Role of fibroblast growth factor signaling during proepicardium formation in the chick embryo

Developmental Dynamics

Volumn 239, Issue 9, 2010, Pages 2393-2403

  Torlopp, Angela ^a,b   Schlueter, Jan ^a,c   Brand, Thomas ^a,c  

^a UNIVERSITY OF WÜRZBURG   (Germany)

^b UNIVERSITY COLLEGE LONDON   (United Kingdom)

^c IMPERIAL COLLEGE LONDON   (United Kingdom)

Author keywords

Apoptosis; Cell proliferation; Chick embryo; Fibroblast growth factor; Gene expression; Proepicardium; Tbx18; Tbx5; Wt1

Indexed keywords

FIBROBLAST GROWTH FACTOR; FIBROBLAST GROWTH FACTOR RECEPTOR; TRANSCRIPTION FACTOR; TRANSCRIPTION FACTOR TBX18; TRANSCRIPTION FACTOR TBX5; UNCLASSIFIED DRUG; WT1 PROTEIN;

ANIMAL TISSUE; ARTICLE; AUTOCRINE EFFECT; CELL PROLIFERATION; CELL SURVIVAL; CHICK EMBRYO; CONTROLLED STUDY; EMBRYO; EMBRYO DEVELOPMENT; EPICARDIUM; EXPLANT; GENE EXPRESSION; MARKER GENE; NONHUMAN; PARACRINE SIGNALING; PRIORITY JOURNAL; RECEPTOR GENE; SIGNAL TRANSDUCTION;

ANIMALS; APOPTOSIS; BIOLOGICAL MARKERS; CELL PROLIFERATION; CHICK EMBRYO; FIBROBLAST GROWTH FACTORS; GENE EXPRESSION; HEART; LIGANDS; PERICARDIUM; RECEPTORS, FIBROBLAST GROWTH FACTOR; SIGNAL TRANSDUCTION; TISSUE CULTURE TECHNIQUES;

EID: 77956282289     PISSN: 10588388     EISSN: 10970177     Source Type: Journal    
DOI: 10.1002/dvdy.22384     Document Type: Article

References (46)

1. Alsan BH, Schultheiss TM. 2002. Regulation of avian cardiogenesis by Fgf8 signaling. Development 129:1935-1943.
2. Andrée B, Duprez D, Vorbusch B, Arnold H-H, Brand T. 1998. BMP-2 induces ectopic expression of cardiac lineage markers and interferes with somite formation in chicken embryos. Mech Dev 70:119-131.
3. Bachler M, Neubuser A. 2001. Expression of members of the Fgf family and their receptors during midfacial development. Mech Dev 100:313-316.
4. Bimber B, Dettman RW, Simon HG. 2007. Differential regulation of Tbx5 protein expression and sub-cellular localization during heart development. Dev Biol 302:230-242.
5. Chapman SC, Collignon J, Schoenwolf GC, Lumsden A. 2001. Improved method for chick whole-embryo culture using a filter paper carrier. Dev Dyn 220:284-289.
6. Eswarakumar VP, Lax I, Schlessinger J. 2005. Cellular signaling by fibroblast growth factor receptors. Cytokine Growth Factor Rev 16:139-149.
7. Fekete DM, Cepko CL. 1993. Replication-competent retroviral vectors encoding alkaline phosphatase reveal spatial restriction of viral gene expression/transduction in the chick embryo. Mol Cell Biol 13:2604-2613.
8. Hamburger V, Hamilton H. 1951. A series of normal stages in the development of the chick embryo. J Morphol 88:49-92.
9. Hatcher CJ, Diman NY, Kim MS, Pennisi D, Song Y, Goldstein MM, Mikawa T, Basson CT. 2004. A role for Tbx5 in proepicardial cell migration during cardiogenesis. Physiol Genomics 18:129-140.
10. Ho E, Shimada Y. 1978. Formation of the epicardium studied with the scanning electron microscope. Dev Biol 66:579-585.
11. Hu T, Yamagishi H, Maeda J, McAnally J, Yamagishi C, Srivastava D. 2004. Tbx1 regulates fibroblast growth factors in the anterior heart field through a reinforcing autoregulatory loop involving forkhead transcription factors. Development 131:5491-5502.
12. Ishii Y, Langberg JD, Hurtado R, Lee S, Mikawa T. 2007. Induction of proepicardial marker gene expression by the liver bud. Development 134:3627-3637.
13. Itoh N, Ornitz DM. 2004. Evolution of the Fgf and Fgfr gene families. Trends Genet 20:563-569.
14. Kang JO, Sucov HM. 2005. Convergent proliferative response and divergent morphogenic pathways induced by epicardial and endocardial signaling in fetal heart development. Mech Dev 122:57-65.
15. Karabagli H, Karabagli P, Ladher RK, Schoenwolf GC. 2002. Survey of fibroblast growth factor expression during chick organogenesis. Anat Rec 268:1-6.
16. Kruithof BP, van Wijk B, Somi S, Kruithof-de Julio M, Perez Pomares JM, Weesie F, Wessels A, Moorman AF, van den Hoff MJ. 2006. BMP and FGF regulate the differentiation of multipotential pericardial mesoderm into the myocardial or epicardial lineage. Dev Biol 295:507-522.
17. Lavine KJ, White AC, Park C, Smith CS, Choi K, Long F, Hui CC, Ornitz DM. 2006. Fibroblast growth factor signals regulate a wave of Hedgehog activation that is essential for coronary vascular development. Genes Dev 20:1651-1666.
18. Lepilina A, Coon AN, Kikuchi K, Holdway JE, Roberts RW, Burns CG, Poss KD. 2006. A dynamic epicardial injury response supports progenitor cell activity during zebrafish heart regeneration. Cell 127:607-619.
19. Lu J, Landerholm TE, Wei JS, Dong XR, Wu SP, Liu X, Nagata K, Inagaki M, Majesky MW. 2001. Coronary smooth muscle differentiation from proepicardial cells requires rhoA-mediated actin reorganization and p160 rho-kinase activity. Dev Biol 240:404-418.
20. Lunn JS, Fishwick KJ, Halley PA, Storey KG. 2007. A spatial and temporal map of FGF/Erk1/2 activity and response repertoires in the early chick embryo. Dev Biol 302:536-552.
21. Mandler M, Neubuser A. 2004. FGF signaling is required for initiation of feather placode development. Development 131:3333-3343.
22. Männer J. 1992. The development of pericardial villi in the chick embryo. Anat Embryol (Berl) 186:379-385.
23. Männer J. 2006. Extracardiac tissues and the epigenetic control of myocardial development in vertebrate embryos. Ann Anat 188:199-212.
24. Männer J, Perez-Pomares JM, Macias D, Munoz-Chapuli R. 2001. The origin, formation and developmental significance of the epicardium: a review. Cells Tissues Organs 169:89-103.
25. Mariani FV, Ahn CP, Martin GR. 2008. Genetic evidence that FGFs have an instructive role in limb proximal-distal patterning. Nature 453:401-405.
26. Marics I, Padilla F, Guillemot JF, Scaal M, Marcelle C. 2002. FGFR4 signaling is a necessary step in limb muscle differentiation. Development 129:4559-4569.
27. Mikawa T, Brand T. 2010. Epicardial lineage. Origines and fates. In: Rosenthal N, Harvey RP, editors. Heart development and regeneration. Vol. 1. San Diego: Academic Press. p 325-344.
28. Mikawa T, Gourdie RG. 1996. Pericardial mesoderm generates a population of coronary smooth muscle cells migrating into the heart along with ingrowth of the epicardial organ. Dev Biol 174:221-232.
29. Moorman AF, Houweling AC, de Boer PA, Christoffels VM. 2001. Sensitive nonradioactive detection of mRNA in tissue sections: novel application of the wholemount in situ hybridization protocol. J Histochem Cytochem 49:1-8.
30. Moorman AF, Christoffels VM, Anderson RH, van den Hoff MJ. 2007. The heartforming fields: one or multiple? Philos Trans R Soc Lond B Biol Sci 362:1257-1265.
31. Morabito CJ, Dettman RW, Kattan J, Collier JM, Bristow J. 2001. Positive and negative regulation of epicardial-mesenchymal transformation during avian heart development. Dev Biol 234:204-215.
32. Nahirney PC, Mikawa T, Fischman DA. 2003. Evidence for an extracellular matrix bridge guiding proepicardial cell migration to the myocardium of chick embryos. Dev Dyn 227:511-523.
33. Pennisi DJ, Mikawa T. 2009. FGFR-1 is required by epicardium-derived cells for myocardial invasion and correct coronary vascular lineage differentiation. Dev Biol 328:148-159.
34. Pfaffl MW. 2001. A new mathematical model for relative quantification in real-time RT-PCR. Nucleic Acids Res 29:e45.
35. Schlange T, Andree B, Arnold HH, Brand T. 2000. BMP2 is required for early heart development during a distinct time period. Mech Dev 91:259-270.
36. Schlueter J, Brand T. 2009. A right-sided pathway involving FGF8/Snai1 controls asymmetric development of the proepicardium in the chick embryo. Proc Natl Acad Sci U S A 106:7485-7490.
37. Schlueter J, Manner J, Brand T. 2006. BMP is an important regulator of proepicardial identity in the chick embryo. Dev Biol 295:546-558.
38. Schulte I, Schlueter J, Abu-Issa R, Brand T, Manner J. 2007. Morphological and molecular left-right asymmetries in the development of the proepicardium: a comparative analysis on mouse and chick embryos. Dev Dyn 236:684-695.
39. Schultheiss TM, Xydas S, Lassar AB. 1995. Induction of avian cardiac myogenesis by anterior endoderm. Development 121:4203-4214.
40. Schultheiss T, Burch J, Lassar A. 1997. A role for bone morphogenetic proteins in the induction of cardiac myogenesis. Genes Dev 11:451-462. (Pubitemid 27097644)
41. Shelton EL, Yutzey KE. 2008. Twist1 function in endocardial cushion cell proliferation, migration, and differentiation during heart valve development. Dev Biol 317:282-295.
42. Soufan AT, van den Berg G, Moerland PD, Massink MM, van den Hoff MJ, Moorman AF, Ruijter JM. 2007. Three-dimensional measurement and visualization of morphogenesis applied to cardiac embryology. J Microsc 225:269-274.
43. Takeuchi JK, Koshiba-Takeuchi K, Suzuki T, Kamimura M, Ogura K, Ogura T. 2003. Tbx5 and Tbx4 trigger limb initiation through activation of the Wnt/Fgf signaling cascade. Development 130:2729-2739.
44. van Wijk B, van den Berg G, Abu-Issa R, Barnett P, van der Velden S, Schmidt M, Ruijter JM, Kirby ML, Moorman AF, van den Hoff MJ. 2009. Epicardium and myocardium separate from a common precursor pool by crosstalk between bone morphogenetic protein- and fibroblast growth factor-signaling pathways. Circ Res 105:431-441.
45. Viragh S, Gittenberger-de Groot AC, Poelmann RE, Kalman F. 1993. Early development of quail heart epicardium and associated vascular and glandular structures. Anat Embryol (Berl) 188:381-393.
46. Wills AA, Holdway JE, Major RJ, Poss KD. 2008. Regulated addition of new myocardial and epicardial cells fosters homeostatic cardiac growth and maintenance in adult zebrafish. Development 135:183-192.