Cited by CrossRef (32)
- Hossein Chavoshi, Mahdi Eskandarian Boroujeni, Mohammad-Amin Abdollahifar, Abdollah Amini, Ava Modirzadeh Tehrani, Meysam Hassani Moghaddam, Mohsen Norozian, Reza Mastery Farahani, Abbas Aliaghaei. From dysregulated microRNAs to structural alterations in the striatal region of METH-injected rats. Journal of Chemical Neuroanatomy 2020;109:101854
- Li-na Lin, Qing-mei Zhang, Ying-ying Ge, Bin Luo, Xiao-xun Xie. A Review of miR-326 and Female Related Diseases. Acta Histochem. Cytochem. 2021;54:79
- Izadpanah Gheitasi, Ghaidafeh Akbari, Feryal Savari. Physiological and cellular mechanisms of ischemic preconditioning microRNAs-mediated in underlying of ischemia/reperfusion injury in different organs. Mol Cell Biochem 2024
- Ying Zhou, Zhou‐Fan Wang, Wei Li, Hui Hong, Juan Chen, Yi Tian, Zhao‐Yun Liu. Retracted: Protective effects of microRNA‐330 on amyloid β‐protein production, oxidative stress, and mitochondrial dysfunction in Alzheimer's disease by targeting VAV1 via the MAPK signaling pathway. J of Cellular Biochemistry 2018;119:5437
- Sylwia Pietrasik, Angela Dziedzic, Elzbieta Miller, Michal Starosta, Joanna Saluk-Bijak. Circulating miRNAs as Potential Biomarkers Distinguishing Relapsing–Remitting from Secondary Progressive Multiple Sclerosis. A Review. IJMS 2021;22:11887
- Ajmal Nassar, Triveni Kodi, Sairaj Satarker, Prasada Chowdari Gurram, S.M. Fayaz, Madhavan Nampoothiri. Astrocytic transcription factors REST, YY1, and putative microRNAs in Parkinson’s disease and advanced therapeutic strategies. Gene 2024;892:147898
- Yizhi Zhang, Weiwei Xu, Shanji Nan, Meiji Chang, Jia Fan. MicroRNA-326 Inhibits Apoptosis and Promotes Proliferation of Dopaminergic Neurons in Parkinson’s Disease Through Suppression of KLK7-Mediated MAPK Signaling Pathway. J Mol Neurosci 2019;69:197
- Indrani Datta, Aishwarya Raj, Alka Kaushal. The Biology of Glial Cells: Recent Advances. 2019.
- Ying Bai, Hui Ren, Liang Bian, You Zhou, Xinping Wang, Zhongli Xiong, Ziqi Liu, Bing Han, Honghong Yao. Regulation of Glial Function by Noncoding RNA in Central Nervous System Disease. Neurosci. Bull. 2023;39:440
- Shahidee Zainal Abidin, Jia-Wen Leong, Marzieh Mahmoudi, Norshariza Nordin, Syahril Abdullah, Pike-See Cheah, King-Hwa Ling. In Silico Prediction and Validation of Gfap as an miR-3099 Target in Mouse Brain. Neurosci. Bull. 2017;33:373
- Md Sadique Hussain, Ehssan Moglad, Muhammad Afzal, Shilpa Sharma, Gaurav Gupta, G. V. Sivaprasad, Mahamedha Deorari, Waleed Hassan Almalki, Imran Kazmi, Sami I. Alzarea, Moyad Shahwan, Kumud Pant, Haider Ali, Sachin Kumar Singh, Kamal Dua, Vetriselvan Subramaniyan. Autophagy‐associated non‐coding RNAs: Unraveling their impact on Parkinson's disease pathogenesis. CNS Neurosci Ther 2024;30
- Ying Wang, Zhaofei Yang, Weidong Le. Tiny But Mighty: Promising Roles of MicroRNAs in the Diagnosis and Treatment of Parkinson’s Disease. Neurosci. Bull. 2017;33:543
- Tao Shi, Xiaoru Yan, Liying Qiao, Baojun Li, Lifen Cheng, Yangyang Pan, Jiongjie Jing, Ningxian Cao, Wenzhong Liu. MiR‐330‐5p negatively regulates ovine preadipocyte differentiation by targeting branched‐chain aminotransferase 2. Animal Science Journal 2018;89:858
- Golamreza Jadideslam, Khalil Ansarin, Ebrahim Sakhinia, Shahriar Alipour, Farhad Pouremamali, Alireza Khabbazi. The MicroRNA‐326: Autoimmune diseases, diagnostic biomarker, and therapeutic target. Journal Cellular Physiology 2018;233:9209
- Zhenwang Ma, Hao Liang, Bingcheng Hu, Shaojie Cai, Dong Yan. Autophagy‑regulating miRNAs: Novel therapeutic targets for Parkinson's disease (Review). Int J Mol Med 2023;51
- Chongyang Tang, Haiyang Wang, Hongmei Wu, Shi Yan, Zhibin Han, Zhenfeng Jiang, Meng Na, Mian Guo, Dunyue Lu, Zhiguo Lin. The MicroRNA Expression Profiles of Human Temporal Lobe Epilepsy in HS ILAE Type 1. Cell Mol Neurobiol 2019;39:461
- Luiz Fernando A. T. Pedrão, Pamela O. S. Medeiros, Estela C. Leandro, Barbara Falquetto. Parkinson’s disease models and death signaling: what do we know until now?. Front. Neuroanat. 2024;18
- Michael Brenner, Albee Messing. Regulation of GFAP Expression. ASN Neuro 2021;13:175909142098120
- Osama A. Mohammed, Mohammed S. Elballal, Ahmed A. El-Husseiny, Emad Gamil Khidr, Manar Mohammed El Tabaa, Ola Elazazy, Mai A. Abd-Elmawla, Ahmed E. Elesawy, Henwa M. Ibrahim, Ahmed I. Abulsoud, Walaa A. El-Dakroury, Sherif S. Abdel Mageed, Mahmoud A. Elrebehy, Yousra Nomier, Mustafa Ahmed Abdel-Reheim, Hussein M. El-Husseiny, Abdulla M.A. Mahmoud, Sameh Saber, Ahmed S. Doghish. Unraveling the role of miRNAs in the diagnosis, progression, and therapeutic intervention of Parkinson’s disease. Pathology - Research and Practice 2024;253:155023
- Jin Han, Yi Cui, Bai Xu, Weiwei Xue, Sumei Liu, Jianwu Dai. Life Science in Space: Experiments on Board the SJ-10 Recoverable Satellite. 2024.
- Junyan Wang, Haixia Zhang, Chunyan Wang, Lihong Fu, Qian Wang, Shujin Li, Bin Cong. Forensic age estimation from human blood using age-related microRNAs and circular RNAs markers. Front. Genet. 2022;13
- Huiru Jian, Fei Wang, Ying Wang, Liping Dou. Clinical Significance of MicroRNA-330-3p in Plasma Level for Acute Cerebral Infarction. Cerebrovasc Dis 2024;53:411
- Monica Bame, Melvin G. McInnis, K. Sue O'Shea. MicroRNA Alterations in Induced Pluripotent Stem Cell-Derived Neurons from Bipolar Disorder Patients: Pathways Involved in Neuronal Differentiation, Axon Guidance, and Plasticity. Stem Cells and Development 2020;29:1145
- Jiaoying Jia, Ming Wang, Min Liu, Zhigang Tan, Yan Cui, Mengqiang Yu. MiR-421 Binds to PINK1 and Enhances Neural Stem Cell Self-Renewal via HDAC3-Dependent FOXO3 Activation. Front. Cell Dev. Biol. 2021;9
- Shahidee Zainal Abidin, Sze-Zheng Fam, Chan-Eng Chong, Syahril Abdullah, Pike-See Cheah, Norshariza Nordin, King-Hwa Ling. miR-3099 promotes neurogenesis and inhibits astrogliogenesis during murine neural development. Gene 2019;697:201
- Serena Silvestro, Placido Bramanti, Emanuela Mazzon. Role of miRNAs in Alzheimer’s Disease and Possible Fields of Application. IJMS 2019;20:3979
- Mahdi Mohseni, Ghazal Behzad, Arezoo Farhadi, Javad Behroozi, Hamraz Mohseni, Behnaz Valipour. MicroRNAs regulating autophagy: opportunities in treating neurodegenerative diseases. Front. Neurosci. 2024;18
- Hong-li Li, Gai-mei Hao, Shi-jie Tang, Hui-hui Sun, Yong-sheng Fang, Xinxin Pang, Hanying Liu, Qingxuan Ji, Xi-rui Wang, Jing-yun Tian, Kun-xiu Jiang, Xing-zhuo Song, Rui-xin Zhu, Jing Han, Wei Wang. HuoXue JieDu formula improves diabetic retinopathy in rats by regulating microRNAs. Journal of Ethnopharmacology 2021;268:113616
- Yang Bai, Xing Su, Lianhua Piao, Zheng Jin, Rihua Jin. Involvement of Astrocytes and microRNA Dysregulation in Neurodegenerative Diseases: From Pathogenesis to Therapeutic Potential. Front. Mol. Neurosci. 2021;14
- Yi Cui, Jin Han, Zhifeng Xiao, Yiduo Qi, Yannan Zhao, Bing Chen, Yongxiang Fang, Sumei Liu, Xianming Wu, Jianwu Dai. Systematic Analysis of mRNA and miRNA Expression of 3D-Cultured Neural Stem Cells (NSCs) in Spaceflight. Front. Cell. Neurosci. 2018;11
- Xiao‐Hui Zhao, Yong‐Bing Wang, Juan Yang, Hui‐Qin Liu, Ling‐Ling Wang. MicroRNA‐326 suppresses iNOS expression and promotes autophagy of dopaminergic neurons through the JNK signaling by targeting XBP1 in a mouse model of Parkinson's disease. J of Cellular Biochemistry 2019;120:14995
- Eun-Hye Joe, Dong-Joo Choi, Jiawei An, Jin-Hwa Eun, Ilo Jou, Sangmyun Park. Astrocytes, Microglia, and Parkinson’s Disease. Exp Neurobiol 2018;27:77