2021, Volume 7, Issue 12
Engineering >> 2021, Volume 7, Issue 12 doi: 10.1016/j.eng.2021.09.009
Adult Mammalian Neurogenesis: Hopes and Challenges in the Repair of Spinal Cord Injury
a Department of Neurobiology, School of Basic Medicine, Capital Medical University, Beijing 100069, China
b Beijing Key Laboratory for Biomaterials and Neural Regeneration, School of Biological Science and Medical Engineering, Beihang University, Beijing 100083, China
c Beijing Advanced Innovation Center for Biomedical Engineering, Beihang University, Beijing 100083, China
Next Previous
References
[ 1 ] Zupanc GKH, Sîrbulescu RF. Adult neurogenesis and neuronal regeneration in the central nervous system of teleost fish. Eur J Neurosci 2011;34(6):917–29. link1
[ 2 ] Duan H, Song W, Zhao W, Gao Y, Yang Z, Li X. Endogenous neurogenesis in adult mammals after spinal cord injury. Sci China Life Sci 2016;59(12):1313–8. link1
[ 3 ] Sabelström H, Stenudd M, Réu P, Dias DO, Elfineh M, Zdunek S, et al. Resident neural stem cells restrict tissue damage and neuronal loss after spinal cord injury in mice. Science 2013;342(6158):637–40. link1
[ 4 ] Hao P, Duan H, Hao F, Chen L, Sun M, Fan KS, et al. Neural repair by NT3- chitosan via enhancement of endogenous neurogenesis after adult focal aspiration brain injury. Biomaterials 2017;140:88–102. link1
[ 5 ] Yang Z, Zhang A, Duan H, Zhang S, Hao P, Ye K, et al. NT3-chitosan elicits robust endogenous neurogenesis to enable functional recovery after spinal cord injury. Proc Natl Acad Sci USA 2015;112(43):13354–9. link1
[ 6 ] Duan H, Ge W, Zhang A, Xi Y, Chen Z, Luo D, et al. Transcriptome analyses reveal molecular mechanisms underlying functional recovery after spinal cord injury. Proc Natl Acad Sci USA 2015;112(43):13360–5. link1
[ 7 ] Rao JS, Zhao C, Zhang A, Duan H, Hao P, Wei RH, et al. NT3-chitosan enables de novo regeneration and functional recovery in monkeys after spinal cord injury. Proc Natl Acad Sci USA 2018;115(24):E5595–604. link1
[ 8 ] Dietrich WD. Clinical significance and potential translation of neural regeneration and functional recovery in monkeys after spinal cord injury. Sci China Life Sci 2018;61(10):1291–2. link1
[ 9 ] Eriksson PS, Perfilieva E, Björk-Eriksson T, Alborn AM, Nordborg C, Peterson DA, et al. Neurogenesis in the adult human hippocampus. Nat Med 1998;4 (11):1313–7. link1
[10] Spalding K, Bergmann O, Alkass K, Bernard S, Salehpour M, Huttner H, et al. Dynamics of hippocampal neurogenesis in adult humans. Cell 2013;153 (6):1219–27. link1
[11] Sorrells SF, Paredes MF, Cebrian-Silla A, Sandoval K, Qi D, Kelley KW, et al. Human hippocampal neurogenesis drops sharply in children to undetectable levels in adults. Nature 2018;555(7696):377–81. link1
[12] Boldrini M, Fulmore CA, Tartt AN, Simeon LR, Pavlova I, Poposka V, et al. Human hippocampal neurogenesis persists throughout aging. Cell Stem Cell 2018;22(4). 589–99.e5. link1
[13] Tobin MK, Musaraca K, Disouky A, Shetti A, Bheri A, Honer WG, et al. Human hippocampal neurogenesis persists in aged adults and Alzheimer’s disease patients. Cell Stem Cell 2019;24(6). 974–82.e3. link1
[14] Kempermann G, Gage FH, Aigner L, Song H, Curtis MA, Thuret S, et al. Human adult neurogenesis: evidence and remaining questions. Cell Stem Cell 2018;23 (1):25–30. link1
[15] Altman J, Das GD. Autoradiographic and histological evidence of postnatal hippocampal neurogenesis in rats. J Comp Neurol 1965;124(3):319–35. link1
[16] Rakic P. Limits of neurogenesis in primates. Science 1985;227(4690):1054–6. link1
京公网安备 11010502051620号
