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31.
Rapid and persistent activation of c-JUN is necessary for axonal regeneration after nerve injury, although upstream molecular events leading to c-JUN activation remain largely unknown. ZPK/DLK/MAP3K12 activates the c-Jun N-terminal kinase pathway at an apical level. We investigated axonal regeneration of the dorsal root ganglion (DRG) neurons of homozygous ZPK/DLK gene-trap mice. In vitro neurite extension assays using DRG explants from 14 day-old mice revealed that neurite growth rates of the ZPK/DLK gene-trap DRG explants were reduced compared to those of the wild-type DRG explants. Three ZPK/DLK gene-trap mice which survived into adulthood were subjected to sciatic nerve axotomy. At 24 h after axotomy, phosphorylated c-JUN-positive DRG neurons were significantly less frequent in ZPK/DLK gene-trap mice than in wild-type mice. These results indicate that ZPK/DLK is involved in regenerative responses of mammalian DRG neurons to axonal injury through activation of c-JUN.  相似文献   
32.
Examining calcium dynamics within the neural crest (NC) has the potential to shed light on mechanisms that regulate complex cell migration and patterning events during embryogenesis. Unfortunately, typical calcium indicators are added to culture media or have low signal to noise after microinjection into tissue that severely limit analyses to cultured cells or superficial events. Here, we studied in vivo calcium dynamics during NC cell migration and patterning, using a genetically encoded calcium sensor, GCaMP3. We discovered that trunk NC cells displayed significantly more spontaneous calcium transients than cranial NC cells, and during cell aggregation versus cell migration events. Spontaneous calcium transients were more prevalent during NC cell aggregation into discrete sympathetic ganglia (SG). Blocking of N-cadherin activity in trunk NC cells near the presumptive SG led to a dramatic decrease in the frequency of spontaneous calcium transients. Detailed analysis and mathematical modeling of cell behaviors during SG formation showed NC cells aggregated into clusters after displaying a spontaneous calcium transient. This approach highlights the novel application of a genetically encoded calcium indicator to study subsets of cells during ventral events in embryogenesis.  相似文献   
33.
The stigmoid body (STB) is a cytoplasmic inclusion containing huntingtin-associated protein 1 (HAP1), and HAP1/STB formation is induced by transfection of the HAP1 gene into cultured cells. In the present study, we examined the intracellular colocalization of HAP1/STBs with steroid hormone receptors (SHRs), including the androgen receptor (AR), estrogen receptor, glucocorticoid receptor (GR), and mineralocorticoid receptor, in COS-7 cells cotransfected with HAP1 and each receptor. We found that C-terminal ligand-binding domains of all SHRs had potential for colocalization with HAP1/STBs, whereas only AR and GR were clearly colocalized with HAP1/STBs when each full-length SHR was coexpressed with HAP1. In addition, it appeared that HAP1/STBs did not disrupt GR and AR functions because the receptors on HAP1/STBs maintained nuclear translocation activity in response to their specific ligands. When the cells were treated with a proteasome inhibitor, GR and AR localized outside HAP1/STBs translocated into the nucleus, whereas the receptors colocalized with HAP1/STBs persisted in their colocalization even after treatment with their ligands. Therefore, HAP1/STBs may be involved in cytoplasmic modifications of the nuclear translocation of GR and AR in a ubiquitin–proteasome system.  相似文献   
34.
The mouse submandibular gland (SMG) epithelium undergoes extensive morphogenetic branching during embryonic development as the first step in the establishment of its glandular structure. However, the specific signaling pathways required for SMG branching morphogenesis are not well understood. Using E13 mouse SMG organ cultures, we showed that inhibitors of phosphatidylinositol 3-kinase (PI 3-kinase), wortmannin and LY294002, substantially inhibited branching morphogenesis in SMG. Branching morphogenesis of epithelial rudiments denuded of mesenchyme was inhibited similarly, indicating that PI 3-kinase inhibitors act directly on the epithelium. Immunostaining and Western analysis demonstrated that the p85 isoform of PI 3-kinase is expressed in epithelium at levels higher than in the mesenchyme. A target of PI 3-kinase, Akt/protein kinase B (PKB), showed decreased phosphorylation at Ser(473) by Western analysis in the presence of PI 3-kinase inhibitors. The major lipid product of PI 3-kinase, phosphatidylinositol 3,4,5-trisphosphate (PIP(3)), was added exogenously to SMG via a membrane-transporting carrier in the presence of PI 3-kinase inhibitors and was found to stimulate cleft formation, the first step of branching morphogenesis. Together, these data indicate that PI 3-kinase plays a role in the regulation of epithelial branching morphogenesis in mouse SMG acting through a PIP(3) pathway.  相似文献   
35.
Neural crest (NC) cells have been elegantly traced to follow stereotypical migratory pathways throughout the vertebrate embryo, yet we still lack complete information on individual cell migratory behaviors and how molecular mechanisms direct NC cell guidance. Here, we analyze the spatio-temporal migratory pattern of post-otic NC and the in vivo role of the small Rho GTPase, RhoA, using fluorescent cell labeling, molecular perturbation, and intravital 4D (3D+ time) confocal imaging in the intact chick embryo. We find that the post-otic NC cell migratory pattern is established in two phases with distinct cell migratory behaviors. An initial wide front of lateral-directed NC cells, led by NC from rhombomere 7 (r7), move as a distinct subpopulation. This is followed in time by fewer NC cells that migrate collectively from r7 to r8 in a follow-the-leader manner with extensive cellular extensions between cells. We show that post-otic migratory NC cells express RhoA, using RT-PCR on isolated, flow cytometry sorted NC cells and in neural tube culture explants. When RhoA function is altered by expression of a dominant negative or constitutively active form, or injection of C3, there are two major consequences. RhoA constitutively active expressing NC cells are less directional, slower and form fewer follow-the-leader chain assemblies. NC cells expressing RhoA-DN are less affective in retracting filopodia, migrate slower and also form fewer follow-the-leader chain assemblies. Together, these alterations to NC cell intrinsic signaling and cell-cell contact disrupt the precise spatio-temporal post-otic NC cell migratory pattern.  相似文献   
36.
While some studies have shown that the closed embryo culture system (CCS) is a possible improvement over standard embryo culture systems (STS) in terms of early embryonic development, information on clinical outcomes of culturing blastocysts following single vitrified-warmed blastocyst transfer (SVBT) in the CCS and STS remains limited. Therefore, the objective of this single-center, large-cohort, retrospective study was to compare embryonic development until the blastocyst stage and clinical outcomes following SVBT between CCS and STS. From May 2017 to October 2018, 2420 oocytes from 1402 patients who underwent in vitro fertilization and blastocyst culture after minimal stimulation were divided into two groups (CCS and STS). The main outcome measures in the two groups were embryological (blastocyst formation rates and utilized blastocyst rates) and clinical outcomes (ongoing pregnancy rates) after a single vitrified-warmed blastocyst transfer (SVBT). There were no significant differences in the blastocyst formation rates between the CCS and STS groups (59.6% versus 59.1%, p = 0.81). However, there were significant differences in utilized blastocyst rates (51.0% versus 46.6%, p < 0.05). Ongoing pregnancy rates per SVBT cycle were significantly higher in the CCS group than in the STS group (41.4% versus 34.4%, p < 0.05). Moreover, after applying multivariable logistic regression analysis, the type of embryo culture system (CCS to STS, adjusted odds ratios: 1.41, 95% CI: 1.04–1.91) was correlated with ongoing pregnancy. Our study suggests that compared to STS, CCS could improve utilized blastocyst rates and ongoing pregnancy rates to a greater extent, following SVBT.  相似文献   
37.
A new chlorarachniophyte, Norrisiella sphaerica S. Ota et K. Ishida gen. et sp. nov., from the coast of Baja California, Mexico is described. We examined its morphology, ultrastructure, and life cycle in detail, using light microscopy, transmission electron microscopy, and time-lapse videomicroscopy. We found that this chlorarachniophyte possessed the following characteristics: (1) vegetative cells were coccoid and possessed a cell wall, (2) a pyrenoid was slightly invaded by plate-like periplastidial compartment from the tip of the pyrenoid, (3) a nucleomorph was located near the pyrenoid base in the periplastidial compartment, (4) cells reproduced vegetatively via autospores, and (5) a flagellate stage was present in the life cycle. This combination of characteristics differs from any of the described chlorarachniophyte genera, and therefore a new genus is established. Fluorescent microscopic observations suggested that the alga formed multinucleate cells prior to forming autospores. Time-lapse observations during autospore formation showed that cytokinesis occurred simultaneously in the multinucleate cells. Zoospores were also produced, and video sequences captured the release of zoospores from coccoid cells. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.  相似文献   
38.
The stigmoid body (STB) is a neurocytoplasmic inclusion containing huntingtin-associated protein 1 (HAP1), an interactor of huntingtin, and its formation is induced by transfection of HAP1-cDNA into cultured cells. Although STB is believed to play a protective role in polyglutamine diseases, including Huntington’s disease and spinal and bulbar muscular atrophy, by sequestering the causative proteins, huntingtin and androgen receptor, respectively, its physiological function and formation remain poorly understood. Therefore, STB is occasionally confused with another cytoplasmic inclusion observed in polyglutamine diseases, the aggresome. Here we examined the subcellular dynamics of STB and compared it immunohistochemically and cytochemically with the aggresome in the rat brain and COS-7 or HeLa cells transfected with HAP1 and/or polyglutamine disease-associated genes. In time-lapse image analysis of HAP1-transfected cells, the HAP1-induced STB is formed from multiple fusions of small HAP1 inclusions characterized by vigorous cytoplasmic movement. In HAP1-transfected cells treated with a microtubule-depolymerizing drug, although the formation of small HAP1 inclusions was not affected, their fusion was critically inhibited. Immunohistochemistry and cytochemistry revealed the absence of association between STB and aggresomal markers, such as ubiquitin/proteasome, intermediate filaments, and the centrosome. Taken together, we concluded that STB is formed by a two-step process comprising microtubule-independent formation of small HAP1 inclusions and microtubule-dependent fusion of these inclusions, and that STB is distinct from pathological aggresomes.  相似文献   
39.
The Wnt4 gene encodes a secreted signaling molecule controlling the development of several organs, such as the kidney, adrenal gland, ovary, mammary gland and pituitary gland. It is thought to act in the embryonic kidney as an auto-inducer of nephrogenesis controlling mesenchyme-to-epithelium transition, and Wnt4-deficient mice die soon after birth, probably of kidney failure. Given the requirement for Wnt4 signaling in the control of organogenesis, the targeting of Cre recombinase under the control of the Wnt4 promoter would provide a valuable tool for fate mapping and functional genomics. We report here on the generation and characterization of a Wnt4EGFPCre knock-in allele where the EGFPCre fusion cDNA and Neo selection cassette were targeted into the Wnt4 locus. EGFP-derived fluorescence was observed in the pretubular aggregates of the E14.5 embryonic kidney that normally express Wnt4 mRNA. Characterization of the pattern of recombination of the floxed Rosa26LacZ reporter with the Wnt4EGFPCre allele revealed that in addition to the embryonic kidney, reporter-derived staining was observed in the embryonic gonad, spinal cord, lung and adrenal gland, i.e. the sites of Wnt4 gene expression. Time-lapse fate mapping of the Wnt4EGFPCre-activated yellow fluorescent protein (YFP) from the Rosa26 locus in organ culture revealed that the cells that had expressed the Wnt4 gene contributed to the nephrons, some of the cells around the stalk of the developing ureter and also certain presumptive medullary stromal cells. Moreover, the time-lapse movies suggested that the first few pretubular cell aggregates may not mature into nephrons but instead appear to disintegrate. In association with this, Rosa26YFP-positive stromal cells emerge around these disintegrating structures. Such cells may be transient, since their derivatives are neither detected later in the more mature kidney nor is there an overlap of the Wnt4EGFPCre; Rosa26LacZ-marked cells with those of the endothelial cells, the smooth muscle cells or the macrophages. The Wnt4EGFPCre allele provides a useful new tool for conditional mutagenesis and provides the first time-lapse-based map of the fate of nephron precursor cells.  相似文献   
40.
The between bulls variation in in vitro fertility and the shift of sex ratio towards male embryos are two problems affecting the in vitro production (IVP) of bovine embryos. Our objective was to evaluate the kinetics of fertilization, embryo development and the sex ratio of the resulting embryos using the frozen/thawed semen of four different bulls. In a first experiment, the kinetics of pronucleus (PN) formation was evaluated at 8, 12 and 18 h post-insemination (hpi). Based upon the pronuclei sizes and the distance between the two pronuclei, inseminated oocytes were classified in three PN stages. Differences between bulls were observed at each time point, but were more important at 12 hpi. At 8 and 12 hpi bull III showed a significantly faster PN evolution by comparison with the three other bulls (P<0.05), while at 18 hpi, the proportion of the three PN stages was similar to those of bulls I and IV, bull II being delayed. In a second experiment, the kinetics of in vitro embryo development was compared using time-lapse cinematography. The analysis of embryos reaching the blastocyst stage revealed significant differences in the mean time of first cleavage (range of 22.7-25.6h, P<0.05), while the lengths of the subsequent three cell cycles did not differ between bulls. The early mean time of first cleavage with bull III was associated with an early blastulation and a high blastocyst rate at Day 7, in opposition to what was observed with bull II showing a later timing of first cleavage (first cleavage 22.1 hpi versus 25.5 hpi; blastulation 140.4 hpi versus 152.5 hpi; D7 blastocyst rates: 31.3% versus 21.9%; P<0.05). In a third experiment, 65-76 Day 8 blastocysts per bull were sexed by PCR. Only blastocysts obtained with bull III showed a shift in sex ratio towards male embryos (76% male embryos; P<0.05). Such shift was already observed at the 2-cell and morula stages. In conclusion, the bull influences the kinetics of PN formation, of embryo development and the sex ratio of the embryos. Moreover, those parameters might be related.  相似文献   
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