AIMS: Previous studies have demonstrated the therapeutic potential for human embryonic stem cell-derived neural precursor cells (hES-NPCs) in autoimmune and genetic animal models of demyelinating diseases. Herein, we tested whether intravenous (i.v.) administration of hES-NPCs would impact central nervous system (CNS) demyelination in a cuprizone model of demyelination. METHODS: C57Bl/6 mice were fed cuprizone (0.2%) for 2 weeks and then separated into two groups that either received an i.v. injection of hES-NPCs or i.v. administration of media without these cells. After an additional 2 weeks of dietary cuprizone treatment, CNS tissues were analysed for detection of transplanted cells and differences in myelination in the region of the corpus callosum (CC). RESULTS: Cuprizone-induced demyelination in the CC was significantly reduced in mice treated with hES-NPCs compared with cuprizone-treated controls that did not receive stem cells. hES-NPCs were identified within the brain tissues of treated mice and revealed migration of transplanted cells into the CNS. A limited number of human cells were found to express the mature oligodendrocyte marker, O1, or the astrocyte marker, glial fibrillary acidic protein. Reduced apoptosis and attenuated microglial and astrocytic responses were also observed in the CC of hES-NPC-treated mice. CONCLUSIONS: These findings indicated that systemically administered hES-NPCs migrated from circulation into a demyelinated lesion within the CNS and effectively reduced demyelination. Observed reductions in astrocyte and microglial responses, and the benefit of hES-NPC treatment in this model of myelin injury was not obviously accountable to tissue replacement by exogenously administered cells.
AIMS: Previous studies have demonstrated the therapeutic potential for human embryonic stem cell-derived neural precursor cells (hES-NPCs) in autoimmune and genetic animal models of demyelinating diseases. Herein, we tested whether intravenous (i.v.) administration of hES-NPCs would impact central nervous system (CNS) demyelination in a cuprizone model of demyelination. METHODS: C57Bl/6 mice were fed cuprizone (0.2%) for 2 weeks and then separated into two groups that either received an i.v. injection of hES-NPCs or i.v. administration of media without these cells. After an additional 2 weeks of dietary cuprizone treatment, CNS tissues were analysed for detection of transplanted cells and differences in myelination in the region of the corpus callosum (CC). RESULTS:Cuprizone-induced demyelination in the CC was significantly reduced in mice treated with hES-NPCs compared with cuprizone-treated controls that did not receive stem cells. hES-NPCs were identified within the brain tissues of treated mice and revealed migration of transplanted cells into the CNS. A limited number of human cells were found to express the mature oligodendrocyte marker, O1, or the astrocyte marker, glial fibrillary acidic protein. Reduced apoptosis and attenuated microglial and astrocytic responses were also observed in the CC of hES-NPC-treated mice. CONCLUSIONS: These findings indicated that systemically administered hES-NPCs migrated from circulation into a demyelinated lesion within the CNS and effectively reduced demyelination. Observed reductions in astrocyte and microglial responses, and the benefit of hES-NPC treatment in this model of myelin injury was not obviously accountable to tissue replacement by exogenously administered cells.
Authors: Stephen J Crocker; Jason K Whitmire; Ricardo F Frausto; Parntip Chertboonmuang; Paul D Soloway; J Lindsay Whitton; Iain L Campbell Journal: Am J Pathol Date: 2006-12 Impact factor: 4.307
Authors: Johan Jäderstad; Linda M Jäderstad; Jianxue Li; Satyan Chintawar; Carmen Salto; Massimo Pandolfo; Vaclav Ourednik; Yang D Teng; Richard L Sidman; Ernest Arenas; Evan Y Snyder; Eric Herlenius Journal: Proc Natl Acad Sci U S A Date: 2010-02-10 Impact factor: 11.205
Authors: Tamir Ben-Hur; Ruud B van Heeswijk; Ofira Einstein; Michal Aharonowiz; Rong Xue; Emma E Frost; Susumu Mori; Benjamin E Reubinoff; Jeff W M Bulte Journal: Magn Reson Med Date: 2007-01 Impact factor: 4.668
Authors: Jeffrey L Mason; Arrel Toews; Janell D Hostettler; Pierre Morell; Kinuko Suzuki; James E Goldman; Glenn K Matsushima Journal: Am J Pathol Date: 2004-05 Impact factor: 4.307
Authors: Ergeng Hao; Björn Tyrberg; Pamela Itkin-Ansari; Jonathan R T Lakey; Ifat Geron; Edward Z Monosov; Maria Barcova; Mark Mercola; Fred Levine Journal: Nat Med Date: 2006-02-19 Impact factor: 53.440
Authors: Riccardo Cassiani-Ingoni; Paolo A Muraro; Tim Magnus; Susan Reichert-Scrivner; Jens Schmidt; Jaebong Huh; Jacqueline A Quandt; Andras Bratincsak; Tal Shahar; Fabrizio Eusebi; Larry S Sherman; Mark P Mattson; Roland Martin; Mahendra S Rao Journal: J Neuropathol Exp Neurol Date: 2007-07 Impact factor: 3.685
Authors: Natalie L Payne; Guizhi Sun; Daniella Herszfeld; Pollyanna A Tat-Goh; Paul J Verma; Helena C Parkington; Harold A Coleman; Mary A Tonta; Christopher Siatskas; Claude C A Bernard Journal: PLoS One Date: 2012-04-13 Impact factor: 3.240