Neuroscience Institute and Department of Biology, Georgia State University, Atlanta, Georgia, USA.
Dev Neurobiol. 2011 Apr;71(4):316-35. doi: 10.1002/dneu.20862.
achaete-scute complex (ASC) genes, which encode basic helix-loop-helix transcription factors, regulate embryonic and adult neurogenesis in many animals. In adult arthropods, including crustaceans, ASC homologs have been identified but rarely functionally characterized. We took advantage of the recently identified crustacean homolog, splash (spiny lobster achaete scute homolog), in the olfactory organ of the Caribbean spiny lobster Panulirus argus to examine its role in adult neurogenesis. We tested the hypothesis that splash is associated with but not restricted to sensory neuron formation in the olfactory organ, the antennular lateral flagellum (LF), of adult spiny lobsters. We demonstrated splash labeling in epithelial cells across LF developmental zones (i.e., proliferation and mature zones), in auxiliary cells surrounding dendrites of olfactory receptor neurons (ORNs), and in immature and mature ORNs, but not in granulocytes or chromatophores. Since ORN proliferation varies with molt stage, we examined splash expression across molt stages and found that molt stage affected splash expression in the ORN mature zone but not in the proliferation zone. In vivo incorporation of bromodeoxyuridine (BrdU) showed no correlation in the cellular pattern of splash expression and BrdU labeling. The intensity of splash labeling was dramatically enhanced in the proliferation zones following LF damage, suggesting enhanced splash expression during repair and/or regeneration. We conclude that splash is not closely associated with the formation of sensory neurons under normal physiological conditions, and we propose that splash is involved in repair and regeneration. We also propose that splash has additional roles other than neurogenesis in adult crustaceans.
achaete-scute 复合体 (ASC) 基因,编码基本螺旋-环-螺旋转录因子,调节许多动物的胚胎和成年神经发生。在包括甲壳类动物在内的成年节肢动物中,已经鉴定出 ASC 同源物,但很少对其功能进行特征描述。我们利用最近在加勒比刺龙虾 Panulirus argus 的嗅觉器官中鉴定出的甲壳类动物同源物 splash(棘龙虾 achaete scute 同源物)来研究其在成年神经发生中的作用。我们检验了以下假设:splash 与嗅觉器官(触角侧鞭毛 LF)中的感觉神经元形成有关,但不限于感觉神经元形成,在成年刺龙虾中。我们证明了 splash 在 LF 发育区(即增殖区和成熟区)的上皮细胞、围绕嗅觉受体神经元(ORN)树突的辅助细胞以及未成熟和成熟的 ORN 中都有标记,但在粒细胞或色素细胞中没有标记。由于 ORN 增殖随蜕皮阶段而变化,我们在蜕皮阶段检查了 splash 的表达情况,发现蜕皮阶段影响 ORN 成熟区的 splash 表达,但不影响增殖区。体内溴脱氧尿苷(BrdU)掺入显示 splash 表达与 BrdU 标记的细胞模式没有相关性。LF 损伤后增殖区 splash 标记的强度显著增强,表明在修复和/或再生过程中增强了 splash 的表达。我们得出结论,在正常生理条件下,splash 与感觉神经元的形成没有密切关系,我们提出 splash 参与修复和再生。我们还提出,在成年甲壳类动物中,splash 除了参与神经发生外,还有其他作用。