Transgenic rescue of congenital heart disease and spina bifida in Splotch mice

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JOURNAL ARTICLES

Transgenic rescue of congenital heart disease and spina bifida in Splotch mice

J Li, KC Liu, F Jin, MM Lu and JA Epstein
Cardiovascular Division, Department of Medicine, Department of Cell and Developmental Biology and the Pennsylvania Muscle Institute, University of Pennsylvania, Philadelphia, PA 19104, USA.

Pax3-deficient Splotch mice display neural tube defects and an array of neural crest related abnormalities including defects in the cardiac outflow tract, dorsal root ganglia and pigmentation. Pax3 is expressed in neural crest cells that emerge from the dorsal neural tube. Pax3 is also expressed in the somites, through which neural crest cells migrate, where it is required for hypaxial muscle development. Homozygous mutant Splotch embryos die by embryonic day 14. We have utilized the proximal 1.6 kb Pax3 promoter and upstream regulatory elements to engineer transgenic mice reproducing endogenous Pax3 expression in neural tube and neural crest, but not the somite. Over expression of Pax3 in these tissues reveals no discernible phenotype. Breeding of transgenic mice onto a Splotch background demonstrates that neural tube and neural crest expression of Pax3 is sufficient to rescue neural tube closure, cardiac development and other neural crest related defects. Transgenic Splotch mice survive until birth at which time they succumb to respiratory failure secondary to absence of a muscular diaphragm. Limb muscles are also absent. These results indicate that regulatory elements sufficient for functional expression of Pax3 required for cardiac development and neural tube closure are contained within the region 1.6 kb upstream of the Pax3 transcriptional start site. In addition, the single Pax3 isoform used for this transgene is sufficient to execute these developmental processes. Although the extracellular matrix and the environment of the somites through which neural crest migrates is known to influence neural crest behavior, our results indicate that Pax3-deficient somites are capable of supporting proper neural crest migration and function suggesting a cell autonomous role for Pax3 in neural crest.

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				J. Jung, T.-g. Kim, G. E. Lyons, H.-R. C. Kim, and Y. Lee Jumonji Regulates Cardiomyocyte Proliferation via Interaction with Retinoblastoma Protein J. Biol. Chem., September 2, 2005; 280(35): 30916 - 30923. [Abstract] [Full Text] [PDF]

				C. Keller, B. R. Arenkiel, C. M. Coffin, N. El-Bardeesy, R. A. DePinho, and M. R. Capecchi Alveolar rhabdomyosarcomas in conditional Pax3:Fkhr mice: cooperativity of Ink4a/ARF and Trp53 loss of function Genes & Dev., November 1, 2004; 18(21): 2614 - 2626. [Abstract] [Full Text] [PDF]

				W. Y. Chan, C. S. Cheung, K. M. Yung, and A. J. Copp Cardiac neural crest of the mouse embryo: axial level of origin, migratory pathway and cell autonomy of the splotch (Sp2H) mutant effect Development, July 15, 2004; 131(14): 3367 - 3379. [Abstract] [Full Text] [PDF]

				R. W. Stottmann, M. Choi, Y. Mishina, E. N. Meyers, and J. Klingensmith BMP receptor IA is required in mammalian neural crest cells for development of the cardiac outflow tract and ventricular myocardium Development, May 1, 2004; 131(9): 2205 - 2218. [Abstract] [Full Text] [PDF]

				P. J. Gruber and J. A. Epstein Development Gone Awry: Congenital Heart Disease Circ. Res., February 20, 2004; 94(3): 273 - 283. [Abstract] [Full Text] [PDF]

				R. C. Milewski, N. C. Chi, J. Li, C. Brown, M. M. Lu, and J. A. Epstein Identification of minimal enhancer elements sufficient for Pax3 expression in neural crest and implication of Tead2 as a regulator of Pax3 Development, February 15, 2004; 131(4): 829 - 837. [Abstract] [Full Text] [PDF]

				D. Lang and J. A. Epstein Sox10 and Pax3 physically interact to mediate activation of a conserved c-RET enhancer Hum. Mol. Genet., April 15, 2003; 12(8): 937 - 945. [Abstract] [Full Text] [PDF]

				S. J. Kwang, S. M. Brugger, A. Lazik, A. E. Merrill, L.-Y. Wu, Y.-H. Liu, M. Ishii, F. O. Sangiorgi, M. Rauchman, H. M. Sucov, et al. Msx2 is an immediate downstream effector of Pax3 in the development of the murine cardiac neural crest Development, March 3, 2003; 129(2): 527 - 538. [Abstract] [Full Text] [PDF]

				C. B. Brown, L. Feiner, M.-M. Lu, J. Li, X. Ma, A. L. Webber, L. Jia, J. A. Raper, and J. A. Epstein PlexinA2 and semaphorin signaling during cardiac neural crest development Development, August 15, 2001; 128(16): 3071 - 3080. [Abstract] [Full Text] [PDF]

				D. E. Gutstein, G. E. Morley, H. Tamaddon, D. Vaidya, M. D. Schneider, J. Chen, K. R. Chien, H. Stuhlmann, and G. I. Fishman Conduction Slowing and Sudden Arrhythmic Death in Mice With Cardiac-Restricted Inactivation of Connexin43 Circ. Res., February 16, 2001; 88(3): 333 - 339. [Abstract] [Full Text] [PDF]

				S. J. Conway, J. Bundy, J. Chen, E. Dickman, R. Rogers, and B. M. Will Decreased neural crest stem cell expansion is responsible for the conotruncal heart defects within the Splotch (Sp2H)/Pax3 mouse mutant Cardiovasc Res, August 1, 2000; 47(2): 314 - 328. [Abstract] [Full Text] [PDF]

				J. Epstein, J Li, D Lang, F Chen, C. Brown, F Jin, M. Lu, M Thomas, E Liu, A Wessels, et al. Migration of cardiac neural crest cells in Splotch embryos Development, January 5, 2000; 127(9): 1869 - 1878. [Abstract] [PDF]

				H Brohmann, K Jagla, and C Birchmeier The role of Lbx1 in migration of muscle precursor cells Development, January 1, 2000; 127(2): 437 - 445. [Abstract] [PDF]

				L Milenkovic, L. Goodrich, K. Higgins, and M. Scott Mouse patched1 controls body size determination and limb patterning Development, January 10, 1999; 126(20): 4431 - 4440. [Abstract] [PDF]