A method, system, and apparatus for treating a patient with HIV. A vector can be modified from a thymidine kinase gene. The modified vector is expressed in the presence of tat RNA. The modified vector is then package and delivered to HIV-infected cells. The replication of HIV is inhibited by eliminating infected cells in the presence of Ganciclovir. Modified cells are then selected utilizing transient tat RNA transfection and GFP expression. Vector-modified stem cells are then selected for transplantation back into the patient, thereby producing a normal immune system in the patient when the modified vector remains dormant in the absence of HIV tat.

The presently disclosed subject matter provides compositions, methods, and kits for transfecting adipose-derived mesenchymal stem cells (AMSCs) in freshly extracted adipose tissue using nanoparticles comprising biodegradable polymers self-assembled with nucleic acid molecules. The presently disclosed subject matter also provides methods for treating a neurological disease in a patient in need thereof, the method comprising administering the AMSCs transfected with the nucleic acid molecules to the patient, wherein the nucleic acid molecules encode one or more bioactive molecules functional in the treatment of a neurological disease, particularly wherein the neurological disease is a brain tumor.

An object of the invention is to provide a novel pharmaceutical composition. The pharmaceutical composition of the disclosure contains a DNA encoding a suicide gene having at least one intron sequence. The intron sequence has a donor sequence or an acceptor sequence to be used in a tumor cell with abnormal splicing not in a normal cell. In a transcript of the DNA, the suicide gene is expressed when the intron is abnormally spliced and the suicide gene is not expressed when the intron is not abnormally spliced.

An oncolytic virus with improved safety and anticancer effects and uses thereof are disclosed. The oncolytic virus contains a recombinant nucleic acid including a nucleotide sequence encoding an effector domain derived from herpes simplex virus thymidine kinase (HSV-TK). The oncolytic virus can express an HSV-TK fragment which contains an effector domain composed of a minimum amino acid sequence capable of phosphorylating GCV or ACV while having no thymidine kinase (TK) activity, or a variant thereof to phosphorylate GCV or ACV, thereby killing cancer cells infected with the oncolytic virus and even neighboring cancer cells.

Nucleic acid sequences encoding improved Herpes Simplex Virus Thymidine Kinases are provided, including their use in diagnostic and therapeutic applications. The thymidine kinases may be mutated using conservative mutations, non-conservative mutations, or both. Also provided are gene therapeutic systems, including viral and retroviral particles.

Modified macrophage immune cells are provided for treatment of cancer and other diseases.

Disclosed is a gene therapy vector in which the occurrence of recombination is minimized. In order to minimize the occurrence of recombination, which is a major problem in the production and infection of a retroviral vector virus that continuously expresses a therapeutic gene during virus replication, a cleaved MCMV promoter was prepared by cutting the MCMV promoter on the basis of a repeat sequence, and the cleaved MCMV promoter was introduced to prepare a vector. It was confirmed that the vector having the cleaved MCMV promoter incorporated therein does not cause recombinations even after being incubated multiple times, and shows a continuous expression of the therapeutic protein, and in cells transfected with the virus containing the vector, cell death effectively occurs when a prodrug is administered thereto. Accordingly, the vector with minimized recombination occurrence of the present invention can be advantageously used for the treatment of cancer.

Provided herein are methods and compositions for a suicide gene approach comprising an expression vector comprising a cell cycle-dependent promoter driving the expression of a suicide gene. Also provided herein are methods to render proliferative cells sensitive to a prodrug after transplantation but avoids expression of the suicide gene in post-mitotic cells, such as neurons.

Methods of treating a cancer in a patient are provided. The methods can include obtaining a tumor sample from a patient, detecting whether CCNG1 gene expression is present in the tumor sample, diagnosing the patient with a CCNG1 inhibitor-responsive cancer when the presence of CCNG1 gene expression in the tumor sample is detected, and/or administering an effective amount of a CCNG1 inhibitor to the diagnosed patient. CCNG1 inhibitors can include a viral vector having a binding peptide that is configured to bind one or more signature (SIG) elements of an invading tumor and at least one cytocidal gene. CCNG1 inhibitors including cell penetrating peptides are also provided.

A method is disclosed for decreasing or retarding an increase in the size of a localized or metastatic tumor by using a combination of an immune stimulating cytotoxic gene therapy and immune-checkpoint modulating agent, in conjunction with other therapies, including radiation therapy, chemotherapy, surgery, and immunotherapies.