Characterization and role of NUMB in the human extravillous trophopblast

Mapping the chromatin landscape and Blimp1 transcriptional targets that regulate trophoblast differentiation

Trophoblast stem cells (TSCs) give rise to specialized cell types within the placenta. However, the regulatory mechanisms that guide trophoblast cell fate decisions during placenta development remain ill defined. Here we exploited ATAC-seq and transcriptional profiling strategies to describe dynamic changes in gene expression and chromatin accessibility during TSC differentiation. We detect significantly increased chromatin accessibility at key genes upregulated as TSCs exit from the stem cell state. However, downregulated gene expression is not simply due to the loss of chromatin accessibility in proximal regions. Additionally, transcriptional targets recognized by the zinc finger transcriptional repressor Prdm1/Blimp1, an essential regulator of placenta development, were identified in ChIP-seq experiments. Comparisons with previously reported ChIP-seq datasets for primordial germ cell-like cells and E18.5 small intestine, combined with functional annotation analysis revealed that Blimp1 has broadly shared as well as cell type-specific functional activities unique to the trophoblast lineage. Importantly, Blimp1 not only silences TSC gene expression but also prevents aberrant activation of divergent developmental programmes. Overall the present study provides new insights into the chromatin landscape and Blimp1-dependent regulatory networks governing trophoblast gene expression.

Human NUMB6 Induces Epithelial-Mesenchymal Transition and Enhances Breast Cancer Cells Migration and Invasion

Mammalian NUMB is alternatively spliced generating four isoforms NUMB1-NUMB4 that can function as tumor suppressors. NUMB1-NUMB4 proteins, which normally determine how different cell types develop, are reduced in 21% of primary breast tumors. Our previous work has, however, indicated that two novel NUMB isoforms, NUMB5 and NUMB6 have the pro-oncogenic functions. Herein, we address a novel function of human NUMB isoform 6 (NUMB6) in promoting cancer cell migration and invasion. We found that NUMB6 induced expression of embryonic transcription factor Slug, which in turn actively repressed E-cadherin, prompting cells to undergo epithelial-mesenchymal transition (EMT). Low-metastatic breast cancer cells DB-7 stably expressing NUMB6, lost their epithelial phenotype, exhibited migratory and pro-invasive behavior, and ultimately elevated expression of mesenchymal markers. Among these markers, increased vimentin, β-catenin, and fibronectin expression elicited metalloproteinase 9 (MMP9) production. Our results revealed that NUMB6-DB-7 cells have significantly increased level of Akt1 and Akt2 phosphorylation. Therefore, antagonizing Akt signaling using a chemical inhibitor LY294002, we found that NUMB6-induced Slug expression was reduced, and ultimately accompanied with decreased cell migration and invasion. In summary, this study identified a novel molecular determinant of breast cancer progression, uncovering a potential oncogenic role for the NUMB6 protein in cancer cell migration and invasion, coupled to the maintenance of mesenchymal-like cells. J. Cell. Biochem. 118: 237-251, 2017. © 2016 Wiley Periodicals, Inc.

Notch signalling in placental development and gestational diseases

Activation of Notch signalling upon cell-cell contact of neighbouring cells controls a plethora of cellular processes such as stem cell maintenance, cell lineage determination, cell proliferation, and survival. Accumulating evidence suggests that the pathway also critically regulates these events during placental development and differentiation. Herein, we summarize our present knowledge about Notch signalling in murine and human placentation and discuss its potential role in the pathophysiology of gestational disorders. Studies in mice suggest that Notch controls trophectoderm formation, decidualization, placental branching morphogenesis and endovascular trophoblast invasion. In humans, the particular signalling cascade promotes formation of the extravillous trophoblast lineage and regulates trophoblast proliferation, survival and differentiation. Expression patterns as well as functional analyses indicate distinct roles of Notch receptors in different trophoblast subtypes. Altered effects of Notch signalling have been detected in choriocarcinoma cells, consistent with its role in cancer development and progression. Moreover, deregulation of Notch signalling components were observed in pregnancy disorders such as preeclampsia and fetal growth restriction. In summary, Notch plays fundamental roles in different developmental processes of the placenta. Abnormal signalling through this pathway could contribute to the pathogenesis of gestational diseases with aberrant placentation and trophoblast function.

Expression and function of NUMB in odontogenesis

NUMB is a multifunctional protein implicated to function in self-renewal and differentiation of progenitors in several tissues. To characterize the transcripts and to analyze the expression pattern of NUMB in odontogenesis, we isolated 2 full-length clones for NUMB from mouse dental pulp mRNA. One novel sequence contained 200 bp insertion in the phosphotyrosine binding domain (PTB). Confocal microscopy analysis showed strong NUMB expression in human dental pulp stem cells (hDPSC) and preameloblasts. Western blot analysis indicated that NUMB isoforms were differentially expressed in various dental tissues. Immunohistochemical analysis showed that in postnatal mouse tooth germs, NUMB was differentially expressed in the preameloblasts, odontoblasts, cervical loop region, and in the dental pulp stem cells during development. Interestingly, overexpression of NUMB in HAT-7, a preameloblast cell line, had dramatic antagonizing effects on the protein expression level of activated Notch 1. Further analysis of the Notch signaling pathway showed that NUMB significantly downregulates sonic hedgehog (Shh) expression in preameloblasts. Therefore, we propose that NUMB maintains ameloblast progenitor phenotype at the cervical loop by downregulating the activated Notch1 protein and thereby inhibiting the mRNA expression of Shh.

Numb and Alzheimer's disease: the current picture

Twenty-three years ago, numb was identified as a critical regulator in Drosophila sensory organ precursor cell asymmetric divisions. Beyond the recently recognized role in carcinogenesis, Numb seems to be important in Alzheimer’s disease. This assertion comes from the involvement in various processes such as synapse morphogenesis, amyloid precursor protein trafficking, notch signaling, and neurogenesis. The purpose of the present mini-review is to provide the current picture of Numb’s participation in mechanisms underlying Alzheimer’s disease pathogenesis and emphasize potential aspects for future research.