| 715 | 11 | 150 |
| 下载次数 | 被引频次 | 阅读次数 |
神经嵴(neural crest,NC)是一种具有高度迁移能力的多功能细胞群,它形成于胚胎发育过程中神经上皮和上皮细胞前体之间的交界处。神经嵴细胞在经历了横贯整个胚胎的迁移之后,会固定下来并分化发育成多种组织和器官。神经嵴细胞在迁移过程中表现出趋化性(chemotaxis)和趋电性(electrotaxis)。神经嵴细胞能够沿着胞外可溶性因子浓度梯度产生定向迁移,这些趋化性因子包括SDF-1、VEGE、FGF、PDGF等;神经嵴细胞也能在生理电场(endogenous electric fields)或适当外源电场(exogenous electric fields)中沿电场方向,向正极或负极迁移。一些重要的与趋电性相关的分子已经被发现,如EGFR、Rac1、V-ATPase H+pump、PI3 kinase/Pten。本综述详细介绍了神经嵴细胞趋化性和趋电性迁移中的可能机理和实验证据,为后续研究提供参考。
Abstract:Neural crest is a kind of multipotent cell population with high migration ability. It is formed at the interface between the neuroepithelium and the prospective epidermis during embryonic development. After the migration across the entire embryo, the neural crest cells were fixed and differentiated into a variety of tissues and organs. And the neural crest cells showed chemotaxis and electrotaxis during the migration. Neural crest cells could make directional migration along the extracellular concentration gradients of soluble factors. These chemotaxis factors included SDF-1, VEGE, FGF, and PDGF. Neural crest cells could directionally migrate toward either anode or cathode in endogenous electric fields or exogenous electric fields. And several critical molecules related to electrotaxis havex been discovered, including EGFR, Rac1, V-ATPase H+pump, and PI3 kinase/Pten.This review introduced the possible mechanisms and experimental evidence for chemotaxis and eletrotaxis during neural crest cell migration in detail, which might provide references for the follow-up study.
Abu-Issa R.,Smyth G.,Smoak I.,Yamamura K.I.,and Meyers E.N.,2002,Fgf8 is required for pharyngeal arch and cardiovascular development in the mouse,Development,129(19):4613-4625
Adams D.S.,Masi A.,and Levin M.,2007,H+pump-dependent changes in membrane voltage are an early mechanism necessary and sufficient to induce Xenopus tail regeneration,Development,134(7):1323-1335
Alfandari D.,Cousin H.,Gaultier A.,Hoffstrom B.G.,and De Simone D.W.,2003,Integrinα5β1 supports the migration of Xenopus cranial neural crest on fibronectin,Developmental Biology,260(2):449-464
Barriga E.H.,Maxwell P.H.,Reyes A.E.,and Mayor R.,2013,The hypoxia factor Hif-1αcontrols neural crest chemotaxis and epithelial to mesenchymal transition,J.Cell Biol.,201(5):759-776
Barriga E.H.,Trainor P.A.,Bronner M.,and Mayor R.,2015,Animal models for studying neural crest development:is the mouse different?Development,142(9):1555-1560
Belmadani A.,Jung H.,Ren D.,and Miller R.J.,2009,The chemokine SDF-1/CXCL12 regulates the migration of melanocyte progenitors in mouse hair follicles,Differentiation,77(4):395-411
Boldajipour B.,Mahabaleshwar H.,Kardash E.,Reichman-Fried M.,Blaser Heiko.,Minina S.,Wilson D.,Xu Q.,and Raz E.,2008,Control of chemokine-guided cell migration by ligand sequestration,Cell,132(3):463-473
Braun M.,Wunderlin M.,Spieth K.,Knoochel W.,Gierschik P.,and Moepps B.,2002,Xenopus laevis stromal cell-derived factor 1:conservation of structure and function during vertebrate development,The Journal of Immunology,168(5):2340-2347
Butler S.J.,and Dodd J.,2003,A role for BMP heterodimers in roof plate-mediated repulsion of commissural axons,Neuron,38(3):389-401
Cai D.,and Montell D.J.,2014,Diverse and dynamic sources and sinks in gradient formation and directed migration,Current Opinion Cell Biology,30:91-98
Carmona-Fontaine C.,Matthews H.,and Mayor R.,2014,Directional cell migration in vivo,Cell Adhesion and Migration,2(4):240-242
Carmona-Fontaine C.,Theveneau E.,Tzekou A.,Tada M.,Woods M.,Page K.M.,Parsons M.,Lambris J.D.,and Mayor R.,2011,Complement fragment C3a controls mutual cell attraction during collective cell migration,Developmental Cell,21(6):1026-1037
Cavanaugh A.M.,Huang J.,and Chen J.N.,2015,Two developmentally distinct populations of neural crest cells contribute to the zebrafish heart,Developmental Biology,404(2):103-112
Cebra-Thomas J.A.,Terrell A.,Branyan K.,Shah S.,Rice R.,Gyi L.,Yin M.,Hu Y.,Mangat G.,Simonet J.,Betters E.,and Gilbert S.F.,2013,Late-emigrating trunk neural crest cells in turtle embryos generate an osteogenic ectomesenchyme in the plastron,Developmental Dynamics,242(11):1223-1235
Charras G.,and Sahai E.,2014,Physical influences of the extracellular environment on cell migration,Nature Reviews Molecular Cell Biology,15(12):813-824
Das T.,Safferling K.,Rausch S.,Grabe N.,Boehm H.,and Spatz J.P.,2015,A molecular mechanotransduction pathway regulates collective migration of epithelial cells,Nature Cell Biology,17(3):276-287
Ding X.,Zhao Z.,Duan W.,Wang S.,Jin X.,Xiang L.,and Jin X.,2013,Expression patterns of CXCR4 in different colon tissue segments of patients with Hirschsprung's disease,Experimental Molecular Pathology,95(1):111-116
du Bois-Reymond E.,1843,Vorlufiger Abriss einer Untersuchungüueber den sogenannten Froschstrom undüueber die elektromotorischen Fische,Annalen der Physik,134(1):1-30
Duband J.L.,Dady A.,and Fleury V.,2015,Resolving time and space constraints during neural crest formation and delamination,Current Topics Developmental Biology,111:27-67
Dupin E.,Creuzet S.,and Le Douarin N.M.,2006,The contribution of the neural crest to the vertebrate body,In:Saint-Jeannet J.P.(ed.),Neural crest induction and differentiation,landes bioscience and springer science+business media,London,UK,pp.96-119
Engelmann T.T.W.,ed.,1882,Ueber assimilation von haematococcus,Bot Ztg,London,UK,pp.419-426
Erickson C.A.,and Nuccitelli R.,1984,Embryonic fibroblast motility and orientation can be influenced by physiological electric fields,The Journal of cell biology,98(1):296-307
Escot S.,Blavet C.,Hartle S.,Duband J.L.,and Fournier-Thibault C.,2013,Misregulation of SDF1-CXCR4 signaling impairs early cardiac neural crest cell migration leading to conotruncal defects,Circulation Research,113(5):505-516
Fang K.S.,Ionides E.,Oster G.,Nuccitelli R.,and Isseroff R.R.,1999,Epidermal growth factor receptor relocalization and kinase activity are necessary for directional migration of keratinocytes in DC electric fields,Journal of Cell Science,112(12):1967-1978
Fang K.S.,Farboud B.,Nuccitelli R.,and Isseroff R.R.,1998,Migration of human keratinocytes in electric fields requires growth factors and extracellular calcium,Journal of Investigative Dermatology,111(5):751-756
Frank D.U.,Fotheringham L.K.,Brewer J.A.,Muglia L.J.,Tristani-Firouzi M.,Capecchi M.R.,and Moon A.M.,2002,An Fgf8 mouse mutant phenocopies human 22q11 deletion syndrome,Development,129(19):4591-4603
Friedl P.,and Gilmour D.,2009,Collective cell migration in morphogenesis,regeneration and cancer,Nature Reviews Molecular Cell Biology,10(7):445-457
Friedl P.,Sahai E.,Weiss S.,and Yamada K.M.,2012,New dimensions in cell migration,Nature Reviews Molecular Cell Biology,13(11):743-747
Gammill L.S.,and Roffers-Agarwal J.,2010,Division of labor during trunk neural crest development,Developmental Biology,344(2):555-565
Gilbert S.F.,Bender G.,Betters E.,Yin M.,and Cebra-Thomas J.A.,2007,The contribution of neural crest cells to the nuchal bone and plastron of the turtle shell,Integrative Comparative Biology,47(3):401-408
Goto A.,Sumiyama K.,Kamioka Y.,Nakasyo E.,Ito K.,Iwasaki M.,Enomoto H.,and Matsuda M.,2013,GDNF and endothelin 3 regulate migration of enteric neural crest-derived cells via protein kinase A and Rac1,The Journal Neuroscience,33(11):4901-4912
Gruler H.,and Nuccitelli R.,1991,Neural crest cell galvanotaxis:new data and a novel approach to the analysis of both galvanotaxis and chemotaxis,Cell Motility and The Cytoskeleton,19(2):121-133
He F.,and Soriano P.,2013,A critical role for PDGFRαsignaling in medial nasal process development,PLo S Genetics,9(9):e1003851
High F.A.,Jain R.,Stoller J.Z.,Antonucci N.B.,Lu M.M.,Loomes K.M.,Kaestner K.H.,Pear W.S.,and Epstein J.A.,2009,Murine Jagged1/Notch signaling in the second heart field orchestrates Fgf8 expression and tissue-tissue interactions during outflow tract development,The Journal of Clinical Investigation,119(7):1986-1996
Hoelzinger D.B.,Demuth T.,and Berens M.E.,2007,Autocrine factors that sustain glioma invasion and paracrine biology in the brain microenvironment,Journal National Cancer Institute,99(21):1583-1593
Huttenlocher A.,2007,Wound healing with electric potential,The New England Journal of Medicine,356(3):303
Kasemeier-Kulesa J.C.,Mc Lennan R.,Romine M.H.,Kulesa P.M.,and Lefcort F.,2010,CXCR4 controls ventral migration of sympathetic precursor cells,Journal Neuroscience,30(39):13078-13088
Kawakami M.,Umeda M.,Nakagata N.,Takeo T.,and Yamamura K.I.,2011,Novel migrating mouse neural crest cell assay system utilizing P0-Cre/EGFP fluorescent time-lapse imaging,BMC Developmental Biology,11(1):68
Kay R.R.,Langridge P.,Traynor D.,and Hoeller O.,2008,Changing directions in the study of chemotaxis,Nature Reviews Molecular Cell Biology,9(6):455-463
Kelsh R.N.,Harris M.L.,Colanesi S.,and Erickson C.A.,2009,Stripes and belly-spots-a review of pigment cell morphogenesis in vertebrates,Seminars in Cell and Developmental Biology,20(1):90-104
Kirby M.L.,and Hutson M.R.,2014,Factors controlling cardiac neural crest cell migration,Cell Adhesion and Migration,4(4):609-621
Krause M.,and Gautreau A.,2014,Steering cell migration:lamellipodium dynamics and the regulation of directional persistence,Nat Reviews Molecular Cell Biology,15(9):577-590
Kulesa P.M.,and Mc Lennan R.,2015,Neural crest migration:trailblazing ahead,F1000 Prime Reports,7:02
Kulesa P.M.,Bailey C.M.,Kasemeier-Kulesa J.C.,and Mc Lennan R.,2010,Cranial neural crest migration:new rules for an old road,Developmental Biology,344(2):543-554
Kulesa P.,Ellies D.L.,and Trainor P.A.,2004,Comparative analysis of neural crest cell death,migration,and function during vertebrate embryogenesis,Developmental Dynamics,229(1):14-29
Kulesa P.M.,and Fraser S.E.,2000,In ovo time-lapse analysis of chick hindbrain neural crest cell migration shows cell interactions during migration to the branchial arches,Development,127(6):1161-1172
Kuo B.R.,and Erickson C.A.,2014,Regional differences in neural crest morphogenesis,Cell Adhesion and Migration,4(4):567-585
Kuriyama S.,Theveneau E.,Benedetto A.,Parsons M.,Tanaka M.,Charras G.,Kabla A.,and Mayor R.,2014,In vivo collective cell migration requires an LPAR2-dependent increase in tissue fluidity,Journal Cell Biology,206(1):113-127
Levin M.,2007,Large-scale biophysics:ion flows and regeneration,Trends Cell Biology,17(6):261-70
Loring J.F.,and Erickson C.A.,1987,Neural crest cell migratory pathways in the trunk of the chick embryo,Developmental biology,121(1):220-236
Lowry C.,1999,How electric fields mold the embryo's growth pattern and shape,21st Century Science Technology,pp.56-70
Macatee T.L.,Hammond B.P.,Arenkiel B.R.,Francis L.,Frank D.U.,and Moon A.M.,2003,Ablation of specific expression domains reveals discrete functions of ectoderm-and endoderm-derived FGF8 during cardiovascular and pharyngeal development,Development,130(25):6361-6374
Matthews H.K.,Marchant L.,Carmona-Fontaine C.,Kuriyama S.,Larrain J.,Holt M.R.,Parsons M.,and Mayor R.,2008,Directional migration of neural crest cells in vivo is regulated by Syndecan-4/Rac1 and non-canonical Wnt signaling/Rho A,Development,135(10):1771-1780
Mc Caig C.D.,Rajnicek A.M.,Song B.,and Zhao M.,2002,Has electrical growth cone guidance found its potential?Trends in Neurosciences,25(7):354-359
Mc Caig C.D.,Rajnicek A.M.,Song B.,and Zhao M.,2005,Controlling cell behavior electrically:current views and future potential,Physiological Reviews,85(3):943-978
Mc Lennan R.,and Kulesa P.M.,2007,In vivo analysis reveals a critical role for neuropilin-1 in cranial neural crest cell migration in chick,Developmental Biology,301(1):227-239
Mc Lennan R.,and Kulesa P.M.,2010,Neuropilin-1 interacts with the second branchial arch microenvironment to mediate chick neural crest cell dynamics,Developmental Dynamics,239(6):1664-1673
Mc Lennan R.,Schumacher L.J.,Morrison J.A.,Teddy J.M.,Ridenour D.A.,Box A.C.,Semerad C.L.,Li H.,Mc Dowell W.,Kay D.,Maini P.K.,Baker R.E.,and Kulesa P.M.,2015,VEGF signals induce trailblazer cell identity that drives neural crest migration,Developmental Biology,407(1):12-25
Mc Lennan R.,Teddy J.M.,Kasemeier-Kulesa J.C.,Romine M.H.,and Kulesa P.M.,2010,Vascular endothelial growth factor(VEGF)regulates cranial neural crest migration in vivo,Developmengtal Biollgy,339(1):114-125
Mclin A.,Hu Cheng.H.,Shah R.,and Jamrich M.,2002,Expression of complement components coincides with early patterning and organogenesis in Xenopus laevis,International Journal of Developmental Biology,52(8):1123-1133
Metcalf M.E.,Shi R.,and Borgens R.B.,1994,Endogenous ionic currents and voltages in amphibian embryos,Journal of Experimental Zoology Part A:Ecological Genetics and Physiology,268(4):307-322
Morrison-Graham K.,Schatteman G.C.,Bork T.,Bowen-Pope D.F.,and Weston J.A.,1992,A PDGF receptor mutation in the mouse(Patch)perturbs the development of a non-neuronal subset of neural crest-derived cells,Development,115(1):133-142
Nieto M.A.,2013,Epithelial plasticity:a common theme in embryonic and cancer cells,Science,342(6159):708
Nikitina N.,Sauka-Spengler T.,and Bronner-Fraser M.,2008,Dissecting early regulatory relationships in the lamprey neural crest gene network,Proceedings of the The National A-cademy of Sciences of the United States of America,105(51):20083-20088
Nishimura K.Y.,Isseroff R.R.,and Nuccitelli R.,1996,Human keratinocytes migrate to the negative pole in direct current electric fields comparable to those measured in mammalian wounds,Journal of Cell Science,109(1):199-207
Nuccitelli R.,2003,A Role for Endogenous Electric Fields in Wound Healing,Current Topics in Developmental Biology,58(2):1-26
Nuccitelli R.,and Erickson C.A.,1983,Embryonic cell motility can be guided by physiological electric fields,Experimental Cell Research,147(1):195-201
Ota K.G.,Kuraku S.,and Kuratani S.,2007,Hagfish embryology with reference to the evolution of the neural crest,Nature,446(7136):672-675
Pfeffer W.F.P.,ed,1884,Locomotorische richtungsbewegungen durch chemische reize,Unters Bot Inst,Tübingen,UK,pp.363-482
Pullar C.E.,and Isseroff R.R.,2005,Cyclic AMP mediates keratinocyte directional migration in an electric field,Journal of Cell Science,118(9):2023-2034
Rezzoug F.,Seelan R.S.,Bhattacherjee V.,Greene R.M.,and Pisano M.M.,2011,Chemokine-mediated migration of mesencephalic neural crest cells,Cytokine,56(3):760-768
Riahi R.,Sun J.,Wang S.,Long M.,Zhang D.D.,and Wong P.K.,2015,Notch1-Dll4 signalling and mechanical force regulate leader cell formation during collective cell migration,Nature Communications,6:6556
Richarte A.M.,Mead H.B.,and Tallquist M.D.,2007,Cooperation between the PDGF receptors in cardiac neural crest cell migration,Developmental Biology,306(2):785-796
Ricoult S.G.,Kennedy T.E.,and Juncker D.,2015,Substrate-bound protein gradients to study haptotaxis,Fronters in Bioengineering Biotechnology,3:40
Robinson K.R.,1985,The responses of cells to electrical fields:a review,Journal of Cell Biology,101(6):2023-2027
Roca-Cusachs P.,Sunyer R.,and Trepat X.,2013,Mechanical guidance of cell migration:lessons from chemotaxis,Current Opinion Cell Biology,25(5):543-549
Rogers C.D.,Jayasena C.S.,Nie S.,and Bronner M.E.,2012,Neural crest specification:tissues,signals,and transcription factors,Wiley Interdiscip,Wiley Interdisciplinary Reviews Developmental Biology,1(1):52-68
Roussos E.T.,Condeelis J.S.,and Patsialou A.,2011,Chemotaxis in cancer,Nature Reviews Cancer,11(8):573-587
Rovasio R.A.,Faas L.,and Battiato N.L.,2012,Insights into stem cell factor chemotactic guidance of neural crest cells revealed by a real-time directionality-based assay,European Journal Cell Biology,91(5):375-390
Roycroft A.,and Mayor R.,2016,Molecular basis of contact inhibition of locomotion,Cellular Molecular Life Sciences,73(6):1119-1130
Saika S.,Saika S.,Liu C.Y.,Azhar M.,Sanford L.P.,Doetschman T.,Gendron R.L.,Kao C.W.C.,and Kao W.W.Y.,2001,TGFbeta2 in corneal morphogenesis during mouse embryonic development,Developmental Biology,240(2):419-432
Saito D.,Takase Y.,Murai H.,and Takahashi Y.,2012,The dorsal aorta initiates a molecular cascade that instructs sympatho-adrenal specification,Science,336(6088):1578-1581
Sato A.,Scholl A.M.,Kuhn E.N.,Stadt H.A.,Decker J.R.,Pegram K.,Hutson M.R.,and Kirby M.L.,2011,FGF8 signaling is chemotactic for cardiac neural crest cells,Developmental Biology,354(1):18-30
Scarpa E.,Szabo A.,Bibonne A.,Theveneau E.,Parsons M.,and Mayor R.,2015,Cadherin switch during EMT in neural crest cells leads to contact inhibition of locomotion via repolarization of forces,Developmental Cell,34(4):421-434
Shellard A.,and Mayor R.,2016,Chemotaxis during neural crest migration,Seminars in Cell and Developmental Biology,55:111-118
Steventon B.,Mayor R.,and Streit A.,2014,Neural crest and placode interaction during the development of the cranial sensory system,Developmental Biology,389(1):28-38
Stump R.F.,and Robinson K.R.,1983,Xenopus neural crest cell migration in an applied electrical field,Journal of Cell Biology,97(4):1226-1233
Tallquist M.D.,Weismann K.E.,Hellstrom M.,and Soriano P.,2000,Early myotome specification regulates PDGFA expression and axial skeleton development,Development,127(23):5059-5070
Teddy J.M.,and Kulesa P.M.,2004,In vivo evidence for shortand long-range cell communication in cranial neural crest cells,Development,131(24):6141-6151
Theveneau E.,and Mayor R.,2011,Can mesenchymal cells undergo collective cell migration?The case of the neural crest,Cell Adhesion and Migration,5(6):490-498
T heveneau E.,and Mayor R.,2012,Neural crest delamination and migration:from epithelium-to-mesenchyme transition to collective cell migration,Developmental Biology,366(1):34-54
Theveneau E.,Marchant L.,Kuriyama S.,Gull M.,Moepps B.,Parsons M.,and Mayor R.,2010,Collective chemotaxis requires contact-dependent cell polarity,Developmental Cell,19(1):39-53
Theveneau E.,Steventon B.,Scarpa E.,Garcia S.,Trepat X.,Streit A.,and Mayor R.,2013,Chase-and-run between adjacent cell populations promotes directional collective migration,Nature Cell Biology,15(7):763-772
Thiery J.P.,Acloque H.,Huang R.Y.,and Nieto M.A.,2009,Epithelial-mesenchymal transitions in development and disease,Cell,139(5):871-890
Toyofuku T.,Yoshida J.,Sugimoto T.,Yamamoto M.,Makino N.,Takamatsu H.,Takegahara N.,Suto F.,Hori M.,Fujisawa H.,Kumanogoh A.,and Kikutani H.,2008,Repulsive and attractive semaphorins cooperate to direct the navigation of cardiac neural crest cells,Developmental Biology,321(1):251-262
Walshe J.,and Mason I.,2003,Unique and combinatorial functions of Fgf3 and Fgf8 during zebrafish forebrain development,Development,130(18):4337-4349
Wiszniak S.,Mackenzie F.E.,Anderson P.,Kabbara S.,Ruhrberg C.,and Schwarz Q.,2015,Neural crest cell-derived VEGFpromotes embryonic jaw extension,Proceedings of the National Academy of Sciences,112(19):6086-6091
Zanin J.P.,Battiato N.L.,and Rovasio R.A.,2013,Neurotrophic factor NT-3 displays a non-canonical cell guidance signaling function for cephalic neural crest cells,European Journal of Cell Biology,92(8-9):264-79
Zhao M.,Dick A.,Forrester J.V.,and Mc Caig C.D.,1999,Electric field-directed cell motility involves up-regulated expression and asymmetric redistribution of the epidermal growth factor receptors and is enhanced by fibronectin and laminin,Molecular Biology of the Cell,10(4):1259-1276
Zhao M.,Song B.,Pu J.,Wada T.,Reid B.,Tai G.,Wang F.,Guo A.,Walczysko P.,Gu Y.,Sasaki T.,Suzuki A.,Forrester J.V.,Bourne H.R.,Devreotes P.N.,Mc Caig C.D.,and Penninger J.M.,2006,Electrical signals control wound healing through phosphatidylinositol-3-OH kinase-gamma and PTEN,Nature,442:457-460
基本信息:
DOI:10.13417/j.gab.037.003799
中图分类号:Q132
引用信息:
[1]蒋锐达,赵敏,赵三军,等.胚胎发育中神经嵴细胞迁移机制的研究进展[J].基因组学与应用生物学,2018,37(09):3799-3809.DOI:10.13417/j.gab.037.003799.
基金信息:
国家重点基础研究发展计划(2012CB518100);; 国家自然科学基金-云南省联合基金(U1132603);; 生物能源持续利用与开发教育部工程中心开放基金共同资助
2018-09-20
2018-09-20