Abstract: The present invention relates to a novel 4-carbonylamino-4-phenylpyrimidine compound or a pharmaceutically acceptable salt thereof. Specifically, the present invention relates to a novel 4-carbonylamino-4-phenylpyrimidine compound or a pharmaceutically acceptable salt thereof, which exhibits GDH activity and as such, is effective for prevention or treatment of obesity, diabetes, or fatty liver.

Abstract: A pharmaceutical composition for preventing or treating muscle atrophy or sarcopenia including glucagon-like peptide-1 (GLP-1), a GLP-1 fragment, a GLP-1 secretion enhancer, a GLP-1 degradation inhibitor, a GLP-1 receptor (GLP-1R) agonist, or exendin-4, and a method of treating muscle atrophy or sarcopenia by using the pharmaceutical composition. When the pharmaceutical composition is administered to a subject having sarcopenia or muscle atrophy, reduced body weight, skeletal muscle mass, and grip strength, which are caused by sarcopenia or muscle atrophy, and expression levels of genes involved in muscle production may be restored to normal states. The composition may be widely applied to the development of effective therapeutic agents for sarcopenia or muscle atrophy.

Abstract: Provided are a pharmaceutical composition for preventing or treating muscle atrophy or sarcopenia including glucagon-like peptide-1 (GLP-1), a GLP-1 fragment, a GLP-1 secretion enhancer, a GLP-1 degradation inhibitor, a GLP-1 receptor (GLP-1R) agonist, or exendin-4, and a method of treating muscle atrophy or sarcopenia by using the pharmaceutical composition. When the pharmaceutical composition for preventing or treating muscle atrophy or sarcopenia provided in the present invention is administered to a subject having sarcopenia or muscle atrophy, reduced body weight, skeletal muscle mass, and grip strength, which are caused by sarcopenia or muscle atrophy, and expression levels of genes involved in muscle production may be restored to normal states, and therefore, the composition may be widely applied to the development of effective therapeutic agents for sarcopenia or muscle atrophy.

Abstract: A pharmaceutical composition for preventing or treating muscle atrophy or sarcopenia including glucagon-like peptide-1 (GLP-1), a GLP-1 fragment, a GLP-1 secretion enhancer, a GLP-1 degradation inhibitor, a GLP-1 receptor (GLP-1R) agonist, or exendin-4, and a method of treating muscle atrophy or sarcopenia by using the pharmaceutical composition. When the pharmaceutical composition is administered to a subject having sarcopenia or muscle atrophy, reduced body weight, skeletal muscle mass, and grip strength, which are caused by sarcopenia or muscle atrophy, and expression levels of genes involved in muscle production may be restored to normal states. The composition may be widely applied to the development of effective therapeutic agents for sarcopenia or muscle atrophy.

Abstract: Provided are a pharmaceutical composition for preventing or treating muscle atrophy or sarcopenia including glucagon-like peptide-1 (GLP-1), a GLP-1 fragment, a GLP-1 secretion enhancer, a GLP-1 degradation inhibitor, a GLP-1 receptor (GLP-1R) agonist, or exendin-4, and a method of treating muscle atrophy or sarcopenia by using the pharmaceutical composition. When the pharmaceutical composition for preventing or treating muscle atrophy or sarcopenia provided in the present invention is administered to a subject having sarcopenia or muscle atrophy, reduced body weight, skeletal muscle mass, and grip strength, which are caused by sarcopenia or muscle atrophy, and expression levels of genes involved in muscle production may be restored to normal states, and therefore, the composition may be widely applied to the development of effective therapeutic agents for sarcopenia or muscle atrophy.

Abstract: The present invention provides a cell line which can be substituted for ? cells in human mature pancreatic islets and express insulin in a glucose-concentration dependent manner, and enables the easy obtainment of the number of cells which meets the demand. The present invention also provides a therapeutical cell preparation for treating diabetes. The cell lines of the present invention can be obtained by integrating both a nucleotide sequence encoding tamoxifen-induced Cre recombinase and a nucleotide sequence encoding insulin regulated by glucose-sensitive promoter into the chromosome in a human immortalized hepatic cell line FERM BP-7498 containing the TERT gene inserted in between a pair of LoxP sequences.

Abstract: The present invention provides a cell line which can be substituted for ? cells in human mature pancreatic islets and express insulin in a glucose-concentration dependent manner, and enables the easy obtainment of the number of cells which meets the demand. The present invention also provides a therapeutical cell preparation for treating diabetes. The cell lines of the present invention can be obtained by integrating both a nucleotide sequence encoding tamoxifen-induced Cre recombinase and a nucleotide sequence encoding insulin regulated by glucose-sensitive promoter into the chromosome in a human immortalized hepatic cell line FERM BP-7498 containing the TERT gene inserted in between a pair of LoxP sequences.

Abstract: The present invention provides a cell line which can be substituted for ? cells in human mature pancreatic islets and express insulin in a glucose-concentration dependent manner, and enables the easy obtainment of the number of cells which meets the demand. The present invention also provides a therapeutical cell preparation for treating diabetes. The cell lines of the present invention can be obtained by integrating both a nucleotide sequence encoding tamoxifen-induced Cre recombinase and a nucleotide sequence encoding insulin regulated by glucose-sensitive promoter into the chromosome in a human immortalized hepatic cell line FERM BP-7498 containing the TERT gene inserted in between a pair of LoxP sequences.

Abstract: A vaccine including recombinant vaccinia virus (ATCC VR-1354) having an inserted gene for coding glutamic acid decarboxylase is used for preventing type 1 diabetes mellitus. The glutamic acid decarboxylase expressed from the recombinant virus suppresses or tolerizes the autoreactive T cell, and induces immunological tolerance, thus effectively prevents or delays the development of type 1 diabetes mellitus.

Abstract: The present invention provides a cell line which can be substituted for &bgr; cells in human mature pancreatic islets and express insulin in a glucose-concentration dependent manner, and enables the easy obtainment of the number of cells which meets the demand. The present invention also provides a therapeutical cell preparation for treating diabetes. The cell lines of the present invention can be obtained by integrating both a nucleotide sequence encoding tamoxifen-induced Cre recombinase and a nucleotide sequence encoding insulin regulated by glucose-sensitive promoter into the chromosome in a human immortalized hepatic cell line FERM BP-7498 containing the TERT gene inserted in between a pair of LoxP sequences.

Abstract: The invention is directed to a herbal medicinal composition for preventing or treating type II diabetes. The composition is comprised of extracts from Pterocarpus marsupium, Morus alba, Orthosiphon aristatus, Opiophogon japonicus, Rosa rugosa, Commelina communis, Trichosanthis kirilowii and Anemarrhena asphodeloides.

Abstract: The invention is directed to a herbal medicinal composition for preventing or treating type II diabetes. The composition is comprised of extracts from Pterocarpus marsupium, Morus alba, Orthosiphon aristatus, Opiophogon japonicus, Rosa rugosa, Commelina communis, Trichosanthis kirilowii and Anemarrhena asphodeloides.

Abstract: The invention is directed to a herbal medicinal composition for preventing or treating type II diabetes. The composition is comprised of extracts from Pterocarpus marsupium, Morus alba, Orthosiphon aristatus, Opiophogon japonicus, Rosa rugosa, Commelina communis, Trichosanthis kirilowii and Anemarrhena asphodeloides.

Abstract: A vaccine including recombinant vaccinia virus (ATCC VR-1354) having an inserted gene for coding glutamic acid decarboxylase is used for preventing type 1 diabetes mellitus. The glutamic acid decarboxylase expressed from the recombinant virus suppresses or tolerizes the autoreactive T cell, and induces immunological tolerance, thus effectively prevents or delays the development of type 1 diabetes mellitus.

Abstract: The present invention relates to gene and peptide sequences of a diabetes-specific endogenous retrovirus which is derived from type 1 diabetes patients. In particular, the present invention relates to a whole genome of the diabetes-specific variant of endogenous retrovirus (ERV-9) purified from pancreatic tissues of type 1 diabetes (insulin-dependent diabetes mellitus [IDDM]) patients and its genes and peptide and their sequences, which can be used as a diagnosing reagent for type 1 diabetes and as an immunogen. The diabetes-specific retrovirus expressed exclusively in pancreatic beta cells was purified from deceased type 1 diabetes patients. Subsequently, the retroviral gene sequences were determined, and by analyzing the amino acid sequence of the peptide deduced from the gene, 21 domains of the peptide having hydrophilicity and immuno-dominancy were identified.

Abstract: Portulaca oleracea has been used throughout history for many different medicinal purposes. This invention is directed to the novel use of P. oleracea for the treatment of cancer. More specifically it is disclosed that P. oleracea has a specific and distinct effect on the inhibition and/or suppression of gastric tumor cell growth in vitro and in vivo. An aqueous extract of P. oleracea showed a tumoricidal activity against KATO III (human gastric carcinoma cell line) and COLO 320 HSR cells (human colon adenoma cell line) in a dose-dependent and time-dependent manner, but not against the non-tumorous cell lines, L929 (murine lung connective tissue) and W138 (human lung diploid cell) cells. Subcutaneous injection of six week old CD1 nude mice with COLO 320 HSR cells and subsequently Portulaca oleracea extract showed a clear inhibition of tumor growth as compared to the control nude mice which received only COLO 320 HSR cells.