OBJECTIVE To screen specific polypeptide target binding to breast cancer xenografts in vivo from a phage-displayed peptide library in order to provide peptide sequences for breast cancer tumor-targeting diagnosis and ...OBJECTIVE To screen specific polypeptide target binding to breast cancer xenografts in vivo from a phage-displayed peptide library in order to provide peptide sequences for breast cancer tumor-targeting diagnosis and therapy. METHODS A mouse model for carrying breast cancer xenografts was established using Tientsin Albinao Ⅱ mice (TA Ⅱ). A 12-peptide library was biopanned through 4 rounds. Phages were recovered and titrated from tumor xenografts and control tissue (liver). The distribution of phages was detected by immunohistochemical staining. RESULTS Phage homing to breast cancer was enriched through 4 rounds of biopanning, being 14-fold of that recovered from liver tissue. A peptide sequence, ASANPFPTKALL was characterized by randomly picked-up clones which appeared most frequently. Immunohistochemical staining revealed phage localization in cancer xenografts 40 min after injection of the enriched phages. When a specific phage was tested individually, the phage reclaimed from breast cancer xenografts was 14 times as those from control tissues. CONCLUSION Tumor-specific homing peptides may provide an effective tool for breast cancer target therapy. The in vivo phage display selection technique employed in this study was feasible and applicable to screening peptides that home to breast cells.展开更多
Human pluripotent cells are promising for treatment for kidney diseases, but the protocols for derivation of kidney cell types are still controversial. Kidney tissue regeneration is well confirmed in several lower ver...Human pluripotent cells are promising for treatment for kidney diseases, but the protocols for derivation of kidney cell types are still controversial. Kidney tissue regeneration is well confirmed in several lower vertebrates such as fish, and the repair of nephrons after tubular damages is commonly observed after renal injury. Even in adult mammal kidney, renal progenitorcell or system is reportedly presents suggesting that adult stem-like cells in kidney can be practical clinical targets for kidney diseases. However, it is still unclear if kidney stem cells or stem-like cells exist or not. In general, stemness is defined by several factors such as self-renewal capacity, multi-lineage potency and characteristic gene expression profiles. The definite use of stemness may be obstacle to understand kidney regeneration, and here we describe the recent broad findings of kidney regeneration and the cells that contribute regeneration.展开更多
基金This work was supported by a grant from the Hi-Tech Research and Development Program of China(863)(No.2006AA02Z19C)
文摘OBJECTIVE To screen specific polypeptide target binding to breast cancer xenografts in vivo from a phage-displayed peptide library in order to provide peptide sequences for breast cancer tumor-targeting diagnosis and therapy. METHODS A mouse model for carrying breast cancer xenografts was established using Tientsin Albinao Ⅱ mice (TA Ⅱ). A 12-peptide library was biopanned through 4 rounds. Phages were recovered and titrated from tumor xenografts and control tissue (liver). The distribution of phages was detected by immunohistochemical staining. RESULTS Phage homing to breast cancer was enriched through 4 rounds of biopanning, being 14-fold of that recovered from liver tissue. A peptide sequence, ASANPFPTKALL was characterized by randomly picked-up clones which appeared most frequently. Immunohistochemical staining revealed phage localization in cancer xenografts 40 min after injection of the enriched phages. When a specific phage was tested individually, the phage reclaimed from breast cancer xenografts was 14 times as those from control tissues. CONCLUSION Tumor-specific homing peptides may provide an effective tool for breast cancer target therapy. The in vivo phage display selection technique employed in this study was feasible and applicable to screening peptides that home to breast cells.
文摘Human pluripotent cells are promising for treatment for kidney diseases, but the protocols for derivation of kidney cell types are still controversial. Kidney tissue regeneration is well confirmed in several lower vertebrates such as fish, and the repair of nephrons after tubular damages is commonly observed after renal injury. Even in adult mammal kidney, renal progenitorcell or system is reportedly presents suggesting that adult stem-like cells in kidney can be practical clinical targets for kidney diseases. However, it is still unclear if kidney stem cells or stem-like cells exist or not. In general, stemness is defined by several factors such as self-renewal capacity, multi-lineage potency and characteristic gene expression profiles. The definite use of stemness may be obstacle to understand kidney regeneration, and here we describe the recent broad findings of kidney regeneration and the cells that contribute regeneration.
