular, the adenoviral vectors with modified capsid proteins may be modified in the hexon and/or pIX capsid proteins. The invention makes use of peptide pairs to provide a “primed” adenovirus which is ready for decoration.

The present invention relates to a novel gene delivery system and recombinant adenovirus including the relaxin-encoding sequence to enhance transduction efficiency of transgenes, a pharmaceutical anti-tumor composition including the recombinant adenovirus, a pharmaceutical composition having improved tissue penetration potency and a pharmaceutical composition for treating a disease or disorder associated with accumulation of excess extracellular matrix.

The present invention is related to a combination of an adenovirus, a CDK4/inhibitor and at least one further agent selected from the group comprising a PARP inhibitor, a bromodomain inhibitor, nutlin or a derivative of nutlin.

Disclosed is a process of making a nanoparticle comprising an inner core comprising a virus and an outer surface comprising a cellular membrane derived from a cell via extrusion.

The present invention relates to the fields of life sciences and medicine. Specifically, the invention relates to cancer therapies of humans. More specifically, the present invention relates to an oncolytic adenoviral vector encoding a bispecific monoclonal antibody. Furthermore, the present invention relates to methods and uses utilizing the oncolytic adenoviral vectors, also together with adoptive cell therapies.

A method of purifying a composition comprising a group B adenovirus, for example comprising a purification step of: subjecting a composition comprising said group B adenovirus to diafiltration employing a diafiltration-buffer with a conductivity of at least 180 mScm.sup.−1, for example a conductivity of 190, 200, 210, 220, 230, 240, 250, 260, 270, 280, or 290 mScm.sup.−1. Also provided is a composition obtained using the purification method disclosed herein.

The present invention relates to an anti-tumor adenovirus and an anticancer composition comprising same. Double-stranded siRNA of the present invention simultaneously inhibits the expression of a first nucleic acid and a second nucleic acid, thus promoting the death of cancer cells, exhibits more remarkable anticancer activity as compared to co-treatment of respective siRNAs, has a synergistic effect of improving cancer cell death in combined treatment with an anticancer agent. The adenovirus comprising a shRNA-encoding expression cassette expressing the double-stranded siRNA, and a hTERT promoter evades immune responses in the body and is specifically delivered to cancer cells, thus having a systemic therapeutic effect, can be locally delivered, has excellent selectivity, and exhibits a significant anticancer effect even in minimally invasive treatment, and thus, the adenovirus can be effectively used as an anticancer composition or an anticancer adjuvant in various carcinomas.

The present invention provides methods for treating an individual having bladder cancer comprising intravesically administering to the individual an oncolytic virus. Also provided are pharmaceutical compositions and kits for treating bladder cancer.

Provided are embodiments of replicative oncolytic adenovirus AD5 ApoA1 for inhibiting tumor growth and metastasis and use thereof in preparation of anti-tumor drugs. The virus can rapidly replicate in tumor cells and exert an oncolytic effect. Tumor cells infected with the virus can highly express apolipoprotein ApoA1 which can be secreted extracellularly in large quantities, significantly inhibit the invasion and metastasis of tumor cells, inhibit tumor-promoting inflammation pathways, and significantly reduce a IDO-1 which is a key molecule that leads to tumor immune escape. The virus can significantly inhibit tumor growth, inhibit tumor invasion, delay progression of cachexia and prolong the survival time of tumor-bearing mice in mice with liver cancer, breast cancer, colon cancer, or lung cancer.