758 results about "Tumor specific" patented technology

DNA containing somatic mutations is highly tumor specific and thus, in theory, can provide optimum markers. However, the number of circulating mutant gene fragments is small compared to the number of normal circulating DNA fragments, making it difficult to detect and quantify them with the sensitivity required for meaningful clinical use. We apply a highly sensitive approach to quantify circulating tumor DNA (ctDNA) in body samples of patients. Measurements of ctDNA can be used to reliably monitor tumor dynamics in subjects with cancer, especially those who are undergoing surgery or chemotherapy. This personalized genetic approach can be generally applied.

The present invention is directed to the isolation and use of super-infective, tumor-specific vectors that are strains of parasites including, but not limited to bacteria, fungi and protists. In certain embodiments the parasites include, but are not limited to, the bacterium Salmonella spp., such as Salmonella typhimurium, the bacterium Mycobacterium avium and the protozoan Leishmania amazonensis. In other embodiments, the present invention is concerned with the isolation of super-infective, tumor-specific, suicide gene-containing strains of parasites for use in treatment of solid tumors.

The invention provides methods, systems and reagents for regulating pH-sensitive protein interaction by incorporating non-natural amino acids into the protein (e.g. an antibody, or its functional fragment, derivative, etc.). The invention also relates to specific uses in regulating pH-sensitive binding of antibodies to tumor site, by conferring enhanced tumor-specificity / selectivity. In that embodiment, the non-natural amino acids preferably have desirable side-chain pKa's, such that at below physiological pH (e.g. about pH 6.3-6.5) the non-natural amino acid confer enhanced binding to tumor antigens in acidic environments. Such non-natural amino acids can be incorporated by any suitable means, such as by utilizing a modified aminoacyl-tRNA synthetase to charge the nonstandard amino acid to a modified tRNA, which forms strict Watson-Crick base-pairing with a codon that normally forms wobble base-pairing with natural tRNAs (e.g. the degenerate codon orthogonal system.

The present invention relates to conjugates of a lipid, substrate peptide of an enzyme secreted from the cells of mammals, including humans, and a water-soluble polymer that can be used as colloidal carriers and the like of tissue-specific drug delivery systems, methods of producing these conjugates, peptide-water-soluble polymer conjugates optionally having protective groups that are useful as the intermediates of these conjugates, colloidal carriers made from these conjugates, and tissue-specific drug delivery systems that use these colloidal carriers.

Gene expression profiling reveals four distinct subgroups of multiple myeloma that have significant correlation with various clinical characteristics. Diagnosis for multiple myeloma (and possibly monoclonal gammopathy of undetermined significance) based on differential expression of 14 genes, as well as prognosis for the four subgroups of multiple myeloma based on the expression of 24 genes are established. A 15-gene model that classifies myeloma into 7 groups is also reported. Gene expression profiling also allows placing multiple myeloma into a developmental schema parallel to that of normal plasma cell differentiation. Development of a gene expression- or developmental stage-based classification system for multiple myeloma would lead to rational design of more accurate and sensitive diagnostics, prognostics and tumor-specific therapies for multiple myeloma.

The present invention relates to photosensitizer immunoconjugate compositions and combination therapies for use in cancer related photodynamic treatments and diagnostic methods. Photosensitizer immunoconjugates comprising a photosensitizer conjugated to a tumor-specific and / or tumoricidial antibody and processes for the preparation thereof are described. The use of photosensitizer immunoconjugates (PICs) offers improved photosensitizer delivery specificity for diagnostic and therapeutic applications. Combination therapies to co-localize activated photosensitizer compounds and tumoricidal antibodies in tumor tissues are also described.

The present invention provides methods and compositions to confer and / or augment immune responses mediated by cellular immunotherapy, such as by adoptively transferring genetically modified tumor specific CD8+ T cells in the presence of tumor-specific, subset specific genetically modified CD4+ T cells, wherein the CD4+ T cells confer and / or augment a CD8+ T cells ability to sustain anti-tumor reactivity and increase and / or maximize tumor-specific proliferation of the tumor-specific CD8+ T cells of interest. Pharmaceutical formulations produced by the method, and methods of using the same, are also described.

This invention describes a system for generating multiple simultaneous tunable electron and photon beams and monochromatic x-rays for all field simultaneous radiation therapy (AFSRT), tumor specific AFSRT and screening for concealed elements worn on to the body or contained in a container. Inverse Compton scattering renders variable energy spent electron and tunable monochromatic x-rays. It's spent electron beam is reused for radiation with electron beam or to generate photon beam. Tumor specific radiation with Auger transformation radiation is facilitated by exposing high affinity tumor bound heavy elements with external monochromatic x-rays. Heavy elements like directly iodinated steroid molecule that has high affinity binding to estrogen receptor in breast cancer and to iodinated testosterone in prostate cancer or with directly implanted nanoparticles into the tumor are exposed with tuned external monochromatic x-rays for tumor specific radiation therapy. Likewise, screening element's atom's k, l, m, n shell specific Auger transformation radiation generated by its exposure to external monochromatic x-rays is used to screen for concealed objects. Multiple beam segments from a beam storage ring or from octagonal beam lines are simultaneously switched on for simultaneous radiation with multiple beams. The beam on time to expose a tumor or an object is only a few seconds. It also facilitates breathing synchronized radiation therapy. The intensity modulated radiation therapy (IMRT) and intensity modulated screening for concealed objects (IMSFCO) is rendered by varying beam intensities of multiple simultaneous beams. The isocentric additive high dose rate from simultaneously converging multiple beams, the concomitant hyperthermia and chemotherapy and tumor specific radiation therapy and the AFSRT's very low radiation to the normal tissue all are used to treat a tumor with lower radiation dose and to treat a radioresistant and multiple times recurrent tumors that heave no other alternative treatments.

The invention relates to a chimeric antigen receptor with stable antigen binding units. The chimeric antigen receptor comprises the extracellular antigen binding units, trans-membrane domains and intracellular co-stimulation signal domains. The antigen binding units can be stably expressed as compared with specific tumor targets and comprise heavy chains and light chains which are connected with one another by hinges of SEQ ID NO.2 (sequence identity number.2) amino acid sequence codes. The invention further relates to cells for expressing the receptor and application of the receptor.

The invention relates to a CD47 and PD-L1 targeting bifunctional fusion protein, belongs to the field of biomedicine, and solves the problems that anti-PD-1 / PD-L1 treatment is poor in a low-immunogenicity tumor treatment effect and anti-CD47 treatment is poor in a targeting ability. The fusion protein is composed of a CD47 binding part and a PD-L1 binding part which are linked by a disulfide bond, can block the binding of CD47 and SIRPalpha, can block the binding of PD-L1 and PD-1, can achieve the effects of activating macrophages to phagocytize tumor cells and promoting antigen presentation in natural immunity, can achieve an effect of promoting the activation of tumor specific T cells in acquired immunity, and has lower blood toxicity; and as compared with the single use of anti-PD-L1 or anti-CD47 for treatment, the fusion protein has better antitumor curative effects and blood safety.

The invention belongs to the fields of immunology and cell biology, and relates to a tumor precision T cell containing an efficient killing starting mechanism and an application of the tumor precision T cell, in particular to a CAR (chimeric antigen receptor) having moderate-affinity binding characteristic with a broad-spectrum expression membrane antigen on the tumor cell surface as well as a new-generation tumor precision T cell, namely, Baize T. T cell activation is started rapidly under the action of the CAR having the moderate-affinity binding characteristic, an activation signal of the CAR is superposed with a TCR (T cell receptor) signal with tumor antigen natural recognition capacity in a CTL (tumor-specific cytotoxic T lymphocyte), the CTL is activated to proliferate and grow in a tumor microenvironment, and a tumor cell is killed preciously by the tumor-antigen-specific TCR. The tumor precision T cell has broad anti-tumor application prospect.

Viral vectors and methods of making such vectors are described that preferentially kill neoplastic but not normal cells, the preferred vector being an adenovirus that has the endogenous promoters in the E1A and / or E4 regions substituted with a tumor specific promoter which is preferably E2F responsive.

A nanoparticle including a polysiloxane base having an exterior surface and having a photosensitizer at least partly exposed at its exterior surface, said photosensitizer being secured to the exterior surface by loading the photosensitizer onto the surface after formation of the polysiloxane base of the nanoparticle. The nanoparticle may have tumor targeting moieties and may be post loaded with cyanine dye. The nanoparticle preferably includes post loaded moieties providing at least two of tumor specificity, photodynamic properties and imaging capabilities and the photosensitizer is tagged with a radioisotope. A method for preparation of the nanoparticle is also provided.

The invention relates to the specific expression of heterologous sequences, particularly genes encoding cytotoxic products, in tumor cells under the control of regulatory transcriptional sequences. Particularly preferred promoters include H19 regulatory sequences, the IGF-1 promoter and the IGF-2 P3 and P4 promoters. The invention provides expression constructs and methods of administering such expression constructs. The compositions and methods of the invention are useful in the treatment of cancer.

Novel tumor specific phototherapeutic and photodiagnostic agents are disclosed. The compounds consist of a carbocyanine dye for visualization, photosensitizer for photodynamic treatment, and tumor receptor-avid peptide for site-specific delivery of the probe and phototoxic agent to diseased tissues. A combination of these elements takes full advantage of the unique and efficient properties of each component for an effective patient care management.

pH-Responsive polymer-based protein delivery carriers and compositions, methods for making the carriers and compositions, and methods for using the carriers and compositions for intracellular protein antigen delivery, inducing a cytotoxic T-lymphocyte response, introducing a tumor-specific protein antigen to an antigen presenting cell to induce an immune response, and providing tumor protection to a subject.

Novel tumor specific phototherapeutic and photodiagnostic agents are disclosed. The compounds consist of a carbocyanine dye for visualization, photosensitizer for photodynamic treatment, and tumor receptor-avid peptide for site-specific delivery of the probe and phototoxic agent to diseased tissues. A combination of these elements takes full advantage of the unique and efficient properties of each component for an effective patient care management.

Provided herein are recombinant Listeria strains expressing a tumor-specific antigenic polypeptide and, optionally, an angiogenic polypeptide wherein a nucleic acid molecule encoding at least one of the polypeptides is operably integrated into the Listeria genome in an open reading frame with a nucleic acid sequence encoding a PEST-containing polypeptide, methods of preparing same, and methods of inducing an immune response, and treating, inhibiting, or suppressing cancer or tumors comprising administering same.

The invention discloses a tumor-targeting drug delivery system, and the system comprises a tumor-targeting drug carrier and a tumor-treating drug, wherein the tumor-targeting drug carrier comprises full heavy-chain human ferritin. The invention also discloses a preparation method for the tumor-treating drug delivery system. The method comprises: depolymerizing polymerized full heavy-chain human ferritin; adding the tumor-treating drug into the depolymerized full heavy-chain human ferritin, so as to enable depolymerized full heavy-chain human ferritin to be combined with the tumor-treating drug; and polymerizing the depolymerized full heavy-chain human ferritin combined with the tumor-treating drug again to form nano-particles.

The invention provides tumor-specific human monoclonal antibodies and functional fragments. Also provided are nucleic acids encoding tumor-specific human monoclonal antibodies and functional fragments. A method for reducing neoplastic cell proliferation is also provided. The method consists of administering an effective amount of a tumor-specific human monoclonal antibody or functional fragment. Also provided is a method of detecting a neoplastic cell in a sample. The method consists of contacting a cell with a tumor-specific monoclonal antibody or functional fragment and detecting the specific binding of the human monoclonal antibody or functional fragment to the sample.

Improved radioiodinated phospholipid ether analogs are described which exhibit significant tumor avidity and longer plasma half-life relative to shorter chain analogs. Use of these compounds results in superior imaging and visualization of neoplastic lesions and tumor-specific cytotoxic cancer therapy.

The invention belongs to the technical fields of immunology and tumor therapy, and relates to a preparation method and a use of a TCR gene modified CD8+T memory stem cell. The method comprises the following steps: co-incubating a tumor antigen and an immature dendritic cell to obtain a specific tumor antigen-supported mature dendritic cell, co-culturing the specific tumor antigen-supported maturedendritic cell and a CD8+ naive T cell, and adding a stem cell differentiation inhibitor to promote the generation of a CD8+ stem cell-like memory T lymphocyte; separating the CD8+ stem cell-like memory T lymphocyte; and cloning a T cell receptor gene (TCR) for specifically identifying a specific antigenic epitope, and carrying out lentivirus packaging or retroviral vector cotransfection on an autologous CD8+ Tscm cell to in-vitro prepare a CD8+ TCR-Tscm cell specific for different tumor specific antigens. The CD8+ TCR-Tscm cell prepared by the method has the advantages of overcoming of the tumor heterogeneity, high specificity, few adverse reactions, and highly-efficient and lasting tumor preventing and treating effects.