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  • Open Access

    ARTICLE

    DPY19L3 promotes vasculogenic mimicry by its C-mannosyltransferase activity

    HASSAN BAYDOUN1, YUJI KATO1, HIROKI KAMO1, ANNA HÜSCH1,2, HAYATO MIZUTA1, RYOTA KAWAHARA1, SIRO SIMIZU1,*

    Oncology Research, Vol.32, No.4, pp. 607-614, 2024, DOI:10.32604/or.2023.030304 - 20 March 2024

    Abstract

    C-mannosylation is a post-translational modification that occurs intracellularly in the endoplasmic reticulum. In humans, biosynthesis of C-mannosylation in proteins containing thrombospondin type 1 repeat is catalyzed by the DPY19 family; nonetheless, biological functions of protein C-mannosylation are not yet fully understood, especially in tumor progression. Vasculogenic mimicry (VM) is the formation of fluid-conducting channels by highly invasive and genetically deregulated tumor cells, enabling the tumors to form matrix-embedded vasculogenic structures, containing plasma and blood cells to meet the metabolic demands of rapidly growing tumors. In this study, we focused on DPY19L3, a C-mannosyltransferase, and aimed to unravel

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  • Open Access

    ARTICLE

    CircMAN1A2 promotes vasculogenic mimicry of nasopharyngeal carcinoma cells through upregulating ERBB2 via sponging miR-940

    HUAQING MO#, JINGYI SHEN#, YUXIAO ZHONG, ZENAN CHEN, TONG WU, YANYU LV*, YANYAN XIE, YANRONG HAO*

    Oncology Research, Vol.30, No.4, pp. 187-199, 2022, DOI:10.32604/or.2022.027534 - 31 January 2023

    Abstract Nasopharyngeal carcinoma (NPC) is the most prevalent human primary malignancy of the head and neck, and the presence of vasculogenic mimicry (VM) renders anti-angiogenic therapy ineffective and poorly prognostic. However, the underlying mechanisms are unclear. In the present study, we used miR-940 silencing and overexpression for in vitro NPC cell EdU staining, wound healing assay and 3D cell culture assay, and in vivo xenograft mouse model and VM formation to assess miR-940 function. We found that ectopic miR-940 expression reduced NPC cell proliferation, migration and VM, as well as tumorigenesis in vivo. By bioinformatic analysis, circMAN1A2 was… More >

  • Open Access

    ARTICLE

    uPAR Controls Vasculogenic Mimicry Ability Expressed by Drug-Resistant Melanoma Cells

    Elena Andreucci*1, Anna Laurenzana*, Silvia Peppicelli*, Alessio Biagioni*, Francesca Margheri*, Jessica Ruzzolini*, Francesca Bianchini*, Gabriella Fibbi*, Mario Del Rosso*†, Chiara Nediani*, Simona Serratì, Livia Fucci§, Michele Guida, Lido Calorini*†1

    Oncology Research, Vol.28, No.9, pp. 873-884, 2020, DOI:10.3727/096504021X16273798026651

    Abstract Malignant melanoma is a highly aggressive skin cancer characterized by an elevated grade of tumor cell plasticity. Such plasticity allows adaptation of melanoma cells to different hostile conditions and guarantees tumor survival and disease progression, including aggressive features such as drug resistance. Indeed, almost 50% of melanoma rapidly develop resistance to the BRAFV600E inhibitor vemurafenib, with fast tumor dissemination, a devastating consequence for patients’ outcomes. Vasculogenic mimicry (VM), the ability of cancer cells to organize themselves in perfused vascular-like channels, might sustain tumor spread by providing vemurafenibresistant cancer cells with supplementary ways to enter into… More >

  • Open Access

    REVIEW

    Multifaceted Strategies Used by Root-Knot Nematodes to Parasitize Plants-A Review

    Adnan Shakeel*, Abrar Ahmad Khan, Mohammad Haris

    Phyton-International Journal of Experimental Botany, Vol.89, No.2, pp. 205-215, 2020, DOI:10.32604/phyton.2020.08922 - 22 April 2020

    Abstract Root-knot nematodes being omnipresent in agricultural and horticultural soils are tallied among the most important economic pathogens around the world. For successful parasitism, these nematodes use various strategies to control and manipulate the host plant’s cell machinery. These strategies include the molecular mimicry of some host genes by some nematode secreted effector proteins, secretion of cell wall digesting enzymes and other effector proteins that are responsible for the suppression of defence by the host plant. All these secretions which are released through the stylet, contribute to the formation of specialized feeding sites or giant cells. More >

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