Gaziova Ivana, Bhat Krishna Moorthi
Department of Neuroscience and Cell Biology, University of Texas Medical Branch School of Medicine, Galveston, TX 77555, USA.
Development. 2009 Jan;136(2):263-74. doi: 10.1242/dev.027854. Epub 2008 Dec 15.
In the Drosophila CNS, combinatorial, interdependent, sequential genetic programs in neuroectodermal (NE) cells, prior to the formation of neuroblasts (NBs), determine the initial identity of NBs. Temporal factors are then sequentially expressed to change the temporal identity. It is unclear at what levels this positional and temporal information integrates to determine progeny cell identity. One idea is that this is a top-down linear process: the identity of a NB determines the identity of its daughter, the ganglion mother cell (GMC), the asymmetric division of the GMC and the fate specification of daughter cells of the GMC. Our results with midline (mid), which encodes a T-box protein, in a typical lineage, NB4-2-->GMC-1-->RP2/sib, suggest that at least part of the process operates in GMCs. That is, a GMC or a neuronal identity need not be determined at the NB or NE level. This is demonstrated by showing that Mid is expressed in a row 5 GMC (M-GMC), but not in its parent NB or NE cell. In mid mutants, M-GMC changes into GMC-1 and generates an RP2 and a sib without affecting the expression of key genes at the NE/NB levels. Expression of Mid in the M-GMC in mid mutants rescues the fate change, indicating that Mid specifies neurons at the GMC level. Moreover, we found a significant plasticity in the temporal window in which a neuronal lineage can develop. Although the extra GMC-1 in mid mutants is born approximately 2 hours later than the bona fide GMC-1, it follows the same developmental pattern as the bona fide GMC-1. Thus, a GMC identity can be independent of parental identity and GMC formation and elaboration need not be strictly time-bound.
在果蝇中枢神经系统中,神经外胚层(NE)细胞在神经母细胞(NB)形成之前,通过组合式、相互依存的顺序遗传程序来确定NB的初始身份。随后,时间因子依次表达以改变时间身份。目前尚不清楚这种位置和时间信息在何种水平上整合以确定子代细胞身份。一种观点认为这是一个自上而下的线性过程:NB的身份决定其女儿细胞即神经节母细胞(GMC)的身份、GMC的不对称分裂以及GMC子代细胞的命运决定。我们对中线(mid)基因(该基因编码一种T-box蛋白)在典型谱系NB4-2→GMC-1→RP2/姐妹细胞中的研究结果表明,该过程至少部分在GMC中起作用。也就是说,GMC或神经元身份不一定在NB或NE水平上确定。这一点通过以下事实得以证明:Mid在第5排GMC(M-GMC)中表达,但不在其亲代NB或NE细胞中表达。在mid突变体中,M-GMC转变为GMC-1并产生一个RP2和一个姐妹细胞,而不影响NE/NB水平上关键基因的表达。在mid突变体的M-GMC中表达Mid可挽救命运改变,表明Mid在GMC水平上确定神经元身份。此外,我们发现神经元谱系发育的时间窗口具有显著的可塑性。尽管mid突变体中额外的GMC-1比真正的GMC-1大约晚2小时产生,但它遵循与真正的GMC-1相同的发育模式。因此,GMC身份可以独立于亲代身份,并且GMC的形成和分化不一定严格受时间限制。