Abstract: Methods for regulating multiple organs, multiple genes and multiple targets by using a polypeptide. The polypeptide includes the amino acid sequence of SEQ ID No. 1 and/or homology thereof. The polypeptide reveals the potency to regulate transcription of multiple genes and expression of multiple targets. Therefore, a composition having the polypeptide can be applied to regulate the expression of multiple targets in multiple organs of patients. Furthermore, the composition having the polypeptide can be applied in therapies of inflammation and inflammatory disorders, suppression of fatty liver disease progression, suppression of the diseases caused by fatty accumulation, prevention and therapy of muscular atrophy, and avoiding the complications of diabetes.

Abstract: Methods for regulating multiple organs, multiple genes and multiple targets by using a polypeptide. The polypeptide includes the amino acid sequence of SEQ ID No. 1 and/or homology thereof. The polypeptide reveals the potency to regulate transcription of multiple genes and expression of multiple targets. Therefore, a composition having the polypeptide can be applied to regulate the expression of multiple targets in multiple organs of patients. Furthermore, the composition having the polypeptide can be applied in therapies of inflammation and inflammatory disorders, suppression of fatty liver disease progression, suppression of the diseases caused by fatty accumulation, prevention and therapy of muscular atrophy, and avoiding the complications of diabetes.

Abstract: Methods for regulating multiple organs, multiple genes and multiple targets by using a polypeptide, wherein the polypeptide comprising the amino acid sequence of SEQ ID No.1 and/or homology thereof. The present polypeptide reveals the potency to regulate transcription of multiple genes and expression of multiple targets. Therefore, a composition having the polypeptide can be applied to regulate the expression of multiple targets in multiple organs of patients. Furthermore, the composition having the polypeptide can be applied in therapies of inflammation and inflammatory disorders, suppression of fatty liver disease progression, suppression of the diseases caused by fatty accumulation, prevention and therapy of muscular atrophy, and avoiding the complications of diabetes.

Abstract: This invention discloses methods for regulating multiple organs, multiple genes and multiple targets by using a polypeptide, wherein the polypeptide comprising the amino acid sequence of SEQ ID No.1 and/or homology thereof. The present polypeptide reveals the potency to regulate transcription of multiple genes and expression of multiple targets. Therefore, a composition having the polypeptide can be applied to regulate the expression of multiple targets in multiple organs of patients. Furthermore, the composition having the polypeptide can be applied in therapies of inflammation and inflammatory disorders, suppression of fatty liver disease progression, suppression of the diseases caused by fatty accumulation, prevention and therapy of muscular atrophy, and avoiding the complications of diabetes.

Abstract: A polypeptide, a nucleic acid molecule encoding the polypeptide and a pharmaceutical composition comprising the polypeptide are provided. The polypeptide is as defined in the description, can bind to insulin receptors, and is effective in reducing blood sugar, reducing glycated hemoglobin, and ameliorating hepato-renal disorders caused by diabetes.

Abstract: A modified sodium iodide symporter (NIS) protein is provided. The modified NIS protein comprises an amino acid sequence of SEQ ID NO.1 with the proviso that at least one amino acid residue within SEQ ID NO. 1 is changed. The modified NIS protein has an enhanced transport function, and the expression of the modified NIS protein in the cells results in higher intracellular levels of a substrate of a NIS protein than does the expression of the same amount of a wild-type NIS protein.

Abstract: A polypeptide, a nucleic acid molecule encoding the polypeptide and a pharmaceutical composition comprising the polypeptide are provided. The polypeptide is as defined in the description, can bind to insulin receptors, and is effective in reducing blood sugar, reducing glycated hemoglobin, and ameliorating hepato-renal disorders caused by diabetes.

Abstract: A polypeptide, a nucleic acid molecule encoding the polypeptide and a pharmaceutical composition comprising the polypeptide are provided. The polypeptide is as defined in the description, can bind to insulin receptors, and is effective in reducing blood sugar, reducing glycated hemoglobin, and ameliorating hepato-renal disorders caused by diabetes.

Abstract: A polypeptide, a nucleic acid molecule encoding the polypeptide and a pharmaceutical composition comprising the polypeptide are provided. The polypeptide is as defined in the description, can bind to insulin receptors, and is effective in reducing blood sugar, reducing glycated hemoglobin, and ameliorating hepato-renal disorders caused by diabetes.

Abstract: A blood sugar-modulating polypeptide, a pharmaceutical composition comprising the polypeptide, and a method for modulating blood sugar in a mammal comprising the administration of the polypeptide are provided. The polypeptide has a following amino acid sequence or a homologous amino acid sequence derived from the substitution, deletion, and/or addition of one or more amino acids therein: RVRVWVTERGIVARPPTIG (SEQ?ID?NO.?11).

Abstract: A mammal dedicated cell line is provided, which is a HepG2 hepatocellular carcinoma cell line (HepG2/NF-kB/Luc/sr39tk)1_18 obtained by co-transformation with NF-kB/Luc and NF-kB/sr39tk. Firstly, a successfully transformed pNF-kB/Luc HepG2 cell is obtained. Then, a dedicated cell line sensitive to TPA and MTX is generated by experimental screening Next, a plasmid construct carrying pNF-kB/sr39tk genome is introduced into the dedicated cell line by means of Superfect protocol. Finally, a HepG2 cell line co-expressing NF-kB/Luc and NF-kB/sr39tk is screened with G418 and ZEOCIN, and transformation result is confirmed by luminescence and radio activity. The (HepG2/NF-kB/Luc/sr39tk)1_18 obtained is suitable to screen drug for treating liver cancer and examine these cells by bioluminescence imaging and nuclear medicine imaging.

Abstract: A modified sodium iodide symporter (NIS) protein is provided. The modified NIS protein comprises an amino acid sequence of SEQ ID NO.1 with the proviso that at least one amino acid residue within SEQ ID NO. 1 is changed. The modified NIS protein has an enhanced transport function, and the expression of the modified NIS protein in the cells results in higher intracellular levels of a substrate of a NIS protein than does the expression of the same amount of a wild-type NIS protein.

Abstract: A blood sugar-modulating polypeptide, a pharmaceutical composition comprising the polypeptide, and a method for modulating blood sugar in a mammal comprising the administration of the polypeptide are provided. The polypeptide has a following amino acid sequence or a homologous amino acid sequence derived from the substitution, deletion, and/or addition of one or more amino acids therein: RVRVWVTERGIVARPPTIG. (SEQ?ID?NO.

Abstract: A mammal dedicated cell line is provided, which is a HepG2 hepatocellular carcinoma cell line (HepG2/NF-kB/Luc/sr39tk)1_18 obtained by co-transformation with NF-kB/Luc and NF-kB/sr39tk. Firstly, a successfully transformed pNF-kB/Luc HepG2 cell is obtained. Then, a dedicated cell line sensitive to TPA and MTX is generated by experimental screening Next, a plasmid construct carrying pNF-kB/sr39tk genome is introduced into the dedicated cell line by means of Superfect protocol. Finally, a HepG2 cell line co-expressing NF-kB/Luc and NF-kB/sr39tk is screened with G418 and ZEOCIN, and transformation result is confirmed by luminescence and radio activity. The (HepG2/NF-kB/Luc/sr39tk)1_18 obtained is suitable to screen drug for treating liver cancer and examine these cells by bioluminescence imaging and nuclear medicine imaging.

Abstract: A blood sugar-modulating polypeptide, a pharmaceutical composition comprising the polypeptide, and a method for modulating blood sugar in a mammal comprising the administration of the polypeptide are provided. The polypeptide has a following amino acid sequence or a homologous amino acid sequence derived from the substitution, deletion, and/or addition of one or more amino acids therein: RVRVWVTERGIVARPPTIG.