Tyler C. Davies scite author profile

Gap junctions are made up of connexin proteins, which comprise a multigene family in mammals. Targeted mutagenesis of connexin43 (Cx43), one of the most prevalent connexin proteins, showed that its absence was compatible with survival of mouse embryos to term, even though mutant cell lines showed reduced dye coupling in vitro. However, mutant embryos died at birth, as a result of a failure in pulmonary gas exchange caused by a swelling and blockage of the right ventricular outflow tract from the heart. This finding suggests that Cx43 plays an essential role in heart development but that there is functional compensation among connexins in other parts of the developing fetus.

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Periodic Expression of the Cyclin-dependent Kinase Inhibitor p57^Kip2in Trophoblast Giant Cells Defines a G2-like Gap Phase of the Endocycle

Hattori

Davies

Anson‐Cartwright

et al. 2000

MBoC

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Endoreduplication is an unusual form of cell cycle in which rounds of DNA synthesis repeat in the absence of intervening mitoses. How G1/S cyclin-dependent kinase (Cdk) activity is regulated during the mammalian endocycle is poorly understood. We show here that expression of the G1/S Cdk inhibitor p57Kip2 is induced coincidentally with the transition to the endocycle in trophoblast giant cells. Kip2 mRNA is constitutively expressed during subsequent endocycles, but the protein level fluctuates. In trophoblast giant cells synchronized for the first few endocycles, the p57 Kip2 protein accumulates only at the end of S-phase and then rapidly disappears a few hours before the onset of the next S-phase. The protein becomes stabilized by mutation of a C-terminal Cdk phosphorylation site. As a consequence, introduction of this stable form of p57Kip2 into giant cells blocks S-phase entry. These data imply that p57Kip2 is subject to phosphorylation-dependent turnover. Surprisingly, although this occurs in endoreduplicating giant cells, p57Kip2 is stable when ectopically expressed in proliferating trophoblast cells, indicating that these cells lack the mechanism for protein targeting and/or degradation. These data show that the appearance of p57Kip2 punctuates the completion of DNA replication, whereas its turnover is subsequently required to initiate the next round of endoreduplication in trophoblast giant cells. Cyclical expression of a Cdk inhibitor, by terminating G1/S Cdk activity, may help promote the resetting of DNA replication machinery.

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Multiple members of the connexin gene family participate in preimplantation development of the mouse

et al. 1996

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Embryonic Expression of the Putative γ Subunit of the Sodium Pump Is Required for Acquisition of Fluid Transport Capacity during Mouse Blastocyst Development

Jones

Davies

Kidder

1997

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The sodium/potassium pump, Na+,K+-ATPase, is generally understood to function as a heterodimer of two subunits, a catalytic α subunit and a noncatalytic, glycosylated β subunit. Recently, a putative third subunit, the γ subunit, was cloned. This small protein (6.5 kD) coimmunoprecipitates with the α and β subunits and is closely associated with the ouabain binding site on the holoenzyme, but its function is unknown. We have investigated the expression of the γ subunit in preimplantation mouse development, where Na+,K+-ATPase plays a critical role as the driving force for blastocoel formation (cavitation). Using reverse transcriptase-polymerase chain reaction, we demonstrated that the γ subunit mRNA accumulates continuously from the eight-cell stage onward and that it cosediments with polyribosomes from its time of first appearance. Confocal immunofluorescence microscopy revealed that the γ subunit itself accumulates and is localized at the blastomere surfaces up to the blastocyst stage. In contrast with the α and β subunits, the γ subunit is not concentrated in the basolateral surface of the polarized trophectoderm layer, but is strongly expressed at the apical surface as well. When embryos were treated with antisense oligodeoxynucleotide complementary to the γ subunit mRNA, ouabain-sensitive K+ transport (as indicated by 86Rb+ uptake) was reduced and cavitation delayed. However, Na+,K+-ATPase enzymatic activity was unaffected as determined by a direct phosphorylation assay (“back door” phosphorylation) applied to plasma membrane preparations. These results indicate that the γ subunit, although not an integral component of Na+,K+-ATPase, is an important determinant of active cation transport and that, as such, its embryonic expression is essential for blastocoel formation in the mouse.

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Development to Blastocyst Is Impaired When Intracytoplasmic Sperm Injection Is Performed with Abnormal Sperm from Infertile Mice Harboring a Mutation in the Protein Phosphatase 1cγ Gene1

Davies

Varmuza

2003

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Idiopathic azoospermia, characterized by abnormal spermatogenesis, is commonly treated by performing intracytoplasmic sperm injection (ICSI) with sperm retrieved from testicular biopsies. However, no controlled experiments have been performed using an animal model to assess the efficacy or safety of the procedure. We have performed ICSI with testicular sperm obtained in a similar manner from testes of male mice homozygous for a null mutation in the protein phosphatase 1cgamma gene (PP1cgamma) or those of their wild-type littermates. PP1cgamma mutant testicular sperm are less resistant to sonication than are wild-type sperm and display a range of morphological abnormalities, similar to those reported for testicular sperm from idiopathic azoospermic men. PP1cgamma mutant sperm are unable to support development to the blastocyst stage, resulting in arrested development either before or just after compaction. A comparison of testicular and epididymal sperm from wild-type males revealed that the epididymal sperm caused embryos to fragment at an elevated rate. These results suggest that ICSI with any kind of testicular sperm carries an increased risk of embryo fragmentation and that abnormal testicular sperm has an added risk of embryo wastage at later preimplantation stages.

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Normal development of preimplantation mouse embryos deficient in gap junctional coupling

Sousa

Juneja

Caveney

et al. 1997

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The connexin multigene family (13 characterized members in rodents) encodes the subunits of gap junction channels. Gap junctional intercellular coupling, established during compaction of the preimplantation mouse embryo, is assumed to be necessary for development of the blastocyst. One member of the connexin family, connexin43, has been shown to contribute to the gap junctions that form during compaction, yet embryos homozygous for a connexin43 null mutation develop normally, at least until implantation. We show that this can be explained by contributions from one or more additional connexin genes that are normally expressed along with connexin43 in preimplantation development. Immunogold electron microscopy confirmed that roughly 30% of gap junctions in compacted morulae contain little or no connexin43 and therefore are likely to be composed of another connexin(s). Confocal immunofluorescence microscopy was then used to demonstrate that connexin45 is also assembled into membrane plaques, beginning at the time of compaction. Correspondingly, embryos homozygous for the connexin43 null mutation were found to retain the capacity for cell-to-cell transfer of fluorescent dye (dye coupling), but at a severely reduced level and with altered permeability characteristics. Whereas mutant morulae showed no evidence of dye coupling when tested with 6-carboxyfluorescein, dye coupling could be demonstrated using 2′,7′-dichlorofluorescein, revealing permeability characteristics previously established for connexin45 channels. We conclude that preimplantation development in the mouse can proceed normally even though both the extent and nature of gap junctional coupling have been perturbed. Despite the distinctive properties of connexin43 channels, their role in preimplantation development can be fulfilled by one or more other types of gap junction channels.

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Tyler C. Davies

Cardiac Malformation in Neonatal Mice Lacking Connexin43

Periodic Expression of the Cyclin-dependent Kinase Inhibitor p57^Kip2in Trophoblast Giant Cells Defines a G2-like Gap Phase of the Endocycle

Multiple members of the connexin gene family participate in preimplantation development of the mouse

Embryonic Expression of the Putative γ Subunit of the Sodium Pump Is Required for Acquisition of Fluid Transport Capacity during Mouse Blastocyst Development

Development to Blastocyst Is Impaired When Intracytoplasmic Sperm Injection Is Performed with Abnormal Sperm from Infertile Mice Harboring a Mutation in the Protein Phosphatase 1cγ Gene1

Normal development of preimplantation mouse embryos deficient in gap junctional coupling

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Tyler C. Davies

Cardiac Malformation in Neonatal Mice Lacking Connexin43

Periodic Expression of the Cyclin-dependent Kinase Inhibitor p57Kip2in Trophoblast Giant Cells Defines a G2-like Gap Phase of the Endocycle

Multiple members of the connexin gene family participate in preimplantation development of the mouse

Embryonic Expression of the Putative γ Subunit of the Sodium Pump Is Required for Acquisition of Fluid Transport Capacity during Mouse Blastocyst Development

Development to Blastocyst Is Impaired When Intracytoplasmic Sperm Injection Is Performed with Abnormal Sperm from Infertile Mice Harboring a Mutation in the Protein Phosphatase 1cγ Gene1

Normal development of preimplantation mouse embryos deficient in gap junctional coupling

Contact Info

Product

Resources

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Periodic Expression of the Cyclin-dependent Kinase Inhibitor p57^Kip2in Trophoblast Giant Cells Defines a G2-like Gap Phase of the Endocycle