Patents
Literature
Hiro is an intelligent assistant for R&D personnel, combined with Patent DNA, to facilitate innovative research.
Hiro

80 results about "Apoptotic cell death" patented technology

Apoptosis - Definition. Apoptosis or programmed cell death is the process by which the cells destroy themselves after receiving a signal. Cell death is a genetically programmed natural phenomenon that enables the elimination of useless cells.

TRPM-2 antisense therapy

It has now been determined that antisense therapy which reduces the expression of TRPM-2 provides therapeutic benefits in the treatment of cancer. In particular, such antisense therapy can be applied in treatment of prostate cancer and renal cell cancer. Addition of antisense TRPM-2 ODN to prostatic tumor cells in vivo is effective for delaying the onset of androgen independence. Thus, prostate cancer can be treated in an individual suffering from prostate cancer by initiating androgen-withdrawal to induce apoptotic cell death of prostatic tumor cells in the individual, and administering to the individual a composition effective to inhibit expression of TRPM-2 by the tumor cells, thereby delaying the progression of prostatic tumor cells to an androgen-independent state in an individual Combined use of antisense TRPM-2 and taxanes synergistically enhances cytotoxic chemosensitivity of androgen-independent prostate cancer. In addition, it has also been found that antisense TRPM-2 has beneficial effect for other cancer types. Specifically, antisense TRPM-2 ODN enhances chemosensitivity in human Renal cell cancer, a normally chemoresistant disease with no active chemotherapeutic agent having an objective response rate higher than 10%. Radiation sensitivity is also enhanced when cells expressing TRPM-2 are treated with antisense TRPM-2 ODN. Thus, the antisense TRPM-2 ODNs can be used to enhance hormone sensitivity, chemosensitivity and radiation sensitivity of a variety of cancer types in which expression of TRPM-2 has been observed.
Owner:THE UNIV OF BRITISH COLUMBIA

Akt compositions for enhancing survival of cells

InactiveUS7368420B1Efficiently genetically modifyOrganic active ingredientsVirusesSkeletal MyocytesVascular endothelium
This invention relates to methods and compositions for the treatment of apoptotic cell-death. In particular the invention relates to Akt molecules and their use in inhibiting apoptotic cell-death in cardiomyocytes, skeletal myocytes and / or vascular endothelial cells. In view of these discoveries, Akt molecules can be used to inhibit apoptotic cell-death of any of the foregoing cells, and in particular, to treat conditions (e.g., myocardial infarction) that result in increased apoptotic cell-death of cardiomyocytes, skeletal myocytes and / or vascular endothelial cells.
Owner:STEWARD RES & SPECIALTY PROJECTS

Inhibition of dynamin related protein 1 to promote cell death

The present invention relates to compositions and methods for reducing cell proliferation and / or promoting cell death by inhibiting Drp1. It is based, at least in part, on the discoveries that (i) Drp1 disruption-induced mitochondrial hyperfusion is functionally linked to the cell cycle regulation apparatus, so that Drp1 inhibition results in a disruption of the cell cycle and DNA aberrancies; (ii) inhibition of both Drp1 and ATR are synthetic lethal causing increased DNA damage and apoptotic cell death; and (iii) even in resistant cell lines, Drp1 inhibitor (e.g., mdivi-1) together with a second antiproliferative agent (e.g., cisplatin or carboplatin) act synergistically to promote apoptosis. Accordingly, the present invention provides for novel anticancer strategies.
Owner:UNIVERSITY OF PITTSBURGH

Methods for modulating apoptotic cell death

Proteinaceous transcription factors that regulate the transcription of genes and / or the translation of messenger RNA encoding proteins involved in apoptosis, such as CD95 and p53, are disclosed, together with methods for the use of such transcription factors in the modulation of apoptotic cell death. Methods for regulating apoptosis have therapeutic and prophylactic applications for a variety of disorders, including cancer, viral and retroviral infections, neurodegenerative disorders, immune system dysfunction, and other disorders.
Owner:GENESIS RES & DEV

Homo- and heterodimeric SMAC mimetic compounds as apoptosis inducers

The present invention relates to conformationally constrained homo- and heterodimeric mimetics of Smac with function as inhibitors of Inhibitor of Apoptosis Proteins (IAPs), the invention also relates to the use of these compounds in therapy, wherein the induction of apoptotic cell death is beneficial, especially in the treatment of cancer, alone or in combination with other active ingredients.
Owner:BIONTECH AG

Diazo bicyclic smac mimetics and the uses thereof

The invention relates to diazo bicyclic mimetics of Smac which function as inhibitors of Inhibitor of Apoptosis Proteins. The invention also relates to the use of these mimetics for inducing apoptotic cell death and for sensitizing cells to inducers of apoptosis.
Owner:RGT UNIV OF MICHIGAN

Diazo bicyclic Smac mimetics and the uses thereof

The invention relates to diazo bicyclic mimetics of Smac which function as inhibitors of Inhibitor of Apoptosis Proteins. The invention also relates to the use of these mimetics for inducing apoptotic cell death and for sensitizing cells to inducers of apoptosis.
Owner:RGT UNIV OF MICHIGAN

Dipeptide apoptosis inhibitors and the use thereof

InactiveUS6949516B2Potent inhibitor of antiFas-induced lethalityRobust effectVectorsDipeptide ingredientsDipeptideApoptosis
Owner:CYTOVIA INC

Materials and Methods Useful to Induce Cell Death via Methuosis

The present invention provides materials and methods to induce cell death by methuosis, a non-apoptotic cell death mechanism. Small molecules herein are useful for treating cell proliferation disorders or anomalies, particularly, but not exclusively, cancer. Methods related to the research and pharmaceutical use of the small molecules are also provided herein.
Owner:UNIVERSITY OF TOLEDO

Gossypol co-crystals and the use thereof

This invention relates to compositions comprising co-crystals of (−)-gossypol with a C1-8 carboxylic acid or C1-8 sulfonic acid which are useful as inhibitors of Bcl-2 family proteins. The invention also relates to the use of co-crystals of (−)-gossypol with a C1-8 carboxylic acid or C1-8 sulfonic acid for inducing apoptosis in cells and for sensitizing cells to the induction of apoptotic cell death.
Owner:RGT UNIV OF MICHIGAN

TRPM-2 Antisense Therapy

It has now been determined that antisense therapy which reduces the expression of TRPM-2 provides therapeutic benefits in the treatment of cancer. In particular, such antisense therapy can be applied in treatment of prostate cancer and renal cell cancer. Addition of antisense TRPM-2 ODN to prostatic tumor cells in vivo is effective for delaying the onset of androgen independence. Thus, prostate cancer can be treated in an individual suffering from prostate cancer by initiating androgen-withdrawal to induce apoptotic cell death of prostatic tumor cells in the individual, and administering to the individual a composition effective to inhibit expression of TRPM-2 by the tumor cells, thereby delaying the progression of prostatic tumor cells to an androgen-independent state in an individual Combined use of antisense TRPM-2 and taxanes synergistically enhances cytotoxic chemosensitivity of androgen-independent prostate cancer. In addition, it has also been found that antisense TRPM-2 has beneficial effect for other cancer types. Specifically, antisense TRPM-2 ODN enhances chemosensitivity in human Renal cell cancer, a normally chemoresistant disease with no active chemotherapeutic agent having an objective response rate higher than 10%. Radiation sensitivity is also enhanced when cells expressing TRPM-2 are treated with antisense TRPM-2 ODN. Thus, the antisense TRPM-2 ODNs can be used to enhance hormone sensitivity, chemosensitivity and radiation sensitivity of a variety of cancer types in which expression of TRPM-2 has been observed.
Owner:THE UNIV OF BRITISH COLUMBIA

Inhibition of dynamin related protein 1 to promote cell death

The present invention relates to compositions and methods for reducing cell proliferation and / or promoting cell death by inhibiting Drp1. It is based, at least in part, on the discoveries that (i) Drp1 disruption-induced mitochondrial hyperfusion is functionally linked to the cell cycle regulation apparatus, so that Drp1 inhibition results in a disruption of the cell cycle and DNA aberrancies; (ii) inhibition of both Drp1 and ATR are synthetic lethal causing increased DNA damage and apoptotic cell death; and (iii) even in resistant cell lines, Drp1 inhibitor (e.g., mdivi-1) together with a second antiproliferative agent (e.g., cisplatin or carboplatin) act synergistically to promote apoptosis. Accordingly, the present invention provides for novel anticancer strategies.
Owner:UNIVERSITY OF PITTSBURGH

Materials and Methods Useful to Induce Vacuolization, Cell Death, or a Combination Thereof

The present invention provides materials and methods to induce cell death by methuosis, a non-apoptotic cell death mechanism, to induce vacuolization without cell death, or to induce cell death without vacuolization. Small molecules herein are useful for treating cell proliferation disorders or anomalies, particularly, but not exclusively, cancer. Methods related to the research and pharmaceutical use of the small molecules are also provided herein.
Owner:UNIVERSITY OF TOLEDO

Combinatorial expression of split caspase molecules

The present invention relates to the use of split caspase proteins to determine whether or not promoters are coordinately active, whereby the transcriptional expression of incomplete portions of a caspase protein is controlled by different promoters and coordinate (not necessarily contemporaneous) promoter activity results in formation of an activated caspase protein and, consequently, apoptotic cell death. The present invention further provides for the use of an additional promoter element controlling expression of a “caspase neutralizing protein,” which, when present, inhibits the apoptotic effect of the assembled caspase subunits. Rescue of cells that actively transcribe the complementary caspase subunits indicates that all promoters of the system are coordinately active. The present invention, in non-limiting embodiments, may be used to selectively ablate cells in the context of cultures as well as intact organisms, and provides means of demonstrating coordinate activity of multiple promoters.
Owner:THE TRUSTEES OF COLUMBIA UNIV IN THE CITY OF NEW YORK

Bivalent diazo bicyclic Smac mimetics and the uses thereof

The invention relates to diazo bicyclic Smac mimetics that are tethered through a covalent linker to give a bivalent species. Bivalent diazo bicyclic Smac mimetics function as inhibitors of Inhibitor of Apoptosis Proteins (IAPs). The invention also relates to the use of bivalent diazo bicyclic Smac mimetics for inducing or sensitizing cells to the induction of apoptotic cell death. Thus, compounds of the invention are useful in the treatment, amelioration, or prevention of hyperproliferative diseases such as cancer.
Owner:RGT UNIV OF MICHIGAN
Who we serve
  • R&D Engineer
  • R&D Manager
  • IP Professional
Why Patsnap Eureka
  • Industry Leading Data Capabilities
  • Powerful AI technology
  • Patent DNA Extraction
Social media
Patsnap Eureka Blog
Learn More
PatSnap group products