Kimura Ayaka, Matsuda Taito, Sakai Atsuhiko, Murao Naoya, Nakashima Kinichi
Stem Cell Biology and Medicine, Department of Stem Cell Biology and Medicine, Graduate School of Medical Sciences, Kyushu University, Fukuoka, Japan.
Dev Dyn. 2018 Jan;247(1):229-238. doi: 10.1002/dvdy.24559. Epub 2017 Sep 6.
Although quiescent neural stem cells (NSCs) in the adult hippocampus proliferate in response to neurogenic stimuli and subsequently give rise to new neurons continuously throughout life, misregulation of NSCs in pathological conditions, including aging, leads to the impairment of learning and memory. High mobility group B family 1 (HMGB1) and HMGB2, HMG family proteins that function as transcriptional activators through the modulation of chromatin structure, have been assumed to play some role in the regulation of adult NSCs; however, their precise functions and even expression patterns in the adult hippocampus remain elusive.
Here we show that expression of HMGB2 but not HMGB1 is restricted to the subset of NSCs and their progenitors. Furthermore, running, a well-known positive neurogenic stimulus, increased the proliferation of HMGB2-expressing cells, whereas aging was accompanied by a marked decrease in these cells. Intriguingly, HMGB2-expressing quiescent NSCs, which were shifted toward the proliferative state, were decreased as aging progressed.
HMGB2 expression is strongly associated with transition from the quiescent to the proliferative state of NSCs, supporting the possibility that HMGB2 is involved in the regulation of adult neurogenesis and can be used as a novel marker to identify NSCs primed for activation in the adult hippocampus. Developmental Dynamics 247:229-238, 2018. © 2017 Wiley Periodicals, Inc.
尽管成年海马体中的静止神经干细胞(NSCs)会对神经源性刺激做出增殖反应,并在一生中持续产生新的神经元,但在包括衰老在内的病理条件下,神经干细胞的失调会导致学习和记忆受损。高迁移率族B家族1(HMGB1)和HMGB2是通过调节染色质结构发挥转录激活作用的HMG家族蛋白,被认为在成年神经干细胞的调节中发挥一定作用;然而,它们在成年海马体中的精确功能甚至表达模式仍不清楚。
我们在此表明,HMGB2而非HMGB1的表达仅限于神经干细胞及其祖细胞亚群。此外,跑步作为一种众所周知的正向神经源性刺激,增加了表达HMGB2的细胞的增殖,而衰老则伴随着这些细胞的显著减少。有趣的是,随着衰老的进展,向增殖状态转变的表达HMGB2的静止神经干细胞减少。
HMGB2的表达与神经干细胞从静止状态向增殖状态的转变密切相关,这支持了HMGB2参与成年神经发生调节并可作为一种新的标志物来识别成年海马体中准备激活的神经干细胞的可能性。《发育动力学》247:229 - 238,2018年。© 2017威利期刊公司。
