Xuanjun Wang scite author profile

Dendrobium officinale Kimura et Migo is a traditional Chinese orchid herb that has both ornamental value and a broad range of therapeutic effects. Here, we report the first de novo assembled 1.35 Gb genome sequences for D. officinale by combining the second-generation Illumina Hiseq 2000 and third-generation PacBio sequencing technologies. We found that orchids have a complete inflorescence gene set and have some specific inflorescence genes. We observed gene expansion in gene families related to fungus symbiosis and drought resistance. We analyzed biosynthesis pathways of medicinal components of D. officinale and found extensive duplication of SPS and SuSy genes, which are related to polysaccharide generation, and that the pathway of D. officinale alkaloid synthesis could be extended to generate 16-epivellosimine. The D. officinale genome assembly demonstrates a new approach to deciphering large complex genomes and, as an important orchid species and a traditional Chinese medicine, the D. officinale genome will facilitate future research on the evolution of orchid plants, as well as the study of medicinal components and potential genetic breeding of the dendrobe.

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Perturbation of NK cell peripheral homeostasis accelerates prostate carcinoma metastasis

Liu

Wang

et al. 2013

J. Clin. Invest.

146

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The activating receptor NK cell group 2 member D (NKG2D) mediates antitumor immunity in experimental animal models. However, whether NKG2D ligands contribute to tumor suppression or progression clinically remains controversial. Here, we have described 2 novel lines of "humanized" bi-transgenic (bi-Tg) mice in which native human NKG2D ligand MHC class I polypeptide-related sequence B (MICB) or the engineered membrane-restricted MICB (MICB.A2) was expressed in the prostate of the transgenic adenocarcinoma of the mouse prostate (TRAMP) model of spontaneous carcinogenesis. Bi-Tg TRAMP/MICB mice exhibited a markedly increased incidence of progressed carcinomas and metastasis, whereas TRAMP/MICB.A2 mice enjoyed long-term tumor-free survival conferred by sustained NKG2D-mediated antitumor immunity. Mechanistically, we found that cancer progression in TRAMP/MICB mice was associated with loss of the peripheral NK cell pool owing to high serum levels of tumor-derived soluble MICB (sMICB). Prostate cancer patients also displayed reduction of peripheral NK cells and high sMIC levels. Our study has not only provided direct evidence in "humanized" mouse models that soluble and membrane-restricted NKG2D ligands pose opposite impacts on cancer progression, but also uncovered a mechanism of sMIC-induced impairment of NK cell antitumor immunity. Our findings suggest that the impact of soluble NKG2D ligands should be considered in NK cellbased cancer immunotherapy and that our unique mouse models should be valuable for therapy optimization. Introduction NK cell group 2 member D (NKG2D) and its ligands are important in antitumor immunity, as evidenced in experimental animal models. NKG2D is an activating receptor expressed by all NK cells, most NKT cells, subsets of γδ T cells, all human CD8 T cells, and activated mouse CD8 T cells (1, 2). Engagement of NKG2D can activate NK cells and costimulate CD8 and γδ T cells in vitro (3-5). Enforced expression of NKG2D ligand causes tumor cells to be rejected in syngeneic mice in a manner that is dependent on NK cells and, in some cases, primed CD8 T cells (6, 7). Neutralizing NKG2D in vivo with a specific antibody enhances host sensitivity to carcinogen-induced spontaneous tumor initiation (8). NKG2D-deficient transgenic adenocarcinoma of the mouse prostate (TRAMP) mice are 3 times more likely to develop aggressive poorly differentiated (PD) prostate carcinoma than NKG2D WT TRAMP counterparts (9). Moreover, in NKG2D WT TRAMP mice, progression to PD prostate carcinoma was mostly associated with downregulation of NKG2D ligand expression by tumor cells (9).Curiously, most human tumors, in particular those of epithelial origins, express abundant NKG2D ligands yet progress to advanced diseases (10, 11), suggesting that NKG2D function is compromised in cancer patents. Various mechanisms have been proposed to explain how tumor cells evade NKG2D immunity. One prevailing concept is that exhaustion of NKG2D function

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Cutting Edge: The Membrane Type Matrix Metalloproteinase MMP14 Mediates Constitutive Shedding of MHC Class I Chain-Related Molecule A Independent of A Disintegrin and Metalloproteinases

et al. 2010

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Engagement of tumor cell surface MHC I chain related molecule A (MICA) to NKG2D stimulates NK and T cell anti-tumor immunity. Shedding of MICA by tumor cells facilitates tumor immune evasion, which may in part contribute to tumor progression. Thus, elucidating the mechanisms by which tumors shed MIC is of great importance for therapy to reinforce NK and T cell anti-tumor immunity. Herein we report that the membrane type matrix metalloproteinase (MT-MMP) MMP14 mediates MICA shedding. Suppression of MMP14 expression blocks MICA shedding. Concomitantly, overexpression of MMP14 enhances MICA shedding. The regulation of MICA shedding by MMP14 is independent of the activity of ADAMs which have been reported to mediate MICA shedding. Finally, MMP14 expression in MICA-positive tumor cells regulates the sensitivity of tumor cells to NK cell killing. These findings suggest that MMP14 may be a new target for tumor immune therapy.

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EGCG Reduces Obesity and White Adipose Tissue Gain Partly Through AMPK Activation in Mice

et al. 2018

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(-)-Epigallocatechin-3-gallate (EGCG), which is the most abundant catechin in green tea, has many potential health benefits, including decreased weight gain and/or adipose tissue weight. Suggested mechanisms for body weight reduction by EGCG include: (1) a decrease in calorie intake and (2) activation of AMPK in liver, skeletal muscle, and white adipose tissue. However, only one study supports the AMPK hypothesis. To determine the role of AMPK in EGCG-induced reduction of body weight, we administrated 50 mg/kg and 100 mg/kg per day to mice, together with a high-fat diet (HFD), for 20 weeks. EGCG had a significant effect on obesity and decrease in epididymal adipose tissue weight, and also affected serum lipid characteristics, including triglyceride, cholesterol (CHOL), and high- and low-density lipoprotein CHOL (HDL-C, LDL-C) concentrations. In addition, EGCG increased the excretion of free fatty acids from feces. By measuring the mRNA expression levels of genes involved in lipid metabolism, we found that EGCG inhibited the expression of genes involved in the synthesis of de novo fatty acids (acc1, fas, scd1, c/ebpβ, pparγ, and srebp1) and increased the expression of genes associated with lipolysis (hsl) and lipid oxidization in white adipose tissue, in both the HFD and the EGCG groups. However, EGCG significantly increased the expression of genes involved in the synthesis of de novo fatty acids compared with the HFD group. Increased AMPK activity was found in both subcutaneous and epididymal adipose tissues. In conclusion, EGCG can decrease obesity and epididymal white adipose tissue weight in mice, only partially via activation of AMPK.

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Structural characterization and immunomodulating activity of polysaccharide from Dendrobium officinale

Huang

Liu

et al. 2016

International Journal of Biological Macromolecules

117

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Xuanjun Wang

The Genome of Dendrobium officinale Illuminates the Biology of the Important Traditional Chinese Orchid Herb

Perturbation of NK cell peripheral homeostasis accelerates prostate carcinoma metastasis

Cutting Edge: The Membrane Type Matrix Metalloproteinase MMP14 Mediates Constitutive Shedding of MHC Class I Chain-Related Molecule A Independent of A Disintegrin and Metalloproteinases

EGCG Reduces Obesity and White Adipose Tissue Gain Partly Through AMPK Activation in Mice

Structural characterization and immunomodulating activity of polysaccharide from Dendrobium officinale

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