Defects in the Germ Line and Gonads of Mice Lacking Connexin43

doi:10.1095/biolreprod60.5.1263

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Defects in the Germ Line and Gonads of Mice Lacking Connexin43¹

Subhash C. Juneja³^,a, Kevin J. Barr^b, George C. Enders^c, and Gerald M. Kidder²^,b

^a Department of Physiology, The University of Manitoba, Winnipeg, Manitoba, Canada R3E 3J7 ^b Departments of Physiology and Obstetrics and Gynaecology, The University of Western Ontario, London, Ontario, Canada N6A 5C1 ^c Department of Anatomy and Cell Biology, University of Kansas Medical Center, Kansas City, Kansas 66160-7400

The connexins are a family of at least 15 proteins that formthe intercellular membrane channels of gap junctions. Numerousconnexins, including connexin43 (Cx43), have been implicatedin reproductive processes by virtue of their expression in adultgonads. In the present study, we examined the gonads of fetaland neonatal mice homozygous for a null mutation in the Gja1gene encoding Cx43 to determine whether the absence of thisconnexin has any consequences for gonadal development. We foundthat in both sexes at the time of birth, the gonads of homozygousmutants were unusually small. This appears to be caused, atleast in part, by a deficiency of germ cells. The germ celldeficiency was traced back as far as Day 11.5 of gestation,implying that it arises during early stages of germ line development.We also used an organ culture technique to examine postnatalfolliculogenesis in the mutant ovaries, an approach necessitatedby the fact that Gja1 null mutant offspring die soon after birthbecause of a heart abnormality. The results demonstrated thatfolliculogenesis can proceed to the primary (unilaminar) folliclestage in the absence of Cx43 but that subsequent developmentis impaired. In neonatal ovaries of normal mice, Cx43 couldbe detected in the somatic cells as early as Day 1, when primordialfollicles begin to appear, supporting the conclusion that thisconnexin is required for the earliest stages of folliculogenesis.These results imply that gap junctional coupling mediated byCx43 channels plays indispensable roles in both germ line developmentand postnatal folliculogenesis.

¹ This project grew out of research supported by the Natural Sciencesand Engineering Research Council of Canada and was subsequentlysupported by grants from the Medical Research Council of Canada(MT-14150 to G.M.K.) and the U.S. National Institutes of Health(P30 HD33994 Center Grant to the University of Kansas MedicalCenter).

² Correspondence. FAX: 519 661 3827; gkidder{at}physiology.uwo.ca

³ Current address: Subhash C. Juneja, Dept. of Pediatrics andAdolescent Research, Guggenheim-5, Mayo Clinic, Rochester, MN55905.

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				S. Sridharan, L. Simon, D. D. Meling, D. G. Cyr, D. E. Gutstein, G. I. Fishman, F. Guillou, and P. S. Cooke Proliferation of Adult Sertoli Cells Following Conditional Knockout of the Gap Junctional Protein GJA1 (Connexin 43) in Mice Biol Reprod, May 1, 2007; 76(5): 804 - 812. [Abstract] [Full Text] [PDF]

				B. de Montgolfier, J. Dufresne, M. Letourneau, J. J. Nagler, A. Fournier, C. Audet, and D. G. Cyr The Expression of Multiple Connexins Throughout Spermatogenesis in the Rainbow Trout Testis Suggests a Role for Complex Intercellular Communication Biol Reprod, January 1, 2007; 76(1): 2 - 8. [Abstract] [Full Text] [PDF]

				S. Mazaud Guittot, C. J. Guigon, N. Coudouel, and S. Magre Consequences of Fetal Irradiation on Follicle Histogenesis and Early Follicle Development in Rat Ovaries Biol Reprod, November 1, 2006; 75(5): 749 - 759. [Abstract] [Full Text] [PDF]

				K.R. Barnett, C. Schilling, C.R. Greenfeld, D. Tomic, and J.A. Flaws Ovarian follicle development and transgenic mouse models Hum. Reprod. Update, September 1, 2006; 12(5): 537 - 555. [Abstract] [Full Text] [PDF]

				R. J. B. Francis and C. W. Lo Primordial germ cell deficiency in the connexin 43 knockout mouse arises from apoptosis associated with abnormal p53 activation Development, September 1, 2006; 133(17): 3451 - 3460. [Abstract] [Full Text] [PDF]

				C. Fiorini, X. Decrouy, N. Defamie, D. Segretain, and G. Pointis Opposite regulation of connexin33 and connexin43 by LPS and IL-1{alpha} in spermatogenesis Am J Physiol Cell Physiol, March 1, 2006; 290(3): C733 - C740. [Abstract] [Full Text] [PDF]

				B. J. Nieman, A. M. Flenniken, S. L. Adamson, R. M. Henkelman, and J. G. Sled Anatomical phenotyping in the brain and skull of a mutant mouse by magnetic resonance imaging and computed tomography Physiol Genomics, January 12, 2006; 24(2): 154 - 162. [Abstract] [Full Text] [PDF]

				D. Tong, J. E. I. Gittens, G. M. Kidder, and D. Bai Patch-clamp study reveals that the importance of connexin43-mediated gap junctional communication for ovarian folliculogenesis is strain specific in the mouse Am J Physiol Cell Physiol, January 1, 2006; 290(1): C290 - C297. [Abstract] [Full Text] [PDF]

				J. E. I. Gittens and G. M. Kidder Differential contributions of connexin37 and connexin43 to oogenesis revealed in chimeric reaggregated mouse ovaries J. Cell Sci., November 1, 2005; 118(21): 5071 - 5078. [Abstract] [Full Text] [PDF]

				K. Ndiaye, T. Fayad, D. W. Silversides, J. Sirois, and J. G. Lussier Identification of Downregulated Messenger RNAs in Bovine Granulosa Cells of Dominant Follicles Following Stimulation with Human Chorionic Gonadotropin Biol Reprod, August 1, 2005; 73(2): 324 - 333. [Abstract] [Full Text] [PDF]

				J. Aravindakshan and D. G. Cyr Nonylphenol Alters Connexin 43 Levels and Connexin 43 Phosphorylation Via an Inhibition of the p38-Mitogen-Activated Protein Kinase Pathway Biol Reprod, May 1, 2005; 72(5): 1232 - 1240. [Abstract] [Full Text] [PDF]

				F.-C. Ke, S.-H. Fang, M.-T. Lee, S.-Y. Sheu, S.-Y. Lai, Y. J. Chen, F.-L. Huang, P. S Wang, D. M Stocco, and J.-J. Hwang Lindane, a gap junction blocker, suppresses FSH and transforming growth factor {beta}1-induced connexin43 gap junction formation and steroidogenesis in rat granulosa cells J. Endocrinol., March 1, 2005; 184(3): 555 - 566. [Abstract] [Full Text] [PDF]

				D. Pant, L. P Reynolds, J. S Luther, P. P Borowicz, T. M Stenbak, J. J Bilski, R. M Weigl, F. Lopes, K. Petry, M. L. Johnson, et al. Expression of connexin 43 and gap junctional intercellular communication in the cumulus-oocyte complex in sheep Reproduction, February 1, 2005; 129(2): 191 - 200. [Abstract] [Full Text] [PDF]

				P. Fischer, R. Brehm, L. Konrad, S. Hartmann, S. Kliesch, R. M. Bohle, and M. Bergmann Connexin 33: A Rodent-Specific Member of the Gap Junction Protein Family? J Androl, January 1, 2005; 26(1): 75 - 84. [Abstract] [Full Text] [PDF]

				J. E. I. Gittens, K. J. Barr, B. C. Vanderhyden, and G. M. Kidder Interplay between paracrine signaling and gap junctional communication in ovarian follicles J. Cell Sci., January 1, 2005; 118(1): 113 - 122. [Abstract] [Full Text] [PDF]

				C. Fiorini, B. Mograbi, L. Cronier, I. Bourget, X. Decrouy, M. Nebout, B. Ferrua, A. Malassine, M. Samson, P. Fenichel, et al. Dominant negative effect of connexin33 on gap junctional communication is mediated by connexin43 sequestration J. Cell Sci., September 15, 2004; 117(20): 4665 - 4672. [Abstract] [Full Text] [PDF]

				C. Berthet, A.-M. Morera, M.-J. Asensio, M.-A. Chauvin, A.-P. Morel, F. Dijoud, J.-P. Magaud, P. Durand, and J.-P. Rouault CCR4-Associated Factor CAF1 Is an Essential Factor for Spermatogenesis Mol. Cell. Biol., July 1, 2004; 24(13): 5808 - 5820. [Abstract] [Full Text] [PDF]

				G. I. Veitch, J. E. I. Gittens, Q. Shao, D. W. Laird, and G. M. Kidder Selective assembly of connexin37 into heterocellular gap junctions at the oocyte/granulosa cell interface J. Cell Sci., June 1, 2004; 117(13): 2699 - 2707. [Abstract] [Full Text] [PDF]

				M. De Felici, M.L. Scaldaferri, M. Lobascio, S. Iona, V. Nazzicone, F.G. Klinger, and D. Farini Experimental approaches to the study of primordial germ cell lineage and proliferation Hum. Reprod. Update, May 1, 2004; 10(3): 197 - 206. [Abstract] [Full Text] [PDF]

Defects in the Germ Line and Gonads of Mice Lacking Connexin431

Defects in the Germ Line and Gonads of Mice Lacking Connexin43¹

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				J. C. SAEZ, V. M. BERTHOUD, M. C. BRANES, A. D. MARTINEZ, and E. C. BEYER Plasma Membrane Channels Formed by Connexins: Their Regulation and Functions Physiol Rev, October 1, 2003; 83(4): 1359 - 1400. [Abstract] [Full Text] [PDF]

				P. Lonergan, D. Rizos, A. Gutierrez-Adan, P.M. Moreira, B. Pintado, J. de la Fuente, and M.P. Boland Temporal Divergence in the Pattern of Messenger RNA Expression in Bovine Embryos Cultured from the Zygote to Blastocyst Stage In Vitro or In Vivo Biol Reprod, October 1, 2003; 69(4): 1424 - 1431. [Abstract] [Full Text] [PDF]

				D.N. Modi, S. Sane, and D. Bhartiya Accelerated germ cell apoptosis in sex chromosome aneuploid fetal human gonads Mol. Hum. Reprod., April 1, 2003; 9(4): 219 - 225. [Abstract] [Full Text] [PDF]

				J. E. I. Gittens, A. A. Mhawi, D. Lidington, Y. Ouellette, and G. M. Kidder Functional analysis of gap junctions in ovarian granulosa cells: distinct role for connexin43 in early stages of folliculogenesis Am J Physiol Cell Physiol, April 1, 2003; 284(4): C880 - C887. [Abstract] [Full Text] [PDF]

				S. I. Tazuke, C. Schulz, L. Gilboa, M. Fogarty, A. P. Mahowald, A. Guichet, A. Ephrussi, C. G. Wood, R. Lehmann, and M. T. Fuller A germline-specific gap junction protein required for survival of differentiating early germ cells Development, March 7, 2003; 129(10): 2529 - 2539. [Abstract] [Full Text] [PDF]

				R. O. Arellano, A. Martinez-Torres, and E. Garay Ionic Currents Activated via Purinergic Receptors in the Cumulus Cell-Enclosed Mouse Oocyte Biol Reprod, September 1, 2002; 67(3): 837 - 846. [Abstract] [Full Text] [PDF]

				M. S. Risley, I. P. Tan, and J. Farrell Gap Junctions with Varied Permeability Properties Establish Cell-Type Specific Communication Pathways in the Rat Seminiferous Epithelium Biol Reprod, September 1, 2002; 67(3): 945 - 952. [Abstract] [Full Text] [PDF]

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