{"title":"成人室下区和嗅球神经发生","authors":"D. Lim, Yin-Cheng Huang, A. Álvarez-Buylla","doi":"10.1101/087969784.52.175","DOIUrl":null,"url":null,"abstract":"In the adult mammalian brain, new neurons are added to the olfactory bulb (OB) throughout life. In rodents, the adult germinal region for OB neurogenesis is the subventricular zone (SVZ), a layer of cells found along the walls of the brain lateral ventricles (for review, see Alvarez-Buylla and Garcia-Verdugo 2002). Neuroblasts born in the SVZ migrate a relatively long distance into the OB where they then disperse radially and differentiate into interneurons. Most of these new OB neurons integrate into functional circuits (Belluzzi et al. 2003; Carleton et al. 2003), and about half survive long-term (Petreanu and Alvarez-Buylla 2002). SVZ cell proliferation is lifelong (Kuhn et al. 1996; Goldman et al. 1997; Molofsky et al. 2006), with thousands of new neurons generated daily for the mouse OB (Lois and Alvarez-Buylla 1994). The adult SVZ is also the birthplace of oligodendrocytes in both normal and diseased brain (Nait-Oumesmar et al. 1999; Picard-Riera et al. 2002; Menn et al. 2006; Parent et al. 2006). This profound level of continuous neurogenesis and concomitant oligodendrogliogenesis argues for the existence of a self-renewing multipotent precursor cell—or, neural stem cell (NSC)—within the SVZ. The SVZ-OB system is an attractive model in which to study neurogenesis and neuronal replacement as it includes the basic processes of NSC maintenance, progenitor cell-fate specification, migration, differentiation, and survival/death of newly born neurons. The enduring quality and stable cytoarchitecture of adult SVZ-OB neurogenesis may make these complex biological processes experimentally more tractable in comparison to studies of embryonic brain...","PeriodicalId":10493,"journal":{"name":"Cold Spring Harbor Monograph Archive","volume":"34 1","pages":"175-206"},"PeriodicalIF":0.0000,"publicationDate":"2008-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"15","resultStr":"{\"title\":\"10 Adult Subventricular Zone and Olfactory Bulb Neurogenesis\",\"authors\":\"D. Lim, Yin-Cheng Huang, A. Álvarez-Buylla\",\"doi\":\"10.1101/087969784.52.175\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"In the adult mammalian brain, new neurons are added to the olfactory bulb (OB) throughout life. 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This profound level of continuous neurogenesis and concomitant oligodendrogliogenesis argues for the existence of a self-renewing multipotent precursor cell—or, neural stem cell (NSC)—within the SVZ. The SVZ-OB system is an attractive model in which to study neurogenesis and neuronal replacement as it includes the basic processes of NSC maintenance, progenitor cell-fate specification, migration, differentiation, and survival/death of newly born neurons. 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引用次数: 15
摘要
在成年哺乳动物的大脑中,嗅球(OB)在整个生命过程中都会添加新的神经元。在啮齿类动物中,OB神经发生的成年生发区是脑室下区(SVZ),这是沿脑侧脑室壁发现的一层细胞(回顾,见Alvarez-Buylla和Garcia-Verdugo 2002)。出生在SVZ的神经母细胞迁移相对较远的距离进入OB,然后径向分散并分化为中间神经元。大多数这些新的OB神经元整合到功能电路中(Belluzzi等人,2003;Carleton et . 2003),大约一半存活了很长时间(Petreanu and Alvarez-Buylla 2002)。SVZ细胞的增殖是终生的(Kuhn et al. 1996;Goldman et al. 1997;Molofsky et al. 2006),小鼠OB每天产生数千个新神经元(Lois and Alvarez-Buylla 1994)。成人SVZ也是正常和病变大脑中少突胶质细胞的诞生地(Nait-Oumesmar et al. 1999;Picard-Riera et al. 2002;Menn et al. 2006;Parent et al. 2006)。这种深度的连续神经发生和伴随的少突胶质细胞发生表明,在SVZ内存在自我更新的多能前体细胞或神经干细胞(NSC)。SVZ-OB系统是研究神经发生和神经元替代的一个有吸引力的模型,因为它包括新生神经元的NSC维持、祖细胞命运规范、迁移、分化和存活/死亡的基本过程。成人SVZ-OB神经发生的持久质量和稳定的细胞结构可能使这些复杂的生物学过程在实验上比胚胎脑的研究更容易处理。
10 Adult Subventricular Zone and Olfactory Bulb Neurogenesis
In the adult mammalian brain, new neurons are added to the olfactory bulb (OB) throughout life. In rodents, the adult germinal region for OB neurogenesis is the subventricular zone (SVZ), a layer of cells found along the walls of the brain lateral ventricles (for review, see Alvarez-Buylla and Garcia-Verdugo 2002). Neuroblasts born in the SVZ migrate a relatively long distance into the OB where they then disperse radially and differentiate into interneurons. Most of these new OB neurons integrate into functional circuits (Belluzzi et al. 2003; Carleton et al. 2003), and about half survive long-term (Petreanu and Alvarez-Buylla 2002). SVZ cell proliferation is lifelong (Kuhn et al. 1996; Goldman et al. 1997; Molofsky et al. 2006), with thousands of new neurons generated daily for the mouse OB (Lois and Alvarez-Buylla 1994). The adult SVZ is also the birthplace of oligodendrocytes in both normal and diseased brain (Nait-Oumesmar et al. 1999; Picard-Riera et al. 2002; Menn et al. 2006; Parent et al. 2006). This profound level of continuous neurogenesis and concomitant oligodendrogliogenesis argues for the existence of a self-renewing multipotent precursor cell—or, neural stem cell (NSC)—within the SVZ. The SVZ-OB system is an attractive model in which to study neurogenesis and neuronal replacement as it includes the basic processes of NSC maintenance, progenitor cell-fate specification, migration, differentiation, and survival/death of newly born neurons. The enduring quality and stable cytoarchitecture of adult SVZ-OB neurogenesis may make these complex biological processes experimentally more tractable in comparison to studies of embryonic brain...
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