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991.
Delalande JM Barlow AJ Thomas AJ Wallace AS Thapar N Erickson CA Burns AJ 《Developmental biology》2008,313(1):279-292
The enteric nervous system (ENS) is formed from vagal and sacral neural crest cells (NCC). Vagal NCC give rise to most of the ENS along the entire gut, whereas the contribution of sacral NCC is mainly limited to the hindgut. This, and data from heterotopic quail-chick grafting studies, suggests that vagal and sacral NCC have intrinsic differences in their ability to colonize the gut, and/or to respond to signalling cues within the gut environment. To better understand the molecular basis of these differences, we studied the expression of genes known to be essential for ENS formation, in sacral NCC within the chick hindgut. Our results demonstrate that, as in vagal NCC, Sox10, EdnrB, and Ret are expressed in sacral NCC within the gut. Since we did not detect a qualitative difference in expression of these ENS genes we performed DNA microarray analysis of vagal and sacral NCC. Of 11 key ENS genes examined from the total data set, Ret was the only gene identified as being highly differentially expressed, with a fourfold increase in expression in vagal versus sacral NCC. We also found that over-expression of RET in sacral NCC increased their ENS developmental potential such that larger numbers of cells entered the gut earlier in development, thus promoting the fate of sacral NCC towards that of vagal NCC. 相似文献
992.
During development, the semaphorin family of guidance molecules is required for proper formation of the sympathetic nervous system. Plexins are receptors that mediate semaphorin signaling, but how plexins function during sympathetic development is not fully understood. Using phenotypic analyses of mutant mice in vivo, expression pattern studies, and in vitro assays, we show that plexin-A3 and plexin-A4 are essential for normal sympathetic development. This study confirms our previous in vitro findings that the two plexins differentially regulate the guidance of sympathetic axons. In addition, we find that semaphorin signaling through plexin-A3 and plexin-A4 restricts the migration of sympathetic neurons, but these two plexins function redundantly since migration defects are only observed in plexin-A3/-A4 double mutants. Surprisingly, our analysis also indicates that plexin-A3 and plexin-A4 are not required for guiding neural crest precursors prior to reaching the sympathetic anlagen. Immunoprecipitation studies suggest that these two plexins independently mediate secreted semaphorin signaling. Thus, plexin-A3 and plexin-A4 are expressed in newly-differentiated sympathetic neurons, but not their neural crest precursors. They function cooperatively to regulate the migration of sympathetic neurons and then differentially to guide the sympathetic axons. 相似文献
993.
Neural crest cell (NCC) invasion is a complex sculpting of individual cells into organized migratory streams that lead to organ development along the vertebrate axis. Key to our understanding of how molecular mechanisms modulate the NCC migratory pattern is information about cell behaviors, yet it has been challenging to selectively mark and analyze migratory NCCs in a living embryo. Here, we apply an innovative in vivo strategy to investigate chick NCC behaviors within the rhombomere 4 (r4) migratory stream by combining photoactivation of KikGR and confocal time-lapse analysis of H2B-mRFP1 transfected NCCs. We find that the spatial order of r4 NCC emergence translates into a distal-to-proximal invasion of the 2nd branchial arch. Lead and trailing NCCs display similar average cell speeds and directionalities. Surprisingly, we find that lead NCCs proliferate along the migratory route and grow to outnumber trailing NCCs by nearly 3 to 1. A simple, cell-based computational model reproduces the r4 NCC migratory pattern and predicts the invasion order can be disrupted by slower, less directional lead cells or by environmental noise. Our results suggest a model in which NCC behaviors maintain a spatially-ordered invasion of the branchial arches with differences in cell proliferation between the migratory front and trailing NCCs. 相似文献
994.
995.
Cooley MA Kern CB Fresco VM Wessels A Thompson RP McQuinn TC Twal WO Mjaatvedt CH Drake CJ Argraves WS 《Developmental biology》2008,319(2):336-345
Here we report that mouse embryos homozygous for a gene trap insertion in the fibulin-1 (Fbln1) gene are deficient in Fbln1 and exhibit cardiac ventricular wall thinning and ventricular septal defects with double outlet right ventricle or overriding aorta. Fbln1 nulls also display anomalies of aortic arch arteries, hypoplasia of the thymus and thyroid, underdeveloped skull bones, malformations of cranial nerves and hemorrhagic blood vessels in the head and neck. The spectrum of malformations is consistent with Fbln1 influencing neural crest cell (NCC)-dependent development of these tissues. This is supported by evidence that Fbln1 expression is associated with streams of cranial NCCs migrating adjacent to rhombomeres 2-7 and that Fbln1-deficient embryos display patterning anomalies of NCCs forming cranial nerves IX and X, which derive from rhombomeres 6 and 7. Additionally, Fbln1-deficient embryos show increased apoptosis in areas populated by NCCs derived from rhombomeres 4, 6 and 7. Based on these findings, it is concluded that Fbln1 is required for the directed migration and survival of cranial NCCs contributing to the development of pharyngeal glands, craniofacial skeleton, cranial nerves, aortic arch arteries, cardiac outflow tract and cephalic blood vessels. 相似文献
996.
Shigetani Y Howard S Guidato S Furushima K Abe T Itasaki N 《Developmental biology》2008,319(2):346-358
While most cranial ganglia contain neurons of either neural crest or placodal origin, neurons of the trigeminal ganglion derive from both populations. The Wnt signaling pathway is known to be required for the development of neural crest cells and for trigeminal ganglion formation, however, migrating neural crest cells do not express any known Wnt ligands. Here we demonstrate that Wise, a Wnt modulator expressed in the surface ectoderm overlying the trigeminal ganglion, play a role in promoting the assembly of placodal and neural crest cells. When overexpressed in chick, Wise causes delamination of ectodermal cells and attracts migrating neural crest cells. Overexpression of Wise is thus sufficient to ectopically induce ganglion-like structures consisting of both origins. The function of Wise is likely synergized with Wnt6, expressed in an overlapping manner with Wise in the surface ectoderm. Electroporation of morpholino antisense oligonucleotides against Wise and Wnt6 causes decrease in the contact of neural crest cells with the delaminated placode-derived cells. In addition, targeted deletion of Wise in mouse causes phenotypes that can be explained by a decrease in the contribution of neural crest cells to the ophthalmic lobe of the trigeminal ganglion. These data suggest that Wise is able to function cell non-autonomously on neural crest cells and promote trigeminal ganglion formation. 相似文献
997.
Fujita Y Hiroyama M Sanbe A Yamauchi J Murase S Tanoue A 《Biochemical and biophysical research communications》2008,370(1):169-173
While a mother’s excessive alcohol consumption during pregnancy is known to have adverse effects on fetal neural development, little is known about the underlying mechanism of these effects. In order to investigate these mechanisms, we investigated the toxic effect of ethanol (ETOH) on neural stem/precursor cell (NSC) proliferation. In cultures of NSCs, phospholipase D (PLD) is activated following stimulation with epidermal growth factor (EGF) and fibroblast growth factor 2 (FGF2). Exposure of NSCs to ETOH suppresses cell proliferation, while it has no effect on cell death. Phosphatidic acid (PA), which is a signaling messenger produced by PLD, reverses ETOH inhibition of NSC proliferation. Blocking the PLD signal by 1-butanol suppresses the proliferation. ETOH-induced suppression of NSC proliferation and the protective effect of PA for ETOH-induced suppression are mediated through extracellular signal-regulated kinase signaling. These results indicate that exposure to ETOH impairs NSC proliferation by altering the PLD signaling pathway. 相似文献
998.
El Seady R Huisman MA Löwik CW Frijns JH 《Biochemical and biophysical research communications》2008,376(2):358-362
Epidermal neural crest stem cells (EPI-NCSCs), derived from the bulge of hair follicles, appear to be promising donor stem cell candidates. In the current work, EPI-NCSCs were harvested from rodents and humans. Isolation procedures revealed high levels of nestin-positive neural stem cells and the percentage of human neural stem cells (95 ± 0.6%) is even higher than the percentage found in cultures of hair follicles from rodents (90 ± 0.9%). Furthermore, differentiation of EPI-NCSCs into bipolar neurons, myelinating Schwann cells and oligodendrocytes occurred by applying a simple and straightforward method. Bipolar neurons could be obtained by culturing on a collagen matrix and are of great interest for auditory neuron regeneration since auditory neurons are bipolar.We propose that this type of stem cells, would make an excellent model for autologous transplantation and offers great potential for neural regeneration in diseases, such as Parkinson’s and Alzheimer’s disease. 相似文献
999.
Geeta R Ramnath RL Rao HS Chandra V 《Biochemical and biophysical research communications》2008,373(2):258-264
We report the generation of functional dopaminergic neurons from human embryonic stem cells (hESCs) using a growth factor mediated multistep EB protocol and its therapeutic effects in vivo. Embryoid bodies (EBs) were cultured in insulin-transferrin-selenium fibronectin (ITSFn) media for the selection of neural precursor cells (NPC). The selected cells on exposure to N2 media supplemented with EGF, bFGF initially aggregated to generate spontaneous free floating neurospheres and on exposure to signaling molecules Shh and FGF-8 differentiated into dopaminergic neurons (40% TH+ cells/total neurons). The differentiated NPC expressed dopaminergic specific markers both at cellular and molecular levels. They secreted detectable levels of dopamine into the culture supernatant. The most unique feature of our protocol is the generation of free floating neurospheres which can be expanded for a longer period without losing their capability to differentiate into DA neurons. Further, transplantation of NPCs into the substantia nigra of 6-OHDA lesioned rat model of Parkinson’s disease elicited significant reversal of lesion induced motor deficits which was sustained upto the end of 1 year long study period. Immunohistochemical studies of the grafted area one year post transplantation revealed that transplanted hESC derived neural precursor cells survived, integrated in vivo and differentiated into dopaminergic neurons without teratoma formation.In summary, our results encourage the potential use of hESC derived dopaminergic neurons for future clinical application in Parkinson’s disease. 相似文献
1000.