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[¹úÍâ] Cell Stem Cell£ºÈËÊÓÍøĤɫËØÉÏƤ×éÖ¯Ò²´æÔÚÉñ¾¸Éϸ°û - Adult Human RPE Can Be Activated into a Multipotent Stem Cell that Produces Mesenchymal Derivatives Ñо¿ÈËÔ±ÔÚÑÛ¾¦ºó²¿µÄµ¥²ãϸ°û---ÒÑ֪ΪÊÓÍøĤɫËØÉÏƤ×éÖ¯(retinal pigment epithelium)£¬ËüµÄÏÂÃ溬ÓйâÃô¸ÐÐÔÊÓÍøĤµÄ¹âÊÜÌå---Àï¼ø¶¨³öÖÐÊàÉñ¾ÏµÍ³µÄ³ÉÌå¸Éϸ°û¡£2012Äê1ÔÂ6ÈÕ£¬¸ÃÑо¿½á¹û·¢±íÔÚ¡¶Ï¸°û-¸Éϸ°û¡·(Cell Stem Cell)ÆÚ¿¯ÉÏ¡£ ÕâÏîÐÂÑо¿±íÃ÷ÊÓÍøĤɫËØÉÏƤ×éÖ¯Ò²ÓµÓÐ×ÔÎÒ¸üеĸÉϸ°û£¬µ±´¦ÓÚºÏÊÊÌõ¼þÏÂÄܱ»»½ÐѲúÉú»îÔ¾Ôö³¤µÄϸ°ûÅàÑøÎï¡£ËüÃÇÒ²Äܹ»±»ÓÕµ¼ÐγÉÆäËûϸ°ûÀàÐÍ¡£ λÓÚÃÀ¹úŦԼÂ×˹ÀÕµÄÉñ¾¸Éϸ°ûÑо¿ËùSally TempleÁìµ¼µÄÑо¿Ð¡×é»ñµÃÊÓÍøĤɫËØÉÏƤ×éÖ¯À´Ô´µÄ¸Éϸ°û£¬¶øÇÒÊÇÀ´×Ô¹©ÕßËÀÍö¼¸¸öСʱºóµÄÑÛ¾¦¡£µ«ÊÇÕâЩ¸Éϸ°ûÒ²¿É´ÓÑÛ¾¦ºó²¿ÊÓÍøĤÖÜΧµÄÌåÒºÖзÖÀë³öÀ´£¬ÕâÒâζ×ÅËüÃÇÒ²¿ÉÔÚ»î×ŵÄÈËÃÇÖлñÈ¡¡£ Temple˵£¬¼øÓÚÒÑÖªòîó¢(salamander)ÖÐÊÓÍøĤɫËØÉÏƤ×éÖ¯Äܹ»ÔÙÉúÕû¸öÊÓÍøĤ£¬ËûÃǾͶÔÈ˸Ã×éÖ¯µÄÔöֳDZÄܱȽϺÃÆæ¡£µ«ÊÇÔÚ³ÉÄêСÊóºÍ¼¦ÖУ¬ÕâÖÖ¿ÉËÜÐÔËƺõ¶ªÊ§ÁË¡£Ëý˵£¬¡°¼øÓÚ½ø»¯Ñ§ÉϵÄÖ¤¾Ý£¬ÎÒÃÇÈÏΪÕâÖµµÃÔٴγ¢ÊÔ¡£¡± ËûÃǽ«À´×Ô22Ëêµ½99ËêµÄÈËʬÌåÉϵÄÊÓÍøĤɫËØÉÏƤ×éÖ¯·ÅÔںܶàÅàÑøÌõ¼þÏÂÒÔ±ã¹Û²ìËûÃÇÄܹ»ÈÃÕâЩϸ°û×öʲô¡£ËûÃÇ·¢ÏÖÒ»×éÌõ¼þÄÜÈÃËüÃÇ·¢Éúϸ°û·ÖÁÑ¡£²¢²»ÊÇËùÓеÄÊÓÍøĤɫËØÉÏƤ×é֯ϸ°ûÓµÓÐÕâÖÖÔÙÉúDZÄÜ£¬µ«ÊÇ»òÐíÓÐ10%µÄϸ°ûÄܹ»×öµ½Õâµã¡£ ½øÒ»²½µÄÑо¿±íÃ÷ÕâЩ10%µÄϸ°ûÊǶàÄÜÐԵģ¬ÕâÒâζ×ÅËüÃÇÄܹ»Ðγɲ»Í¬Ï¸°ûÀàÐÍ£¬²»¹ýÑо¿ÈËÔ±³ÐÈÏÈÔÈ»ÐèÒª¿ªÕ¹¸ü¶àµÄÑо¿ÒÔ±ã³ä·Ö̽Ë÷ÕâЩϸ°ûµÄ·Ö»¯ÄÜÁ¦¡£ ÕâÒ²ÓÐÆäËûµÄÓ°Ïì¡£±ÈÈ磬ÕâЩϸ°û¿ÉÄÜÄܹ»½âÊÍÔÚÑÛ¾¦ÆäËû×éÖ¯ÀàÐÍÖгöÏֵļ²²¡¡£ËüÃǵĴæÔÚÒ²Ìáʾ×Å¿ÉÄÜ´æÔÚijÖÖ·½·¨´Ì¼¤ÉÏ°ÙÍòÀÏÄêÐÔÊÓÍøĤ»Æ°ßÍË»¯¼²²¡(age-related macular degeneration)²¡È˵ÄÑÛ¾¦ÊÜ¿ØÐÞ¸´¡£ doi:10.1016/j.stem.2011.11.018 PMC: PMID: Adult Human RPE Can Be Activated into a Multipotent Stem Cell that Produces Mesenchymal Derivatives Enrique Salero, Timothy A. Blenkinsop, Barbara Corneo, Ashley Harris, David Rabin, Jeffrey H. Stern, Sally Temple he retinal pigment epithelium (RPE) is a monolayer of cells underlying and supporting the neural retina. It begins as a plastic tissue, capable, in some species, of generating lens and retina, but differentiates early in development and remains normally nonproliferative throughout life. Here we show that a subpopulation of adult human RPE cells can be activated in vitro to a self-renewing cell, the retinal pigment epithelial stem cell (RPESC) that loses RPE markers, proliferates extensively, and can redifferentiate into stable cobblestone RPE monolayers. Clonal studies demonstrate that RPESCs are multipotent and in defined conditions can generate both neural and mesenchymal progeny. This plasticity may explain human pathologies in which mesenchymal fates are seen in the eye, for example in proliferative vitroretinopathy (PVR) and phthisis bulbi. This study establishes the RPESC as an accessible, human CNS-derived multipotent stem cell, useful for the study of fate choice, replacement therapy, and disease modeling. http://www.cell.com/cell-stem-cell/retrieve/pii/S1934590911005790 |
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