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Your search keyword '"Eleni Kallinos"' showing total 4 results
Start Over Author "Eleni Kallinos" Topic cell biology
4 results on '"Eleni Kallinos"'

1. Comparison of Human Antral Follicles of Xenograft versus Ovarian Origin Reveals Disparate Molecular Signatures

Author

Zev Rosenwaks, K. Hancock, Benjamin Schattman, Daylon James, Limor Man, Nikica Zaninovic, Eleni Kallinos, David Redmond, Glenn L. Schattman, Zachary Redhead-Laconte, Nicole Lustgarten-Guahmich, and Sally Liu

Subjects
0301 basic medicine, Cell type, endocrine system, Stromal cell, fertility preservation, Granulosa cell, Ovary, human folliculogenesis, Biology, General Biochemistry, Genetics and Molecular Biology, single-cell RNA sequencing, Mice, 03 medical and health sciences, 0302 clinical medicine, Ovarian Follicle, medicine, ovarian tissue transplantation, Animals, Humans, lcsh:QH301-705.5, ovarian tissue xenograft, Theca Cell, Antral follicle, Xenograft Model Antitumor Assays, Cell biology, Disease Models, Animal, 030104 developmental biology, medicine.anatomical_structure, lcsh:Biology (General), Theca, Female, Folliculogenesis, antral follicle, 030217 neurology & neurosurgery
Abstract

Summary: The activation, growth, and maturation of oocytes to an ovulatory phase, termed folliculogenesis, is governed by the orchestrated activity of multiple specialized cell types within the ovary; yet, the mechanisms governing diversification and behavior of discrete cellular sub-populations within follicles are poorly understood. We use bulk and single-cell RNA sequencing to distinguish the transcriptional signature of prospectively isolated granulosa and theca/stroma cell subsets within human antral follicles derived from xenografts or ovaries. The analysis deconstructs phenotypic diversification within small (

Published
2020

2. Endothelial deletion of ADAM10, a key regulator of Notch signaling, causes impaired decidualization and reduced fertility in female mice

Author

Shiva Shafiei, Eleni Kallinos, Nicole Lustgarten Guahmich, Dylan R. McNally, Daniel Dufort, Gregory Farber, David Redmond, Heidi Stuhlmann, Carl P. Blobel, and Daylon James

Subjects
0301 basic medicine, Cancer Research, Physiology, Angiogenesis, ADAM10, Clinical Biochemistry, Notch signaling pathway, Regulator, Biology, Article, 03 medical and health sciences, ADAM10 Protein, Mice, 0302 clinical medicine, Pregnancy, Decidua, Animals, Mice, Knockout, Metalloproteinase, Receptors, Notch, Decidualization, Membrane Proteins, Cell biology, Endothelial stem cell, 030104 developmental biology, Fertility, 030220 oncology & carcinogenesis, Female, Signal transduction, Amyloid Precursor Protein Secretases, Gene Deletion, Signal Transduction
Abstract

During the initiation of pregnancy, the vasculature of the implantation site expands rapidly, yet little is known about this process or its role in fertility. Here, we report that endothelial-specific deletion of a disintegrin and metalloprotease 10 (ADAM10), an essential regulator of Notch signaling, results in severe subfertility in mice. We found that implantation sites develop until 5.5 days post conception (dpc) but are resorbed by 6.5 dpc in A10ΔEC mice. Analysis of the mutant implantation sites showed impaired decidualization and abnormal vascular patterning compared to controls. Moreover, RNA-seq analysis revealed changes in endothelial cell marker expression consistent with defective ADAM10/Notch signaling in samples from A10ΔEC mice, suggesting that this signaling pathways is essential for the physiological function of endometrial endothelial cells during early pregnancy. Our findings raise the possibility that impaired endothelial cell function could be a cause for repeated pregnancy loss (RPL) and infertility in humans.

Published
2020

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