A cytoplasmic protein, bystin, interacts with trophinin, tastin, and cytokeratin and may be involved in trophinin-mediated cell adhesion between trophoblast and endometrial epithelial cells

Suzuki, Nao; Zara, Jane; Sato, Takaaki; Ong, Edgar; Bakhiet, Nouna; Oshima, Robert G.; Watson, Kellie L.; Fukuda, Michiko N.

doi:10.1073/pnas.95.9.5027

Cited by 93 publications

(116 citation statements)

References 33 publications

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“…This observation agrees with the previous studies reporting BYSL in nuclei of yeast and mouse ES cells, while only small amounts of BYSL/ ENP1 were cytoplasmic in HeLa cells and yeast [17,18]. Interestingly, BYSL promotes cell adhesion of trophoblasts by forming a complex with trophinin and tastin [39,45], thus mediating embryo implantation which is Hanzhi Wang et al 1161 npg accompanied by rapid cellular invasion and proliferation [39,46,47]. It is likely that cytoplasmic activity of BYSL is important in cancer cell metastasis.…”

Section: Discussionsupporting

confidence: 81%

“…Overall, these observations suggest that BYSL upregulation may be a general feature of human cancers and crucial for tumor formation. BYSL is not a widely expressed gene in adult human tissue through both northern blot and immunohistology analysis in various human tissues [39]. The lack of BYSL protein leads to G2/M arrest and cell death at the end of mitosis in cancer cells, indicating that BYSL is more required in continual cell division.…”

Section: Discussionmentioning

confidence: 99%

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Bystin-like protein is upregulated in hepatocellular carcinoma and required for nucleologenesis in cancer cell proliferation

et al. 2009

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The bystin-like (BYSL) gene was previously characterized to encode an accessory protein for cell adhesion that participates in early embryo implantation. It is also involved in 40S ribosomal subunit biogenesis and is found to be expressed in rapidly growing embryo and cancer cell lines. In order to explore the role of BYSL in cancer cell proliferation and growth, we used hepatocellular carcinoma (HCC) as a model. Here, we report that BYSL is crucial for HCC cell growth both in vitro and in vivo. Expression levels of BYSL mRNA and protein in human HCC specimens were markedly increased compared with those seen in adjacent non-cancerous tissue. In vitro, inhibition of BYSL by short hairpin RNA decreased HCC cell proliferation, induced apoptosis and partially arrested the cell cycle in the G2/M phase. In vivo, HCC cells treated with BYSL siRNA failed to form tumors in nude mice after subcutaneous implantation. To determine the cellular basis for BYSL RNAi-induced cell growth arrest, BYSL subcellular localization in mitotic and interphase HepG2 cells was examined. BYSL was present at multiple stages during nucleologenesis, including in nucleolus-derived foci (NDF), perichromosomal regions and the prenucleolar body (PNB) during mitosis. BYSL depletion remarkably suppressed NDF and PNB formation, and disrupted nucleoli assembly after mitosis, resulting in increased apoptosis and reduced tolerance of HCC cells to serum starvation. Taken together, our studies indicate that upregulated BYSL expression plays a role in hepatocarcinogenesis.

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Section: Discussionsupporting

confidence: 81%

Section: Discussionmentioning

confidence: 99%

Bystin-like protein is upregulated in hepatocellular carcinoma and required for nucleologenesis in cancer cell proliferation

et al. 2009

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“…The expression of two other cell adhesion proteins, bystin and neuronal cell adhesion molecule (N-CAM) L1, also were decreased at the onset of C2C12 differentiation (Table 4). Bystin is a cytoplasmic protein known to interact with trophinin and tastin, forming a cell adhesion complex that mediates initial attachment of the blastocyst to uterine epithelial cells at the time of implantation (Suzuki et al, 1998). N-CAM L1 belongs to the immunoglobulin super family, consisting of six immunoglobulin-like domains and five fibronectin-type III repeats, followed by a transmembrane region and a highly conserved cytoplasmic tail (Hortsch, 2000).…”

Section: Genes Expressed Only During Early Myoblast Differentiation Cmentioning

confidence: 99%

Genome‐wide examination of myoblast cell cycle withdrawal during differentiation

Shen

Collier

Hlaing

et al. 2002

Developmental Dynamics

105

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Skeletal and cardiac myocytes cease division within weeks of birth. Although skeletal muscle retains limited capacity for regeneration through recruitment of satellite cells, resident populations of adult myocardial stem cells have not been identified. Because cell cycle withdrawal accompanies myocyte differentiation, we hypothesized that C2C12 cells, a mouse myoblast cell line previously used to characterize myocyte differentiation, also would provide a model for studying cell cycle withdrawal during differentiation. C2C12 cells were differentiated in culture medium containing horse serum and harvested at various time points to characterize the expression profiles of known cell cycle and myogenic regulatory factors by immunoblot analysis. BrdU incorporation decreased dramatically in confluent cultures 48 hr after addition of horse serum, as cells started to form myotubes. This finding was preceded by up-regulation of MyoD, followed by myogenin, and activation of Bcl-2. Cyclin D1 was expressed in proliferating cultures and became undetectable in cultures containing 40% fused myotubes, as levels of p21 WAF1/Cip1 increased and ␣-actin became detectable. Because C2C12 myoblasts withdraw from the cell cycle during myocyte differentiation following a course that recapitulates this process in vivo, we performed a genome-wide screen to identify other gene products involved in this process. Using microarrays containing ϳ10,000 minimally redundant mouse sequences that map to the UniGene database of the National Center for Biotechnology Information, we compared gene expression profiles between proliferating, differentiating, and differentiated C2C12 cells and verified candidate genes demonstrating differential expression by RT-PCR. Cluster analysis of differentially expressed genes revealed groups of gene products involved in cell cycle withdrawal, muscle differentiation, and apoptosis. In addition, we identified several genes, including DDAH2 and Ly-6A, whose expression specifically was up-regulated during cell cycle withdrawal coincident with early myoblast differentiation. Developmental Dynamics 226:128 -138, 2003.

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“…This is consistent with our observation of up-regulation of Ocln, Zyx, Lgals4, and Bysl in activated blastocysts (Tables 2 and 4). Ocln encoding occludin is important for the formation and maintenance of the blastocoel cavity (36), and Bysl that encodes bystin is involved in trophininmediated cell adhesion between trophoblast and uterine epithelial cells via interaction with trophinin, tastin, and cytokeratin (37). Although mice lacking zyxin function normally (38), and mice carrying galectin1͞3 double mutations (39) are viable and compatible with implantation, the function of Lgals4 (galectin4) is not known.…”

Section: Genes Encoding Adhesion Molecules Are Up-regulated In Blastomentioning

confidence: 99%

Global gene expression analysis identifies molecular pathways distinguishing blastocyst dormancy and activation

Hamatani

Daikoku

Wang

et al. 2004

Proc. Natl. Acad. Sci. U.S.A.

224

228

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Delayed implantation (embryonic diapause) occurs when the embryo at the blastocyst stage achieves a state of suspended animation. During this period, blastocyst growth is very slow, with minimal or no cell division. Nearly 100 mammals in seven different orders undergo delayed implantation, but the underlying molecular mechanisms that direct this process remain largely unknown. In mice, ovariectomy before preimplantation ovarian estrogen secretion on day 4 of pregnancy initiates blastocyst dormancy, which normally lasts for 1-2 weeks by continued progesterone treatment, although blastocyst survival decreases with time. An estrogen injection rapidly activates blastocysts and initiates their implantation in the progesterone-primed uterus. Using this model, here we show that among Ϸ20,000 genes examined, only 229 are differentially expressed between dormant and activated blastocysts. The major functional categories of altered genes include the cell cycle, cell signaling, and energy metabolic pathways, particularly highlighting the importance of heparin-binding epidermal growth factor-like signaling in blastocyst-uterine crosstalk in implantation. The results provide evidence that the two different physiological states of the blastocyst, dormancy and activation, are molecularly distinguishable in a global perspective and underscore the importance of specific molecular pathways in these processes. This study has identified candidate genes that provide a scope for in-depth analysis of their functions and an opportunity for examining their relevance to blastocyst dormancy and activation in numerous other species for which microarray analysis is not available or possible due to very limited availability of blastocysts.S uccessful implantation results from reciprocal interactions between an implantation-competent blastocyst and a receptive uterus. Highly coordinated cellular and molecular events, directed by ovarian estrogen and progesterone (P 4 ), produce a favorable uterine environment, the receptive state, to support implantation. The blastocyst also functions as an active unit with its own molecular program of cell growth and differentiation (1, 2). It is difficult to distinguish embryonic and uterine events during normal pregnancy with respect to blastocyst activation and uterine receptivity because of the changing levels of ovarian hormones. Because estrogen is essential for on-time uterine receptivity and blastocyst activation in mice (3), ovariectomy before preimplantation estrogen secretion on the morning of day 4 results in implantation failure, initiating a state of blastocyst dormancy. This condition, referred as delayed implantation, can be maintained by continued P 4 treatment. However, implantation with blastocyst activation rapidly occurs by an estrogen injection in P 4 -primed mice (3, 4). Delayed implantation also occurs naturally (facultative) during lactation after postpartum ovulation and successful mating in mice; implantation occurs after termination of the suckling stimulus (5). Lactational delay ...

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A cytoplasmic protein, bystin, interacts with trophinin, tastin, and cytokeratin and may be involved in trophinin-mediated cell adhesion between trophoblast and endometrial epithelial cells

Cited by 93 publications

References 33 publications

Bystin-like protein is upregulated in hepatocellular carcinoma and required for nucleologenesis in cancer cell proliferation

Bystin-like protein is upregulated in hepatocellular carcinoma and required for nucleologenesis in cancer cell proliferation

Genome‐wide examination of myoblast cell cycle withdrawal during differentiation

Global gene expression analysis identifies molecular pathways distinguishing blastocyst dormancy and activation

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