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1.
Hosokawa R Urata M Han J Zehnaly A Bringas P Nonaka K Chai Y 《Developmental biology》2007,310(1):140-153
Craniofacial development involves cranial neural crest (CNC) and mesoderm-derived cells. TGF-beta signaling plays a critical role in instructing CNC cells to form the craniofacial skeleton. However, it is not known how TGF-beta signaling regulates the fate of mesoderm-derived cells during craniofacial development. In this study, we show that occipital somites contribute to the caudal region of mammalian skull development. Conditional inactivation of Tgfbr2 in mesoderm-derived cells results in defects of the supraoccipital bone with meningoencephalocele and discontinuity of the neural arch of the C1 vertebra. At the cellular level, loss of TGF-beta signaling causes decreased chondrocyte proliferation and premature differentiation of cartilage to bone. Expression of Msx2, a critical factor in the formation of the dorsoventral axis, is diminished in the Tgfbr2 mutant. Significantly, overexpression of Msx2 in Myf5-Cre;Tgfbr2flox/flox mice partially rescues supraoccipital bone development. These results suggest that the TGF-beta/Msx2 signaling cascade is critical for development of the caudal region of the skull. 相似文献
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Lacalli TC 《Journal of morphology》2002,252(3):227-237
Amphioxus myotomes consist of separate sets of superficial and deep muscle fibers, each with its own innervation, that are thought to be responsible for slow swimming and escape behavior, respectively. Tracings from serial EM sections of the anterior nerve cord in the larva show that the motoneurons and premotor interneurons controlling the superficial fibers (the dorsal compartment, or DC pathway) are linked by specialized junctions of a previously undescribed type, referred to here as juxta-reticular (JR) junctions for the characteristic presence of a cisterna of endoplasmic reticulum on each side. JR junctions link the DC motoneurons with each other, with the largest of the anterior paired neurons (LPN3s) and with one class of ipsilateral projection neurons (IPNs), but occur nowhere else. Because of the paucity of synaptic input to the DC system, larval behavior can only be explained if the JR junctions act as functional links between cells. An analysis of the pattern of cell contacts also suggests that the LPN3s are probably pacemakers for both slow and fast locomotion, but act through junctions in the former case and conventional synapses in the latter. The only major synaptic input to the DC system identified in somites 1 and 2 was from four neurons located in the cerebral vesicle, referred to here as Type 2 preinfundibular projection neurons (PPN2s). They have unusually large varicosities, arranged in series, that make periodic contacts with the DC motoneurons. More caudally, the DC motoneurons receive additional input via similar large varicosities from the receptor cells of the first dorsal ocellus, located in somite 5. The overall circuitry of the locomotory control system suggests that the PPN2s may be instrumental in sustaining slow swimming, whereas mechanical stimulation, especially of the rostrum, preferentially activates the fast mode. 相似文献
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Menegola E Di Renzo F Broccia ML Prudenziati M Minucci S Massa V Giavini E 《Birth defects research. Part B, Developmental and reproductive toxicology》2005,74(5):392-398
BACKGROUND: the inhibition of histone deacetylase (HDAC) has been reported as an effective mechanism on therapy in neoplastic diseases. Among HDAC inhibitors, Trichostatin A (TSA) and Valproic Acid (VPA) prevent the tumorigenesis in rodent and human models. Malformations as neural tube and axial skeletal defects are well-known VPA side effects. Recent hypotheses suggest the HDAC inhibitor activity as the teratogenic mechanism of VPA. The teratogenic potency of TSA is, at the moment, unknown. The aim of the present work is to investigate the HDAC inhibition on embryos exposed in utero to TSA or VPA and to compare the teratogenic potential of these two molecules on the axial skeleton morphogenesis. METHODS: Pregnant CD mice were i.p. treated on day 8 post coitum (9.00 a.m.) with 400 mg/kg VPA or with 0, 2, 4, 8, 16 mg/kg TSA. Embryos explanted 1 hr after the treatment from some females exposed to 400 mg/kg VPA or to 16 mg/kg TSA were processed for Western blotting and immunohistochemical analysis, in order to evaluate the histone hyperacetylation in the total embryo homogenates and to visualize the hyperacetylated tissues. Foetuses at term were processed for skeletal examination. RESULTS: Both VPA and TSA were able to induce hyperacetylation on embryos, specifically at the level of the caudal neural tube and of somites. At term, TSA showed teratogenic effects at the axial skeleton, quite similar to those observed after VPA exposure. CONCLUSIONS: In conclusion, both VPA and TSA are teratogenic in mice. A direct correlation between somite hyperacetylation and axial abnormalities could suggest the HDAC inhibition as the mechanism of the teratogenic effects. 相似文献
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Elizabeth M. Morin‐Kensicki Cynthia Faust Christian LaMantia Terry Magnuson 《Genesis (New York, N.Y. : 2000)》2001,31(4):142-146
Summary: Mouse embryos homozygous for the allele eedl7Rn5‐3354SB of the Polycomb Group gene embryonic ectoderm development (eed) display a gastrulation defect in which epiblast cells move through the streak and form extraembryonic mesoderm derivatives at the expense of development of the embryo proper. Here we demonstrate that homozygous mutant ES cells have the capacity to differentiate embryonic cell types both in vitro as embryoid bodies and in vivo as chimeric embryos. In chimeric embryos, eed mutant cells can respond to wild‐type signals and participate in normal gastrulation movements. These results indicate a non–cell‐autonomous function for eed. Evidence of mutant cell exclusion from the forebrain and segregation within somites, however, suggests that eed has cell‐autonomous roles in aspects of organogenesis. A requirement for eed in the epiblast during embryonic development is supported by the fact that high‐contribution chimeras could not be rescued by a wild‐type extraembryonic environment. genesis 31:142–146, 2001. © 2001 Wiley‐Liss, Inc. 相似文献
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Albert D Kim Chase H Melick Wilson K Clements David L Stachura Martin Distel Daniela Panáková Calum MacRae Lindsey A Mork J Gage Crump David Traver 《The EMBO journal》2014,33(20):2363-2373
Hematopoietic stem cells (HSCs) require multiple molecular inputs for proper specification, including activity of the Notch signaling pathway. A requirement for the Notch1 and dispensability of the Notch2 receptor has been demonstrated in mice, but the role of the remaining Notch receptors has not been investigated. Here, we demonstrate that three of the four Notch receptors are independently required for the specification of HSCs in the zebrafish. The orthologues of the murine Notch1 receptor, Notch1a and Notch1b, are each required intrinsically to fate HSCs, just prior to their emergence from aortic hemogenic endothelium. By contrast, the Notch3 receptor is required earlier within the developing somite to regulate HSC emergence in a non-cell-autonomous manner. Epistatic analyses demonstrate that Notch3 function lies downstream of Wnt16, which is required for HSC specification through its regulation of two Notch ligands, dlc and dld. Collectively, these findings demonstrate for the first time that multiple Notch signaling inputs are required to specify HSCs and that Notch3 performs a novel role within the somite to regulate the neighboring precursors of hemogenic endothelium. 相似文献
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Ryoichi Hosokawa Takayoshi Yamaza Mark Urata Pablo Bringas Jr. Yang Chai 《Developmental biology》2010,341(1):186-50
Skeletal muscles are formed from two cell lineages, myogenic and fibroblastic. Mesoderm-derived myogenic progenitors form muscle cells whereas fibroblastic cells give rise to the supportive connective tissue of skeletal muscles, such as the tendons and perimysium. It remains unknown how myogenic and fibroblastic cell-cell interactions affect cell fate determination and the organization of skeletal muscle. In the present study, we investigated the functional significance of cell-cell interactions in regulating skeletal muscle development. Our study shows that cranial neural crest (CNC) cells give rise to the fibroblastic cells of the tongue skeletal muscle in mice. Loss of Tgfbr2 in CNC cells (Wnt1-Cre;Tgfbr2flox/flox) results in microglossia with reduced Scleraxis and Fgf10 expression as well as decreased myogenic cell proliferation, reduced cell number and disorganized tongue muscles. Furthermore, TGF-β2 beads induced the expression of Scleraxis in tongue explant cultures. The addition of FGF10 rescued the muscle cell number in Wnt1-Cre;Tgfbr2flox/flox mice. Thus, TGF-β induced FGF10 signaling has a critical function in regulating tissue-tissue interaction during tongue skeletal muscle development. 相似文献
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In the development of the somite, signals from neighboring tissues have been suggested to play critical roles. We have found that when interaction between the ectoderm and the somite is blocked by inserting a piece of polyethylene terephatalate film between them in 2-day-chicken embryo, one of the derivatives of somite, the distal rib, did not form. We examined somite development after the operation, to know the correlation between somite development and distal rib formation. In the operated embryo, the dermomyotome was medio-laterally shorter than in the normal embryo, and Pax3 and Sim1 expressions that are seen in the lateral part of normal dermomyotomes were not found, suggesting that the lateral part of the dermomyotome was missing. Although the sclerotome appeared to be normal in its histology and Pax1 expression pattern in the operated embryo, we could not detect the expression of either Scleraxis nor γ-FBP that are expressed in the cells around the boundaries between the adjacent dermomyotomes in normal embryos. Thus, under the influence of surface ectoderm, the lateral part of dermomyotome and/or the mesenchyme around rostral and caudal edges of dermomyotomes are suggested to play an important role in the distal rib development. 相似文献
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