Publications by authors named "Queenie P Vong"

Many malignant cells release the NKG2D ligand ULBP2 from their cell surface to evade immunosurveillance by NK cells and CD8 T cells. Although the shedding mechanism remains unclear, various inhibitors of matrix metalloproteinases have been shown to efficiently block the release of soluble ULBP2. The clinical use of these inhibitors, however, is limited because of adverse side effects.

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Thymocyte selection-associated high mobility group box protein family member 2 (TOX2) is a transcription factor belonging to the TOX family that shares a highly conserved high mobility group DNA-binding domain with the other TOX members. Although TOX1 has been shown to be an essential regulator of T-cell and natural killer (NK) cell differentiation in mice, little is known about the roles of the other TOX family members in lymphocyte development, particularly in humans. In this study, we found that TOX2 was preferentially expressed in mature human NK cells (mNK) and was upregulated during in vitro differentiation of NK cells from human umbilical cord blood (UCB)-derived CD34(+) cells.

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The microvasculature is important for vertebrate organ development and homeostasis. However, the molecular mechanism of microvascular angiogenesis remains incompletely understood. Through studying Borg5 (Binder of the Rho GTPase 5), which belongs to a family of poorly understood effector proteins of the Cdc42 GTPase, we uncover a role for Borg5 in microvascular angiogenesis.

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Tumor metastasis and lack of NKG2D ligand (NKG2DL) expression are associated with poor prognosis in patients with colon cancer. Here, we found that spironolactone (SPIR), an FDA-approved diuretic drug with a long-term safety profile, can up-regulate NKG2DL expression in multiple colon cancer cell lines by activating the ATM-Chk2-mediated checkpoint pathway, which in turn enhances tumor elimination by natural killer cells. SPIR can also up-regulate the expression of metastasis-suppressor genes TIMP2 and TIMP3, thereby reducing tumor cell invasiveness.

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Mouse embryonic stem (ES) cell is a unique yet highly successful system to study stem cell maintenance and differentiation. In this protocol, we describe the generation of engineered mouse ES cells that stably express GFP alone or GFP fused with histone H2B, which allow the cells to be traced live or in fixed samples. This system can be used to study cell behavior changes as ES cells differentiate into different lineages.

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Stem cell differentiation is accompanied by a gradual cellular morphogenesis and transcriptional changes. Identification of morphological regulators that control cell behavior during differentiation could shed light on how cell morphogenesis is coupled to transcriptional changes during development. By analyzing cellular behavior during differentiation of mouse embryonic stem cells (ESCs), we uncover a role of Borg5 (binder of Rho guanosine 5'-triphosphatase 5) in regulating trophectoderm (TE) cell morphogenesis.

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Killer immunoglobulin-like receptors (KIRs) play an essential role in the regulation of natural killer cell functions. KIR genes are highly polymorphic in nature, showing both haplotypic and allelic variations among people. We demonstrated in both in vitro and in vivo models a significant heterogeneity in function among different KIR2DL1 alleles, including their ability to inhibit YT-Indy cells from degranulation, interferon gamma production, and cytotoxicity against target cells expressing the HLA-Cw6 ligand.

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Despite the identification of key genes such as Sry integral to embryonic gonadal development, the genomic classification and identification of chromosomal activation of this process is still poorly understood. To better understand the genetic regulation of gonadal development, we performed Serial Analysis of Gene Expression (SAGE) to profile the genes and novel transcripts, and an average of 152,000 tags from male embryonic gonads at E10.5 (embryonic day 10.

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Microtubule (MT) arrays can be formed either from centrosomes or from noncentrosomal locations. In this issue of Developmental Cell, Efimov and colleagues report a role of CLASPs, the MT plus end-binding proteins, in MT formation from Golgi, implicating Golgi-originated MT arrays in efficient cell migration (Efimov et al., 2007).

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In spite of recent evidence showing the importance of DBY (DEAD-box RNA helicase Y) in spermatogenesis in human, the biologic role of its homolog Dby (also known as Ddx3y) in the mouse is less clear. The present study aims at characterizing the molecular structure of Dby and comparing its expression with its X- and autosome-linked homologs in embryonic gonads and developing germ cells in mice. Molecular cloning by rapid amplification of 3'-cDNA ends showed that the Dby gene in the mouse gives rise to 2 transcripts that differ only in the length of the 3'-untranslated region as a consequence of the use of alternative polyadenylation signals.

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Proper chromosome segregation requires the attachment of sister kinetochores to microtubules from opposite spindle poles to form bi-oriented chromosomes on the metaphase spindle. The chromosome passenger complex containing Survivin and the kinase Aurora B regulates this process from the centromeres. We report that a de-ubiquitinating enzyme, hFAM, regulates chromosome alignment and segregation by controlling both the dynamic association of Survivin with centromeres and the proper targeting of Survivin and Aurora B to centromeres.

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Insulin-like growth factor-I (IGF-I) plays an important role in the growth and development of fish. To understand the molecular mechanism which controls the transcription of the IGF-I gene in common carp, we have cloned and completely sequenced the IGF-I gene and the 5'-flanking region from a local tropical fish, the common carp (Cyprinus carpio), and characterized its promoter activity by transfection into human embryonic kidney (293GHR) cells which express the human growth hormone (GH) receptor. The common carp gene is the smallest IGF-I gene known so far, spanning approximately 13 kb, and is consisted of five exons and four introns.

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Insulin-like growth factor-II (IGF-II) is a member of a growth factor family related to fetal growth in mammals but its physiological role has not been clearly identified in fish. In teleosts, the basic mechanism of the growth hormone (GH)-IGF axis is known to be operative but in a different manner. For instance, IGF-I exhibits GH dependence whereas for IGF-II, its GH dependence varies in different fish species.

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