Fate mapping study of the endoderm of the 1.5-day-old chick embryo

Various portions of the endoderm between the levels of the first and the 10th somite of 1.5-day-old chick embryos were marked by local application of the vital dye Dil, and the fate of marked cells was analyzed after cultivation of the embryos for 2 days in vitro.The presumptive area of digestive tract ranging from the posterior pharynx to the jejunum was found to extend bilaterally from the midline of the 1.5-day embryo with a width two or three times as great as the distance between the midline and the lateral edge of the somite. Either side of this area contributed to the same side of the endodermal tube of digestive tract. The anterior and posterior portions generally contributed to the anterior and posterior regions of the digestive tract, respectively, and the cells originating from the portion farther from the midline took the more ventral and posterior position in the digestive tract endoderm. Most of the presumptive areas of the digestive organs in the endoderm of 1.5-day embryo were located in a more anterior position than those in the splanchnic mesoderm.     

Mapping the early development of projections from the entorhinal cortex in the embryonic mouse using prenatal surgery techniques

The purpose of this work was to study the development of specific projections from the postero-lateral cortex during the third trimester of gestation in the mouse. To do this, we labeled undifferentiated lateral cortex with the fluorescent carbocyanine dye, Dil, in the embryonic day (E) 16 mouse embryo using exo utero surgical techniques (Muneoka, Wanek, and Bryant, 1986). Embryos were allowed to develop to term (postnatal day 0, P0) at which time the fiber patterns emanating from the marked regions were studied. Dye placement in the undifferentiated postero-ventral cortex produced labeled fibers in the hippocampal formation. A robust projection of the angular bundle into the CA1 region of the hippocampus was heavily labeled. In addition, in some animals, cortical tracts, such as the anterior commissure, corpus callosum, and a corticotectal tract, were labeled. These tracts have been described previously as scaffolding pathways in the fetal cat (McConnell, Ghosh, and Shatz, 1989), and other vertebrates (Wilson, Ross, Parrett, and Easter, 1990). Dye placement in adjacent, more anterior or dorsal areas showed strong labeling in cortical structures but no labeling in the hippocampal formation. These data indicate that, by birth, the temporal cortex is subdivided along the rostro-caudal axis as entorhinal cortex and perirhinal cortex, and along the dorso-ventral axis, as entorhinal cortex and neocortex. Also, these earliest connections are similar to adult connections in their specificity of target area selection. Therefore, these early, yet specific, connections may play a role in the formation of future connections during postnatal development.     

Migration of cranial neural crest cells to the pharyngeal arches and heart in rat embryos

Summary The existence of a neural crest cell migration pathway from occipital levels of the hindbrain into the heart was suspected in mammalian embryos because it had previously been identified in avian embryos and because the Di George anomaly, an association between craniofacial and cardiac malformations, is most easily explained on the basis of abnormal neural crest cell migration to all of the affected structures. In order to demonstrate the existence of this pathway, neural crest cells were labelled in situ in rat embryos with the fluorescent dye DiI, and the embryos cultured for up to 48 h. Cells labelled between occipital somites 1 and 2 or 3 and 4 migrated within and dorsal to the third and fourth pharyngeal arches and into the outflow tract of the heart (conus cordis and truncus arteriosus). The cardiac labelling was in individually visible cells, in contrast to the mass of fluorescence seen in the pharyngeal and dorsal mesenchyme. Within the outflow tract wall, the labelled cells were enmeshed by strands of alcian blue-stained extracellular matrix. There was no labelling of cardiac cells following injections just rostral to, or just caudal to, somites one and four. This study establishes the existence and precise levels of origin of the cardiac neural crest in a mammalian embryo.     

Dil对鱼类视觉传导通路的形态学研究

目的：应用Dil染色晶体研究罗非鱼脑、脑神经及其视觉传导路的形态分布。方法：罗非鱼6只,体长12．16ctn,进行灌注固定后,在外科显微镜下开颅并确认脑和脑神经根,分别于双侧视神经植入Dil染色晶体。37℃恒温箱放置3个月,待Dil染色晶体扩散后,取出植入Dil染色晶体的视神经和脑,再根据神经走向切片,通过荧光显微镜观察Dil染色晶体在视觉传导路的形态分布。结果：①外科显微镜下可以观察到罗非鱼的脑分为端脑、中脑、间脑、小脑和延脑5部分,并同时观察到10对脑神经。②右侧视神经植入Dil染色晶体后,均可见到标记的右侧视神经纤维,行向后内,穿经视神经管入颅,逐步靠近左侧视神经,进一步行向后内,经过左侧视神经上方,进行完全交叉,形成视交叉,再经左侧视柬连于左侧间脑视盖。结论：罗非鱼的脑分为5部分,脑神经只有10对。罗非鱼视交叉属于完全性交叉,视觉中枢可能位于间脑视盖内。     

金鱼再生的视神经在顶盖投射精确化的DiI顺行标记研究

本文用微量显微注射法,在金鱼视网膜的背侧用亲脂类荧光染料DiI标记少量神经节细胞,通过顺行标记研究了视神经再生过程中视网膜顶盖投射的精确化过程。在损伤视神经后的不同时期观察了再生视神经纤维在顶盖整装片上的分布。在再生早期它们以超出正常的途径由背腹两侧进入顶盖,广泛分布。但其中大部分仍分布于顶盖腹侧的靶区。在再生晚期通过精确化,重建如正常鱼一样精确的视网膜顶盖投射。这个精确化过程表现在以下三方面:(1)再生于顶盖错误区域的再生视神经纤维的消失;(2)再生早期视神经纤维主干上生长的侧部分支的消失;(3)到达靶区的再生视神经纤维形成重迭的终末分支。由以上结果推测,顶盖中可能存在两类不同的因子:一类是普通诱向因子,存在于整个顶盖中,它在再生早期引导再生的视神经纤维长入顶盖。另一类是神经营养因子,它具区域特异性,在再生晚期引导视神经纤维到达顶盖靶区,形成精确的视网膜顶盖投射。     

Tanshinone IIA increases recruitment of bone marrow mesenchymal stem cells to infarct region via up-regulating stromal cell-derived factor-1/CXC chemokine receptor 4 axis in a myocardial ischemia model

Systemic administration with bone marrow mesenchymal stem cells (BMSCs) is a promising approach to cure myocardial ischemia (MI), while the efficacy of cell transplantation is limited by the low engraftment of BMSCs. Tanshinone IIA (Tan IIA) has been reported many times for the treatment of MI. Therefore, the present study was performed to investigate whether Tan IIA could increase the migration of BMSCs to ischemic region and its potential mechanisms. In our study, we found that combination treatment with Tan IIA and BMSCs significantly alleviated the infarct size when compared with control group (31.46 ± 3.00% vs. 46.95 ± 6.51%, p < 0.05). Results of real-time PCR showed that Tanshinone IIA (Tan IIA) did increase the migration of BMSCs to ischemic region in vivo, which was correlated with cardiac function recovery after MI. Furthermore, 2 μM Tan IIA could enhance the migration capability of BMSCs in vitro (3.69-fold of control), and this enhancement could be blocked by AMD3100 (a CXC chemokine receptor 4 blocker). CXCR4, together with its specific receptor, stromal cell-derived factor-1 (SDF-1) plays a critical role in the stem cell recruitment. Our experiment indicated that Tan IIA could promote SDF-1α expression in the infarct area and enhance the CXCR4 expression of BMSCs in vitro. Therefore, we postulated that Tan IIA could increase the BMSCs migration via up-regulating SDF1/CXCR4 axis.     

Fate mapping study of the splanchnopleural mesoderm of the 1.5-day-old chick embryo

Various portions of the splanchnopleural mesoderm lateral to the somites of 1.5-day chick embryos were marked in ovo by local injection of Dil, and the distribution of the labelled cells in the digestive-tract mesoderm formed after 3 days' reincubation was analysed. The presumptive area of the digestive organs was confined to bands of splanchnic mesoderm lying lateral to the somites, on both sides, with a width two or three times that between the midline of the embryo and the lateral edge of the somite. Each band generally contributed cells to its own side of the digestive-tract mesoderm, except for the region around the bile duct. The anterior and posterior portion of the pre-gut area contributed cells to the anterior and posterior region of the digestive tract, respectively, but label originating from the portion furthest from the somite took the more ventral and posterior position. Thus, the presumptive areas of the respective digestive organs were located anteroposteriorly in the same order as in the digestive tract with their boundaries lying oblique to the embryonic axis.     

Participation of membrane calcium channels in erythropoietin-induced endothelial cell migration

Calcium (Ca²⁺) plays an important role in angiogenesis, as it activates the cell migration machinery. Different proangiogenic factors have been demonstrated to induce transient Ca²⁺ increases in endothelial cells. This has raised interest in the contribution of Ca²⁺ channels to cell migration, and in a possible use of channel-blocking compounds in angiogenesis-related pathologies. We have investigated the ability of erythropoietin (Epo), a cytokine recently involved in angiogenesis, to induce Ca²⁺ influx through different types of membrane channels in EA.hy926 endothelial cells. The voltage-dependent Ca²⁺ channel antagonists amlodipine and diltiazem inhibited an Epo-triggered transient rise in intracellular Ca²⁺, similarly to a specific inhibitor (Pyr3) and a blocking antibody against the transient potential calcium channel 3 (TRPC3). Unlike diltiazem, amlodipine and the TRPC3 inhibitors prevented the stimulating action of Epo in cell migration and in vitro angiogenesis assays. Amlodipine was also able to inhibit an increase in endothelial cell migration induced by Epo in an inflammatory environment generated with TNF-α. These results support the participation of Ca²⁺ entry through voltage-dependent and transient potential channels in Epo-driven endothelial cell migration, highlighting the antiangiogenic activity of amlodipine.     

Projections and pathways of submucous neurons to the mucosa of the guinea-pig small intestine

Summary Double-labelling immunohistochemistry and retrograde transport of the carbocyanine dye, DiI, were used to establish the pathways of submucous neurons to the mucosa of the guinea-pig small intestine. Following the application of DiI to a villus, DiI-labelled nerve cell bodies were found in the submucous plexus up to 8.3 mm circumferentially and 3.8 mm longitudinally. The size of each of the four characterised classes of submucous neurons was determined and their distributions and projections mapped. Cells characterised by vasoactive intestinal polypeptide immunoreactivity accounted for 52% of DiI-labelled cells and had the longest projections. Cells characterised by neuropeptide Y (19%) or by calretinin immunoreactivity (13% of all DiI-labelled neurons) had relatively short projections and cells with substance P immunoreactivity (20%) had intermediate lengths of projection. When DiI was applied directly to the submucous plexus, filled neurons of all classes had significantly shorter projections, indicating that they must run for considerable distances in other pathways to the mucosa, probably via the non-ganglionated plexus. On average, each villus is innervated by at least 70 submucous neurons. From quantitative estimates there are 9 submucous neurons per villus. Thus, each submucous neuron is likely to supply about 8 villi. This demonstrates a high degree of convergence and divergence in the innervation of the mucosa.