Kitty Wu scite author profile

Mouse morulae, blastocysts, and embryonic and extraembryonic tissue layers were examined for benzo[aJpyrene metabolism by cytochrome P-450, using the sister chromatid exchange assay. Benzo[alpyrene exposure in vitro increased sister chromatid exchanges in blastocysts of all genetically responsive mice examined [BALB/cDub, C3H/AnfCum, and outbred Dub:(ICR) strains] but not blastocysts of the nonresponsive AKR/J strain. Benzo[alpyrene treatment of responsive 71/2-and 81/2-day (postimplantation-stage) embryos, either intact or as separate tissue layers, increased sister chromatid exchanges in tissues of both embryonic and extraembryonic lineages-i.e., in the embryo proper, in isolated embryonic ectoderm, and in yolk sac, chorion, extraembryonic ectoderm, and extraembryonic endoderm layers. These results indicate that cytochrome P-450 is active in most or all tissues of the early mammalian embryo. It could metabolize xenobiotic molecules reaching the conceptus near the onset of morphogenesis and organogenesis, or it could have another as yet undefined role in normal development.Benzo[a]pyrene and other polycyclic aromatic hydrocarbons are metabolized in cells by cytochrome P-450 monooxygenases whose synthesis they induce. The degree of inducibility in mice varies among strains: both cytochromes

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Function-Blocking RHAMM Peptides Attenuate Fibrosis and Promote Antifibrotic Adipokines in a Bleomycin-Induced Murine Model of Systemic Sclerosis

Kim

Liu

et al. 2021

Journal of Investigative Dermatology

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Defective Chorioallantoic Fusion in Mid-gestation Lethality of Parthenogenone ⇔ Tetraploid Chimeras

Spindle

Sturm

Flannery

et al. 1996

Developmental Biology

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Previous studies of parthenogenetic embryos revealed severe perturbations of both embryonic and extraembryonic tissue lineages during postimplantation development. The majority of pure parthenogenetic concepti have no recognizable axis and exhibit preferential terminal differentiation of their trophectoderm and primitive endoderm. To further define the role of the extraembryonic lineages in parthenogenetic development, we provided them with zygote-derived extraembryonic tissues by aggregating them with fertilized tetraploid embryos. On Day 12 of combined in vitro and in vivo development, most of the embryos proper in these chimeras were entirely derived parthenogenetically, whereas their trophectoderm and primitive endoderm tissues were derived from the tetraploid component. No Igf2 expression was detected in the parthenogenetic embryo proper, indicating that imprinting was manifested in such chimeras. Typical development of the parthenogenetic embryo proper was markedly improved in comparison with pure parthenogenetic concepti, with such chimeras attaining an average of 23 somites (range, 10 to 35). However, most of the chimeras died abruptly at Day 13, and all were being resorbed at Day 14 of development. The gross normality of axial structures and organ development suggests that a major cause of failure of these chimeric parthenogenones to survive beyond mid-gestation was due to defective chorioallantoic fusion. Our results indicate that the severe perturbation of axial development seen in most pure parthenogenetic concepti is a secondary consequence of the effects of parthenogenesis on the trophectoderm and primitive endoderm lineages. Moreover, the mid-gestation death of parthenogenetic embryos proper despite the presence of zygote-derived tetraploid tissues implicates extraembryonic mesoderm in manifesting the effects of genomic imprinting.

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Sensitivity of early mouse embryos to [3H]thymidine

Spindle

Pedersen

1982

Experimental Cell Research

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Kitty Wu

Origin of the inner cell mass in mouse embryos: Cell lineage analysis by microinjection

Cytochrome P-450 metabolic activity in embryonic and extraembryonic tissue lineages of mouse embryos.

Function-Blocking RHAMM Peptides Attenuate Fibrosis and Promote Antifibrotic Adipokines in a Bleomycin-Induced Murine Model of Systemic Sclerosis

Defective Chorioallantoic Fusion in Mid-gestation Lethality of Parthenogenone ⇔ Tetraploid Chimeras

Sensitivity of early mouse embryos to [3H]thymidine

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