SYNTAXIN LIMITED Patent applications |
Patent application number | Title | Published |
20150038401 | CARRIER FOR TARGETING NERVE CELLS - The present invention relates to a transport protein which can be obtained by modifying the heavy chain of the neurotoxin formed by | 02-05-2015 |
20150030584 | TRANSPORT PROTEIN WHICH IS USED TO INTRODUCE CHEMICAL COMPOUNDS INTO NERVE CELLS - The invention relates to a transport protein which can be obtained by modifying the heavy chain of the neurotoxin formed by | 01-29-2015 |
20140302006 | SUPPRESSION OF NEUROENDOCRINE DISEASES - The present invention relates to a method for suppressing neuroendocrine disease. The therapy employs use of a non-cytotoxic protease, which is targeted to a neuroendocrine tumour cell, preferably via a somatostatin or cortistatin receptor, a GHRH receptor, a ghrelin receptor, a bombesin receptor, a urotensin receptor a melanin-concentrating hormone receptor 1; a KiSS-1 receptor or a prolactin-releasing peptide receptor. When so delivered, the protease is internalised and inhibits secretion from said tumour cell. The present invention also relates to polypeptides and nucleic acids for use in said methods. | 10-09-2014 |
20140286925 | SUPPRESSION OF CANCER - The present invention relates to polypeptides for use in suppressing cancer and cancer disorders. The treatment employs use of a non-cytotoxic protease, which is targeted to the cancer cell, and, when so delivered, the protease is internalised and inhibits secretion from the cancer cell. | 09-25-2014 |
20140219983 | SUPPRESSION OF CANCERS - The present invention relates to a method for suppressing or treating cancer, in particular to a method for suppressing or treating one or more of colorectal cancer, breast cancer, prostate cancer and/or lung cancer. The therapy employs use of a non-cytotoxic protease, which is targeted to a growth hormone-secreting cell such as to a pituitary cell. When so delivered, the protease is internalised and inhibits secretion/transmission of growth hormone from said cell. The present invention also relates to polypeptides and nucleic acids for use in said methods. | 08-07-2014 |
20140147429 | THERAPEUTIC FUSION PROTEINS - The present invention relates to the construction of a new class of Targeted Secretion Inhibitors (TSIs), which comprise a non-cytotoxic protease, translocation peptide and a targeting moiety peptide, wherein the targeting moiety peptide has a free N-terminal domain and a free C-terminal domain; to a single-chain fusion protein precursor thereof, and to a method of activating said single-chain fusion protein precursor. | 05-29-2014 |
20140056870 | FUSION PROTEINS - A single chain, polypeptide fusion protein, comprising: a non-cytotoxic protease, which cleaves a protein of the exocytic fusion apparatus of a nociceptive sensory afferent; a galanin Targeting Moiety that binds a Binding Site on the nociceptive sensory afferent, which can undergo endocytosis to be incorporated into an endosome; a protease cleavage site where the fusion protein is cleavable by a protease located between the non-cytotoxic protease and the galanin Targeting Moiety; a translocation domain that translocates the protease from within an endosome, across the endosomal membrane and into the cytosol of the nociceptive sensory afferent; a first spacer from 4 to 25 amino acids between the non-cytotoxic protease and protease cleavage site; and a second spacer comprising from 4 to 35 residues between the galanin Targeting Moiety and translocation domain. Nucleic acid sequences encoding the polypeptide fusion proteins, methods of preparing same and uses thereof are also described. | 02-27-2014 |
20130315888 | CARRIER FOR TARGETING NERVE CELLS - The present invention relates to a transport protein which can be obtained by modifying the heavy chain of the neurotoxin formed by | 11-28-2013 |
20130122526 | METHOD OF PREPARING A FUSION PROTEIN FOR THE INHIBITION OR REDUCTION OF SECRETION OF AN EXTRACELLULAR MEDIATOR FROM A TARGET CELL - The present invention provides a method for designing a re-targeted toxin conjugate for use in treating a medical condition or disease. Also provided, is the use of said conjugates in the manufacture of a medicament for treating medical conditions or diseases. The conjugates include a Targeting Moiety, which directs the conjugate to a desired target cell, and are characterised by a Targeting Moiety that increases exocytic fusion in the target cell. The present invention also provides methods for identifying agonists suitable for use as Targeting Moieties, and methods for preparing conjugates comprising said Targeting Moieties. | 05-16-2013 |
20130115682 | FUSION PROTEINS - The invention provides a single chain, polypeptide fusion protein, comprising: a non-cytotoxic protease, or a fragment thereof, which protease or protease fragment is capable of cleaving a protein of the exocytic fusion apparatus of a target cell; a Targeting Moiety that is capable of binding to a Binding Site on the target cell, which Binding Site is capable of undergoing endocytosis to be incorporated into an endocome within the target cell; a protease cleaving site at which site the fusion protein is cleavable by the protease, wherein the protease cleavage site is located between the non-cytotoxic protease or fragment thereof and the Targeting Moiety; and the translocation domain that is capable of translocating the protease or protease fragment from within an endosome, across the endosomal membrane and into the cytosol of the target cell. | 05-09-2013 |
20120230975 | FUSION PROTEINS - A single chain, polypeptide fusion protein, comprising: a non-cytotoxic protease, or a fragment thereof, which protease or protease fragment can cleave a protein of the exocytic fusion apparatus of a nociceptive sensory afferent; a Targeting Moiety that can bind to a Binding Site on the nociceptive sensory afferent, which Binding Site can undergo endocytosis to be incorporated into an endosome within the nociceptive sensory afferent; a protease cleavage site at which site the fusion protein is cleavable by a protease, which is located between the non-cytotoxic protease and the Targeting Moiety; and a translocation domain that can translocate the protease or protease fragment from within an endosome, across the endosomal membrane and into the cytosol of the nociceptive sensory afferent; wherein the Targeting Moiety is BAM, β-endorphin, bradykinin, substance P, dynorphin and/or nociceptin. Nucleic acid sequences encoding the fusion proteins, methods of preparing same and uses thereof are also described. | 09-13-2012 |
20120189610 | TREATMENT OF PAIN - Use of a therapeutic molecule, for the treatment of specific pain conditions, wherein the therapeutic molecule is a single chain, polypeptide fusion protein, comprising: a non-cytotoxic protease, or a fragment thereof, which protease or protease fragment can cleave a protein of the exocytic fusion apparatus of a nociceptive sensory afferent; a Targeting Moiety that can bind to a Binding Site on the nociceptive sensory afferent, which Binding Site can undergo endocytosis to be incorporated into an endosome within the nociceptive sensory afferent; a protease cleavage site at which site the fusion protein is cleavable by a protease, wherein the protease cleavage site is located between the non-cytotoxic protease or fragment thereof and the Targeting Moiety; and a translation domain that can translocate the protease or protease fragment from within an endosome, across the endosomal membrane and into the cytosol of the nociceptive sensory afferent. | 07-26-2012 |
20120149084 | FUSION PROTEINS - The invention provides a single chain, polypeptide fusion protein, comprising: a non-cytotoxic protease, or a fragment thereof, which protease or protease fragment is capable of cleaving a protein of the exocytic fusion apparatus of a target cell; a Targeting Moiety that is capable of binding to a Binding Site on the target cell, which Binding Site is capable of undergoing endocytosis to be incorporated into an endocome within the target cell; a protease cleaving site at which site the fusion protein is cleavable by the protease, wherein the protease cleavage site is located between the non-cytotoxic protease or fragment thereof and the Targeting Moiety; and the translocation domain that is capable of translocating the protease or protease fragment from within an endosome, across the endosomal membrane and into the cytosol of the target cell. | 06-14-2012 |
20120128700 | CONSTRUCTS FOR DELIVERY OF THERAPEUTIC AGENTS TO NEURONAL CELLS - A non-toxic polypeptide, for delivery of a therapeutic agent to a neuronal cell, comprises a binding domain that binds to the neuronal cell, and a translocation domain that translocates the therapeutic agent into the neuronal cell, wherein the translocation domain is not a H | 05-24-2012 |
20120128649 | MODIFIED NON-CYTOTOXIC PROTEASES - The present invention relates to a modified polypeptide comprising a non-cytotoxic protease, a translocation domain, a destructive protease cleavage site and a Targeting Moiety that binds to a Binding Site on a nerve cell, wherein after cleavage of the destructive cleavage site the polypeptide has reduced potency. The destructive cleavage site is recognised and cleaved by a protease present at or in an off-site target cell, and, in one embodiment, the polypeptide is a modified clostridial neurotoxin. The present invention also relates to the use of said polypeptides for treating a range of conditions, and to nucleic acids encoding said polypeptides. | 05-24-2012 |
20120101027 | INHIBITION OF SECRETION FROM NON-NEURONAL CELLS - The present invention relates to treatment of disease by inhibition of cellular secretory processes, to agents and compositions therefor, and to manufacture of those agents and compositions. The present invention relates particularly, to treatment of disease dependent upon the exocytotic activity of endocrine cells, exocrine cells, inflammatory cells, cells of the immune system, cells of the cardiovascular system and bone cells. | 04-26-2012 |
20110262423 | SUPPRESSION OF CANCER - The present invention relates to polypeptides for use in suppressing cancer and cancer disorders. The treatment employs use of a non-cytotoxic protease, which is targeted to the cancer cell, and, when so delivered, the protease is internalised and inhibits secretion from the cancer cell. | 10-27-2011 |
20110177056 | NON-CYTOTOXIC FUSION PROTEINS COMPRISING EGF MUTEINS - The present invention relates to fusion proteins comprising a non-cytotoxic protease and a EGF mutein ligand. The EGF mutein provides improved EGF receptor activation for the claimed fusion proteins. Also provided is the use of said polypeptides as therapeutics for suppressing mucus hypersecretion, inflammation, endocrine neoplasia and/or neuroendocrine disorders, neuroendocrine tumours, for suppressing cancers such as colorectal cancer, prostate cancer, breast cancer, and lung cancer. | 07-21-2011 |
20110171191 | SUPPRESSION OF NEUROENDOCRINE DISEASES - The present invention relates to a method for suppressing neuroendocrine disease. The therapy employs use of a non-cytotoxic protease, which is targeted to a neuroendocrine tumour cell, preferably via a somatostatin or cortistatin receptor, a GHRH receptor, a ghrelin receptor, a bombesin receptor, a urotensin receptora melanin-concentrating hormone receptor 1; a KiSS-1 receptor or a prolactin-releasing peptide receptor. When so delivered, the protease is internalised and inhibits secretion—from said tumourcell. The present invention also relates to polypeptides and nucleic acids for use in said methods. | 07-14-2011 |
20110165137 | SUPPRESSION OF CANCERS - The present invention relates to a method for suppressing or treating cancer, in particular to a method for suppressing or treating one or more of colorectal cancer, breast cancer, prostate cancer and/or lung cancer. The therapy employs use of a non-cytotoxic protease, which is targeted to a growth hormone-secreting cell such as to a pituitary cell. When so delivered, the protease is internalised and inhibits secretion/transmission of growth hormone from said cell. The present invention also relates to polypeptides and nucleic acids for use in said methods. | 07-07-2011 |
20110160135 | SUPPRESSION OF NEUROENDOCRINE DISEASES - The present invention relates to a method for suppressing neuroendocrine disease. The therapy employs use of a non-cytotoxic protease, which is targeted to a neuroendocrine tumour cell, preferably via a somatostatin or cortistatin receptor, a GHRH receptor, a ghrelin receptor, a bombesin receptor, a urotensin receptor a melanin-concentrating hormone receptor 1; a KiSS-1 receptor or a prolactin-releasing peptide receptor. When so delivered, the protease is internalised and inhibits secretion from said tumour cell. The present invention also relates to polypeptides and nucleic acids for use in said methods. | 06-30-2011 |
20110158973 | SUPPRESSION OF CANCERS - The present invention relates to a method for suppressing or treating cancer, in particular to a method for suppressing or treating one or more of colorectal cancer, breast cancer, prostate cancer and/or lung cancer. The therapy employs use of a non-cytotoxic protease, which is targeted to a growth hormone-secreting cell such as to a pituitary cell. When so delivered, the protease is internalised and inhibits secretion/transmission of growth hormone from said cell. The present invention also relates to polypeptides and nucleic acids for use in said methods. | 06-30-2011 |
20110152174 | INHIBITION OF SECRETION FROM NON-NEURONAL CELLS - The present invention relates to treatment of disease by inhibition of cellular secretory processes, to agents and compositions therefor, and to manufacture of those agents and compositions. The present invention relates particularly, to treatment of disease dependent upon the exocytotic activity of endocrine cells, exocrine cells, inflammatory cells, cells of the immune system, cells of the cardiovascular system and bone cells. | 06-23-2011 |
20110091437 | FUSION PROTEINS - A single chain, polypeptide fusion protein, comprising: a non-cytotoxic protease, or a fragment thereof, which protease or protease fragment is capable of cleaving a protein of the exocytic fusion apparatus of a nociceptive sensory afferent; a dynorphin Targeting Moiety that is capable of binding to a Binding Site on the nociceptive sensory afferent, which Binding Site is capable of undergoing endocytosis to be incorporated into an endosome within the nociceptive sensory afferent; a protease cleavage site at which site the fusion protein is cleavable by a protease, wherein the protease cleavage site is located between the non-cytotoxic protease or fragment thereof and the dynorphin Targeting Moiety; and a translocation domain that is capable of translocating the protease or protease fragment from within an endosome, across the endosomal membrane and into the cytosol of the nociceptive sensory afferent. Nucleic acid sequences encoding the polypeptide fusion proteins, methods of preparing same and uses thereof are also described. | 04-21-2011 |
20100034802 | TREATMENT OF PAIN - Use of a therapeutic molecule, for the treatment of specific pain conditions, wherein the therapeutic molecule is a single chain, polypeptide fusion protein, comprising: a non-cytotoxic protease, or a fragment thereof, which protease or protease fragment is capable of cleaving a protein of the exocytic fusion apparatus of a nociceptive sensory afferent; a Targeting Moiety that is capable of binding to a Binding Site on the nociceptive sensory afferent, which Binding Site is capable of undergoing endocytosis to be incorporated into an endosome within the nociceptive sensory afferent; a protease cleavage site at which site the fusion protein is cleavable by a protease, wherein the protease cleavage site is located between the non-cytotoxic protease or fragment thereof and the Targeting Moiety; and a translocation domain that is capable of translocating the protease or protease fragment from within an endosome, across the endosomal membrane and into the cytosol of the nociceptive sensory afferent. | 02-11-2010 |
20100022751 | RECOMBINANT TOXIN FRAGMENTS - A single polypeptide is provided which comprises first and second domains. The first domain enables the polypeptide to cleave one or more vesicle or plasma-membrane associated proteins essential to exocytosis, and the second domain enables the polypeptide to be translocated into a target cell or increases the solubility of the polypeptide, or both. The polypeptide thus combines useful properties of a clostridial toxin, such as a botulinum or tetanus toxin, without the toxicity associated with the natural molecule. The polypeptide can also contain a third domain that targets it to a specific cell, rendering the polypeptide useful in inhibition of exocytosis in target cells. Fusion proteins comprising the polypeptide, nucleic acids encoding the polypeptide and methods of making the polypeptide are also provided. Controlled activation of the polypeptide is possible and the polypeptide can be incorporated into vaccines and toxin assays. | 01-28-2010 |
20090274708 | Recombinant Toxin Fragments - Antigenic compositions are provided comprising a single chain polypeptide comprising first and second domains, wherein said first domain is a clostridial neurotoxin light chain or a fragment or a variant thereof and is capable of cleaving one or more vesicle or plasma membrane associated proteins essential to exocytosis; and said second domain is a clostridial neurotoxin heavy chain H | 11-05-2009 |
20090246827 | RECOMBINANT TOXIN FRAGMENTS - A single polypeptide is provided which comprises first and second domains. The first domain enables the polypeptide to cleave one or more vesicle or plasma-membrane associated proteins essential to exocytosis, and the second domain enables the polypeptide to be translocated into a target cell or increases the solubility of the polypeptide, or both. The polypeptide thus combines useful properties of a clostridial toxin, such as a botulinum or tetanus toxin, without the toxicity associated with the natural molecule. The polypeptide can also contain a third domain that targets it to a specific cell, rendering the polypeptide useful in inhibition of exocytosis in target cells. Fusion proteins comprising the polypeptide, nucleic acids encoding the polypeptide and methods of making the polypeptide are also provided. Controlled activation of the polypeptide is possible and the polypeptide can be incorporated into vaccines and toxin assays. | 10-01-2009 |
20090148888 | RECOMBINANT TOXIN FRAGMENTS - A single polypeptide is provided which comprises first and second domains. The first domain enables the polypeptide to cleave one or more vesicle or plasma-membrane associated proteins essential to exocytosis, and the second domain enables the polypeptide to be translocated into a target cell or increases the solubility of the polypeptide, or both. The polypeptide thus combines useful properties of a clostridial toxin, such as a botulinum or tetanus toxin, without the toxicity associated with the natural molecule. The polypeptide can also contain a third domain that targets it to a specific cell, rendering the polypeptide useful in inhibition of exocytosis in target cells. Fusion proteins comprising the polypeptide, nucleic acids encoding the polypeptide and methods of making the polypeptide are also provided. Controlled activation of the polypeptide is possible and the polypeptide can be incorporated into vaccines and toxin assays. | 06-11-2009 |
20090004174 | Fusion Proteins - The invention provides a single chain, polypeptide fusion protein, comprising: a non-cytotoxic protease, or a fragment thereof, which protease or protease fragment is capable of cleaving a protein of the exocytic fusion apparatus of a target cell; a Targeting Moiety that is capable of binding to a Binding Site on the target cell, which Binding Site is capable of undergoing endocytosis to be incorporated into an endocome within the target cell; a protease cleaving site at which site the fusion protein is cleavable by the protease, wherein the protease cleavage site is located between the non-cytotoxic protease or fragment thereof and the Targeting Moiety; and the translocation domain that is capable of translocating the protease or protease fragment from within an endosome, across the endosomal membrane and into the cytosol of the target cell. | 01-01-2009 |