Abstract: The present invention relates an isolated human Site-1 Protease promoter region. The invention also relates to screening methods for agents decreasing the expression of Site-1 protease and thereby being potentially useful for the treatment of medical conditions related to obesity and/or diabetes.
Type:
Application
Filed:
April 20, 2004
Publication date:
September 30, 2004
Applicant:
Biovitrum AB, a Swedish corporation
Inventors:
Lars Abrahmsen, Jonas Ekblom, Margareta Forsgren, Jan Horling, Per Johansson
Abstract: According to the invention, a major role for the winged helix protein FKHL14/FOXC2 in regulating energy balance and adiposity is demonstrated. The invention relates to transgenic non-human mammalian animals being capable of expressing the human FKHL14/FOXC2 gene in its adipose tissue. The invention also relates to methods for identifying compounds useful for the treatment of medical conditions related to obesity or diabetes, said compounds being capable of stimulating expression of the human FKHL14/FOXC2 gene, or being capable of stimulating the biological activity of a polypeptide encoded by the human FKHL14/FOXC2 gene. The invention further relates to methods for identifying compounds useful for the treatment of medical conditions related to malnutrition, said compounds being capable of decreasing expression of the human FKHL14/FOXC2 gene, or being capable of decreasing the biological activity of a polypeptide encoded by the human FKHL14/FOXC2 gene.
Abstract: A tissue treatment composition, especially an adhesive composition comprises (i) fibrin or fibrinogen and (ii) a biodegradable and biocompatible polymer capable of forming a viscous aqueous solution. In addition to glueing, the tissue adhesive composition may be used for slow-release of a drug incorporated into it or for anti-adherence purposes, for wound healing, etc.
Abstract: The present invention is directed to a novel Afx response element comprising the nucleotide sequence AACATGTT, said nucleotide sequence having a DNA binding site for the human fork head transkription factor Afx. The invention also relates to the use of the Afx response element in the screening for genes as diabetes drug targets and in the bioinformatic analysis of the human genome, said genes in turn being useful in other screening methods for compounds modifying the insulin receptor signaling pathway. A further aspect of the invention is a vector construct comprising the novel nucleotide sequence, a host cell transformed with said vector construct as well as the fusion protein expressed by said host cell.
Type:
Application
Filed:
October 1, 2002
Publication date:
July 31, 2003
Applicant:
Biovitrum AB, a Swedish corporation
Inventors:
Isabel Climent-Johansson, Karin Dahlman-Wright, Staffan Lake, Wyeth Wasserman