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Cited by in CrossRef
For: Gong B, Liu WW, Nie WJ, Li DF, Xie ZJ, Liu C, Liu YH, Mei P, Li ZJ. MiR-21/RASA1 axis affects malignancy of colon cancer cells via RAS pathways. World J Gastroenterol 2015; 21(5): 1488-1497 [PMID: 25663768 DOI: 10.3748/wjg.v21.i5.1488]
URL: https://www.wjgnet.com/1007-9327/full/v21/i5/1488.htm
Number Citing Articles
1
Li Jing, Hong Li, Tao Zhang, Jianxin Lu, Lianjin Zhong. MicroRNA‑4530 suppresses cell proliferation and induces apoptosis by targeting RASA1 in human umbilical vein endothelial cellsMolecular Medicine Reports 2019;  doi: 10.3892/mmr.2019.10000
2
Atena Soleimani, Farzad Rahmani, Nikoo Saeedi, Rana Ghaffarian, Majid Khazaei, Gordon A. Ferns, Amir Avan, Seyed Mahdi Hassanian. The potential role of regulatory microRNAs of RAS/MAPK signaling pathway in the pathogenesis of colorectal cancerJournal of Cellular Biochemistry 2019; 120(12): 19245 doi: 10.1002/jcb.29268
3
Ningning Ji, Yu Wang, Xinyan Gong, Shimao Ni, Hui Zhang. CircMTO1 inhibits ox-LDL-stimulated vascular smooth muscle cell proliferation and migration via regulating the miR-182-5p/RASA1 axisMolecular Medicine 2021; 27(1) doi: 10.1186/s10020-021-00330-2
4
Bing Shui, Gaspare La Rocca, Andrea Ventura, Kevin M. Haigis. Interplay between K-RAS and miRNAsTrends in Cancer 2022; 8(5): 384 doi: 10.1016/j.trecan.2022.01.002
5
Lingyun Zhang, Xin Zhan, Dingding Yan, Zhihua Wang. Circulating MicroRNA-21 Is Involved in Lymph Node Metastasis in Cervical Cancer by Targeting RASA1International Journal of Gynecologic Cancer 2016; 26(5): 810 doi: 10.1097/IGC.0000000000000694
6
Yong Wang, Shiying Zhou, Kefeng Fan, Chen Jiang. MicroRNA‑21 and its impact on signaling pathways in cervical cancer (Review)Oncology Letters 2019;  doi: 10.3892/ol.2019.10002
7
Lei Wei, Wenfeng Gu, Liwen Hu, Kang Wang, Hairong Huang, Yi Shen. Regulation of IncRNA ZNF667-AS1 in Proliferation and Invasion of Esophageal Squamous Cell Carcinoma Cells via Mediating ceRNA NetworkCritical Reviews in Eukaryotic Gene Expression 2022; 32(6): 57 doi: 10.1615/CritRevEukaryotGeneExpr.2022042267
8
Wittaya Suwakulsiri, Alin Rai, Rong Xu, Maoshan Chen, David W. Greening, Richard J. Simpson. Proteomic profiling reveals key cancer progression modulators in shed microvesicles released from isogenic human primary and metastatic colorectal cancer cell linesBiochimica et Biophysica Acta (BBA) - Proteins and Proteomics 2019; 1867(12): 140171 doi: 10.1016/j.bbapap.2018.11.008
9
Bernice Monchusi, Mandeep Kaur. microRNAs targeting cellular cholesterol: implications for combating anticancer drug resistanceGenes & Cancer 2020; 11(1-2): 20 doi: 10.18632/genesandcancer.202
10
Feng Li, Xin Chu, Lingyun Dai, Juan Wang, Jinxing Liu, Junliang Shang. Effects of Multi-Omics Characteristics on Identification of Driver Genes Using Machine Learning AlgorithmsGenes 2022; 13(5): 716 doi: 10.3390/genes13050716
11
Reza Nedaeinia, Amir Avan, Mehdi Ahmadian, Sasan Nedaee Nia, Maryam Ranjbar, Mohammadreza Sharifi, Mohammad Goli, Ahmad Piroozmand, Esmail Nourmohammadi, Mostafa Manian, Gordon A. Ferns, Majid Ghayour‐Mobarhan, Rasoul Salehi. Current Status and Perspectives Regarding LNA‐Anti‐miR Oligonucleotides and microRNA miR‐21 Inhibitors as a Potential Therapeutic Option in Treatment of Colorectal CancerJournal of Cellular Biochemistry 2017; 118(12): 4129 doi: 10.1002/jcb.26047
12
Sasa Pockar, Mojca Globocnik Petrovic, Borut Peterlin, Natasa Vidovic Valentincic. MiRNA as biomarker for uveitis - A systematic review of the literatureGene 2019; 696: 162 doi: 10.1016/j.gene.2019.02.004
13
R Nedaeinia, M Sharifi, A Avan, M Kazemi, L Rafiee, M Ghayour-Mobarhan, R Salehi. Locked nucleic acid anti-miR-21 inhibits cell growth and invasive behaviors of a colorectal adenocarcinoma cell line: LNA-anti-miR as a novel approachCancer Gene Therapy 2016; 23(8): 246 doi: 10.1038/cgt.2016.25
14
Jasmin B. Post, Nizar Hami, Alexander E.E. Mertens, Suraya Elfrink, Johannes L. Bos, Hugo J.G. Snippert. CRISPR-induced RASGAP deficiencies in colorectal cancer organoids reveal that only loss of NF1 promotes resistance to EGFR inhibitionOncotarget 2019; 10(14): 1440 doi: 10.18632/oncotarget.26677
15
Pedro Antônio Bronhara Pimentel, Antonio Giuliano, Paweł Marek Bęczkowski, Rodrigo Dos Santos Horta. Molecular Profile of Canine Hemangiosarcoma and Potential Novel Therapeutic TargetsVeterinary Sciences 2023; 10(6): 387 doi: 10.3390/vetsci10060387
16
Arianna Bellazzo, Licio Collavin. Cutting the Brakes on Ras—Cytoplasmic GAPs as Targets of Inactivation in CancerCancers 2020; 12(10): 3066 doi: 10.3390/cancers12103066
17
Kun Dong, Ying Hou, Na Zhang, Bide Duan, Airong Ma, Zhiwei Zhang. Down-regulated placental miR-21 contributes to preeclampsia through targeting RASA1Hypertension in Pregnancy 2021; 40(3): 236 doi: 10.1080/10641955.2021.1974031
18
Adrián Bazaga, Dan Leggate, Hendrik Weisser. Genome-wide investigation of gene-cancer associations for the prediction of novel therapeutic targets in oncologyScientific Reports 2020; 10(1) doi: 10.1038/s41598-020-67846-1
19
Oliver A. Kent, Joshua T. Mendell, Robert Rottapel. Transcriptional Regulation of miR-31 by Oncogenic KRAS Mediates Metastatic Phenotypes by Repressing RASA1Molecular Cancer Research 2016; 14(3): 267 doi: 10.1158/1541-7786.MCR-15-0456
20
Nato Teteloshvili, Katarzyna Smigielska‐Czepiel, Ye Yuan, Annika Seitz, Debora de Jong, Bea Rutgers, Pytrick Jellema, Roelof Jan van der Lei, Izabella Slezak‐Prochazka, Elisabeth Brouwer, Annemieke M.H. Boots, Bart‐Jan Kroesen, Anke van den Berg, Joost Kluiver. Argonaute 2 immunoprecipitation revealed large tumor suppressor kinase 1 as a novel proapoptotic target of miR‐21 in T cellsThe FEBS Journal 2017; 284(4): 555 doi: 10.1111/febs.14011
21
Hong Chen, Yiqiong Yang, Jing Wang, Duo Shen, Jiyi Zhao, Qian Yu. miR-130b-5p promotes proliferation, migration and invasion of gastric cancer cells via targeting RASAL1Oncology Letters 2018;  doi: 10.3892/ol.2018.8174
22
R Nedaeinia, M Manian, M H Jazayeri, M Ranjbar, R Salehi, M Sharifi, F Mohaghegh, M Goli, S H Jahednia, A Avan, M Ghayour-Mobarhan. Circulating exosomes and exosomal microRNAs as biomarkers in gastrointestinal cancerCancer Gene Therapy 2017; 24(2): 48 doi: 10.1038/cgt.2016.77
23
Li-Zhi Li, Zhuang-Zhuang Wu, Zhi Lv. The Clinical Significance of miR-21 in Guiding Chemotherapy for Patients with OsteosarcomaPharmacogenomics and Personalized Medicine 2021; : 1247 doi: 10.2147/PGPM.S321637
24
Xiao Liang, Miaoyang Hu, Wei Yuan, Yang Liu, Jingjin Li, Chuan Bai, Zuyi Yuan. MicroRNA-4487 regulates vascular smooth muscle cell proliferation, migration and apoptosis by targeting RAS p21 protein activator 1Pathology - Research and Practice 2022; 234: 153903 doi: 10.1016/j.prp.2022.153903
25
Bo-Shih Huang, Chih-Ta Chen, Chao-Chi Yeh, Ting-Yu Fan, Fang-Yun Chen, Jyh-Ming Liou, Chia-Tung Shun, Ming-Shiang Wu, Lu-Ping Chow, Nandakumar Natarajan. miR-21 Targets ASPP2 to Inhibit Apoptosis via CHOP-Mediated Signaling in Helicobacter pylori-Infected Gastric Cancer CellsJournal of Oncology 2023; 2023: 1 doi: 10.1155/2023/6675265
26
Reza Nedaeinia, Mohammadreza Sharifi, Amir Avan, Mohammad Kazemi, Abdolreza Nabinejad, Gordon A Ferns, Majid Ghayour-Mobarhan, Rasoul Salehi. Inhibition of microRNA-21 via locked nucleic acid-anti-miR suppressed metastatic features of colorectal cancer cells through modulation of programmed cell death 4Tumor Biology 2017; 39(3): 101042831769226 doi: 10.1177/1010428317692261
27
Jing Huang, Junmei Hao, Jintao Nie, Ruihua Qian, Haiying Li, Jiayuan Zhao, Yanan Wang. Possible Mechanism of Dysphania ambrosioides (L.) Mosyakin & Clemants Seed Extract Suppresses the Migration and Invasion of Human Hepatocellular Carcinoma Cells SMMC‐7721Chemistry & Biodiversity 2023; 20(3) doi: 10.1002/cbdv.202200768
28
Sima Ataollahi Eshkoor, Nooshin Ghodsian, Mehrnoosh Akhtari-Zavare. MicroRNAs influence and longevityEgyptian Journal of Medical Human Genetics 2022; 23(1) doi: 10.1186/s43042-022-00316-7
29
Juan-Fei Peng, Yan-Yan Zhuang, Feng-Ting Huang, Shi-Neng Zhang. Noncoding RNAs and pancreatic cancerWorld Journal of Gastroenterology 2016; 22(2): 801-814 doi: 10.3748/wjg.v22.i2.801
30
Ashutosh Singh, Ashutosh Kumar Singh, Rajanish Giri, Dhruv Kumar, Rohit Sharma, Martin Valis, Kamil Kuca, Neha Garg. The Role of microRNA-21 in the Onset and Progression of CancerFuture Medicinal Chemistry 2021; 13(21): 1885 doi: 10.4155/fmc-2021-0096
31
Jingmei Lin, Chia-Chen Chuang, Li Zuo. Potential roles of microRNAs and ROS in colorectal cancer: diagnostic biomarkers and therapeutic targetsOncotarget 2017; 8(10): 17328 doi: 10.18632/oncotarget.14461
32
Huan Xiao, Guan Wang, Min Zhao, Wen Shuai, Liang Ouyang, Qiu Sun. Ras superfamily GTPase activating proteins in cancer: Potential therapeutic targets?European Journal of Medicinal Chemistry 2023; 248: 115104 doi: 10.1016/j.ejmech.2023.115104
33
Lei Shi, Justin Middleton, Young-Jun Jeon, Peter Magee, Dario Veneziano, Alessandro Laganà, Hui-Sun Leong, Sudhakar Sahoo, Matteo Fassan, Richard Booton, Rajesh Shah, Philip A. J. Crosbie, Michela Garofalo. KRAS induces lung tumorigenesis through microRNAs modulationCell Death & Disease 2018; 9(2) doi: 10.1038/s41419-017-0243-9
34
Tara Akhtarkhavari, Ahmad Reza Bahrami, Maryam M. Matin. Downregulation of miR-21 as a promising strategy to overcome drug resistance in cancerEuropean Journal of Pharmacology 2022; 932: 175233 doi: 10.1016/j.ejphar.2022.175233
35
Xin Chu, Boxin Guan, Lingyun Dai, Jin-xing Liu, Feng Li, Junliang Shang. Network embedding framework for driver gene discovery by combining functional and structural informationBMC Genomics 2023; 24(1) doi: 10.1186/s12864-023-09515-x
36
Lubna Tariq, Azher Arafah, Nouroz Sehar, Aarif Ali, Andleeb Khan, Iyman Rasool, Shahzada Mudasir Rashid, Sheikh Bilal Ahmad, Saba Beigh, Tanveer Ul Hassan Dar, Muneeb U. Rehman. Novel insights on perils and promises of miRNA in understanding colon cancer metastasis and progressionMedical Oncology 2023; 40(10) doi: 10.1007/s12032-023-02099-2
37
Cai-xia An, Shou-pin Xie, Hai-long Li, Yong-hua Hu, Rong Niu, Lin-jie Zhang, Yan Jiang, Qiang Li, Yong-ning Zhou. Knockdown of Microtubule Associated Serine/threonine Kinase Like Expression Inhibits Gastric Cancer Cell Growth and Induces Apoptosis by Activation of ERK1/2 and Inactivation of NF-κB SignalingCurrent Medical Science 2021; 41(1): 108 doi: 10.1007/s11596-021-2325-2
38
Nina J. Chu, Robert A. Anders, Elana J. Fertig, Minwei Cao, Alexander C. Hopkins, Bridget P. Keenan, Aleksandra Popovic, Todd D. Armstrong, Elizabeth M. Jaffee, Jacquelyn W. Zimmerman. Inhibition of miR-21 Regulates Mutant KRAS Effector Pathways and Intercepts Pancreatic Ductal Adenocarcinoma DevelopmentCancer Prevention Research 2020; 13(7): 569 doi: 10.1158/1940-6207.CAPR-20-0053
39
Nahid Arghiani, Maryam M. Matin. miR-21: A Key Small Molecule with Great Effects in Combination Cancer TherapyNucleic Acid Therapeutics 2021; 31(4): 271 doi: 10.1089/nat.2020.0914
40
Alemu Gebrie, Khushboo Irshad. Disease progression role as well as the diagnostic and prognostic value of microRNA-21 in patients with cervical cancer: A systematic review and meta-analysisPLOS ONE 2022; 17(7): e0268480 doi: 10.1371/journal.pone.0268480
41
Yongxin Li, Mani Kikuchi, Xueyan Li, Qionghua Gao, Zijun Xiong, Yandong Ren, Ruoping Zhao, Bingyu Mao, Mariko Kondo, Naoki Irie, Wen Wang. Weighted gene co-expression network analysis reveals potential genes involved in early metamorphosis process in sea cucumber Apostichopus japonicusBiochemical and Biophysical Research Communications 2018; 495(1): 1395 doi: 10.1016/j.bbrc.2017.11.154
42
XIAOFANG LI, AIMIN ZANG, YOUCHAO JIA, JINCHAO ZHANG, WUFANG FAN, JIA FENG, MINDAN DUAN, LEI ZHANG, RAN HUO, JIN JIAO, XIAOWEI ZHU. Triptolide reduces proliferation and enhances apoptosis of human non-small cell lung cancer cells through PTEN by targeting miR-21Molecular Medicine Reports 2016; 13(3): 2763 doi: 10.3892/mmr.2016.4844