1. Understanding the Role of Non-Coding RNAs in Bladder Cancer: From Dark Matter to Valuable Therapeutic Targets
    Cecilia Pop-Bica et al, 2017, IJMS CrossRef
  2. MiR-301b promotes the proliferation, mobility, and epithelial-to-mesenchymal transition of bladder cancer cells by targeting EGR1.
    Lei Yan et al, 2017, Biochem Cell Biol CrossRef
  3. MicroRNA-186 regulates the invasion and metastasis of bladder cancer via vascular endothelial growth factor C
    Xuefeng He et al, 2017 CrossRef
  4. miR-223 decreases cell proliferation and enhances cell apoptosis in acute myeloid leukemia via targeting FBXW7
    Yi Xiao et al, 2016 CrossRef
  5. BRM270 inhibits cancer stem cell maintenance via microRNA regulation in chemoresistant A549 lung adenocarcinoma cells.
    Taeho Kwon et al, 2018, Cell Death Dis CrossRef
  6. MiR-128-3p directly targets VEGFC/VEGFR3 to modulate the proliferation of lymphatic endothelial cells through Ca 2+ signaling
    Jie Zhou et al, 2018, The International Journal of Biochemistry & Cell Biology CrossRef
  7. Association Between 12 Polymorphisms of VEGF/Hypoxia/Angiogenesis Pathway Genes and Risk of Urogenital Carcinomas: A Meta-Analysis Based on Case-Control Studies
    Jin-Bo Chen et al, 2018, Front. Physiol. CrossRef
  8. MiR-128 regulation of glucose metabolism and cell proliferation in triple-negative breast cancer
    M. Xiao et al, 2018, Br J Surg CrossRef
  9. LncRNA PVT1 regulates VEGFC through inhibiting miR-128 in bladder cancer cells
    Cui Yu et al, 2018, J Cell Physiol CrossRef
  10. A Role for De Novo Purine Metabolic Enzyme PAICS in Bladder Cancer Progression
    Balabhadrapatruni V.S.K. Chakravarthi et al, 2018, Neoplasia CrossRef
  11. MicroRNA-128 contributes to the progression of gastric carcinoma through GAREM-mediated MAPK signaling activation
    Lu Han et al, 2018, Biochemical and Biophysical Research Communications CrossRef
  12. The role of microRNAs in bladder cancer.
    Hideki Enokida et al, 2016, Investig Clin Urol CrossRef
  13. NAIF1 suppresses osteosarcoma progression and is regulated by miR-128.
    Daliang Kong et al, 2018, Cell Biochem Funct CrossRef
  14. Long non-coding RNA MEG3 prevents vascular endothelial cell senescence by impairing miR-128-dependent Girdin down-regulation
    Yong Lan et al, 2018, American Journal of Physiology-Cell Physiology CrossRef
  15. MiR-128/SOX7 alleviates myocardial ischemia injury by regulating IL-33/sST2 in acute myocardial infarction
    Jinhua Yang et al, 2018 CrossRef
  16. Impact of HVT Vaccination on Splenic miRNA Expression in Marek’s Disease Virus Infections
    Julie Hicks et al, 2019, Genes CrossRef
  17. Brain-derived neurotrophic factor promotes VEGF-C-dependent lymphangiogenesis by suppressing miR-624-3p in human chondrosarcoma cells
    Chih-Yang Lin et al, 2017, Cell Death Dis CrossRef
  18. Extra-virgin olive oil phenols block cell cycle progression and modulate chemotherapeutic toxicity in bladder cancer cells
    Andrea Coccia et al, 2016 CrossRef
  19. MicroRNA-128 promotes apoptosis in lung cancer by directly targeting NIMA-related kinase 2
    Dejian Zhao et al, 2017, Thorac Cancer CrossRef
  20. DUSP2 regulates extracellular vesicle-VEGF-C secretion and pancreatic cancer early dissemination
    Chu-An Wang et al, 2020, Journal of Extracellular Vesicles CrossRef
  21. MicroRNA-128-3p Alleviates Neuropathic Pain Through Targeting ZEB1
    Xianlong Zhang et al, 2020, Neuroscience Letters CrossRef
  22. MiR-128 reverses the gefitinib resistance of the lung cancer stem cells by inhibiting the c-met/PI3K/AKT pathway
    Jingjin Jiang et al, 2016, Oncotarget CrossRef
  23. null
    L. Lizha Mary et al, 2020 CrossRef
  24. The Roles of Non-Coding RNAs in Tumor-Associated Lymphangiogenesis
    Khairunnisa’ Md Yusof et al, 2020, Cancers CrossRef
  25. MicroRNAs and target molecules in bladder cancer
    Payam Kheirmand Parizi et al, 2020, Med Oncol CrossRef
  26. c‐Myc promotes lymphatic metastasis of pancreatic neuroendocrine tumor through VEGFC upregulation
    Tsung‐Ming Chang et al, 2020, Cancer Sci CrossRef
  27. MiRNA-128-3p Restrains Malignant Melanoma Cell Malignancy by Targeting NTRK3
    Xinxin Zhou et al, 2021, Front. Oncol. CrossRef
  28. Lymphatic metastasis of bladder cancer: Molecular mechanisms, diagnosis and targeted therapy
    Sen Liu et al, 2021, Cancer Letters CrossRef
  29. MicroRNAs: Their Role in Metastasis, Angiogenesis, and the Potential for Biomarker Utility in Bladder Carcinomas
    Raneem Y. Hammouz et al, 2021, Cancers CrossRef
  30. Biological Roles and Clinical Significance of Exosome-Derived Noncoding RNAs in Bladder Cancer.
    Yonghua Tong et al, 2021, Front Oncol CrossRef
  31. HIV-infection and cocaine use regulate semen extracellular vesicles proteome and miRNAome in a manner that mediates strategic monocyte haptotaxis governed by miR-128 network
    Hussein Kaddour et al, 2022, Cell. Mol. Life Sci. CrossRef
  32. MicroRNA-128 inhibits the development of human colon cancer by targeting Rho family GTPase 3
    Yunli Chang et al, 2022, Journal of Taibah University for Science CrossRef
  33. The role of miRNA-128 in the development and progression of gastrointestinal and urogenital cancer
    Ghaidaa Raheem Lateef Al-Awsi et al, 2022, Future Oncology CrossRef
  34. Deciphering the Role of microRNA Mediated Regulation of Coronin 1C in Glioblastoma Development and Metastasis
    Denis Mustafov et al, 2023, ncRNA CrossRef
  35. HIV-Infection and Cocaine Use Regulate Semen Extracellular Vesicles Proteome and miRNAome in a Manner that Mediates Strategic Monocyte Haptotaxis Governed by mIR-128 Network
    Hussein Kaddour et al, 2021, SSRN Journal CrossRef
  36. An Overview of Angiogenesis in Bladder Cancer
    Ghada Elayat et al, 2023, Curr Oncol Rep CrossRef
  37. miRNAs in the Box: Potential Diagnostic Role for Extracellular Vesicle-Packaged miRNA-27a and miRNA-128 in Breast Cancer
    Cinzia Giordano et al, 2023, IJMS CrossRef
  38. MicroRNA-128 acts as a suppressor in the progression of gastrointestinal stromal tumor by targeting B-lymphoma Mo-MLV insertion region 1
    Jinbao Wu et al, 2023, Clin Transl Oncol CrossRef
  39. The Use of Pro-Angiogenic and/or Pro-Hypoxic miRNAs as Tools to Monitor Patients with Diffuse Gliomas
    Guénaëlle Levallet et al, 2022, IJMS CrossRef