Patent application number | Description | Published |
20080207515 | Promotion of Epithelial Regeneration - The invention relates to the use of TGF-β3, or agents having TGF-β3 activity, to promote epithelial regeneration. Methods of manufacturing medicaments, and methods of promoting epithelial regeneration are both provided. In particular, the medicaments and methods of treatment of the invention are applicable to the promotion of epithelial regeneration in healthy patients, and/or in acute wounds. | 08-28-2008 |
20090105146 | PROTEINS, NUCLEIC ACIDS AND MEDICAMENTS - The invention provides TGF-β3s, or fragments or derivatives thereof, wherein the alpha-helix-forming domain between amino acid residues (58) and (67) of full-length wild type TGF-β3 comprises at least one alpha-helix-stabilising substitution. The invention also provides TGF-β3s, or fragments or derivatives thereof, wherein the Glycine residue at position (63) of full-length wild type TGF-β3 is replaced with Proline. Further still, the invention provides TGF-β3s, or fragments or derivatives thereof, comprising a substitution of the Glutamic acid residue at position (12) of full-length wild type TGF-β3 and/or the Arginine residue at position (52) of full-length wild type TGF-β3. The invention also provides medicaments and methods of treatment using such TGF-β3s. | 04-23-2009 |
20090137475 | MEDICAMENTS AND PROTEINS BASED ON TGF-BETA MONOMERS FOR THE TREATMENT OF WOUNDS - There is provided the use of monomeric TGF-βs, or there fragments or derivatives, as medicaments. These medicaments preferably comprise monomeric TGF-β3, or fragments or derivatives thereof. The medicaments provided may be used in the acceleration of wounding and/or the inhibition of scarring, in the promotion of epithelial regeneration, or in the prevention and/or treatment of fibrotic disorders. | 05-28-2009 |
20090181430 | PROTEIN FOLDING - The present invention concerns a method for folding a Transforming Growth Factor Beta, or a functional analogue thereof, into a dimeric, biologically active form. The method involves adding solubilized, unfolded monomeric growth factor to a solution containing 2-(cyclohexylamino)-ethanesulfonic acid (CHES) or a functional analogue thereof and a low molecular weight sulfhydryl/disulfide redox system. The solution is then incubated under conditions suitable for generating dimeric biologically active Transforming Growth Factor Beta. | 07-16-2009 |
20090328250 | EXPRESSION OF TGF-BETA IN PLASTIDS - Provided is a method for the expression of a TGF-β in a plant. A chimeric nucleic acid sequence comprising: (1) a first nucleic acid sequence capable of regulating the transcription in a plant cell of (2) a second nucleic acid sequence, encoding a TGF-β, and adapted for expression in the plant cell; and (3) a third nucleic acid sequence encoding a termination region functional in said plant cell is introduced into a plant cell and the plant cell grown to produce TGF-β. The nucleic acid sequence may preferably be adapted for expression in a plant chloroplast. It is preferred that the TGF-β is TGF-β3, whether full length or in the form of an active fragment. | 12-31-2009 |
20110105396 | TGF-BETA3 MUTANTS - The invention provides TGF-β3s, or fragments or derivatives thereof, wherein the alpha-helix-forming domain between amino acid residues (58) and (67) of full-length wild type TGF-β3 comprises at least one alpha-helix-stabilising substitution. The invention also provides TGF-β3s, or fragments or derivatives thereof, wherein the Glycine residue at position (63) of full-length wild type TGF-β3 is replaced with Proline. Further still, the invention provides TGF-β3s, or fragments or derivatives thereof, comprising a substitution of the Glutamic acid residue at position (12) of full-length wild type TGF-β3 and/or the Arginine residue at position (52) of full-length wild type TGF-β3. The invention also provides medicaments and methods of treatment using such TGF-β3s. | 05-05-2011 |
20110152189 | METHODS FOR THE INHIBITION OF SCARRING - The invention provides new methods of treatment using TGF-β3 to inhibit scarring in humans, and TGF-β3 for new uses in the inhibition of scarring in humans. In a first incidence of treatment each centimetre of wound margin, or each centimetre of a site at which a wound is to be formed, is provided with between approximately 350 ng and 1000 ng of TGF-β3; and in a second incidence of treatment, occurring after a wound is formed, and between 8 and 48 hours after the first incidence of treatment, the wound is provided with an amount of between approximately 350 ng and 1000 ng of TGF-β3 per centimetre of wound margin in which scarring is to be inhibited. The amount of TGF-β3 provided may be the same in each incidence of treatment. The amount of TGF-β3 provided per centimetre in each incidence of treatment may preferably be approximately 500 ng. The TGF-β3 may be provided by intradermal injection. Also provided are kits and methods of selecting an appropriate treatment regime for inhibiting scarring associated with the healing of a human wound. | 06-23-2011 |