Single-Cell RNA Sequencing of Retina: New Looks for Gene Marker and Old Diseases

被引:8
作者
Ying, Peixi [1 ]
Huang, Chang [2 ,3 ,4 ,5 ,6 ]
Wang, Yan [7 ]
Guo, Xi [8 ]
Cao, Yuchen [1 ]
Zhang, Yuxi [1 ]
Fu, Sheng [9 ]
Chen, Lin [10 ]
Yi, Guoguo [11 ]
Fu, Min [12 ]
机构
[1] Southern Med Univ, Clin Sch 2, Guangzhou, Peoples R China
[2] Fudan Univ, Eye Inst, Eye & ENT Hosp, Shanghai, Peoples R China
[3] Fudan Univ, Dept Ophthalmol, Eye & ENT Hosp, Shanghai, Peoples R China
[4] Fudan Univ, NHC Key Lab Myopia, Shanghai, Peoples R China
[5] Chinese Acad Med Sci, Key Lab Myopia, Shanghai, Peoples R China
[6] Shanghai Key Lab Visual Impairment & Restorat, Shanghai, Peoples R China
[7] Shenzhen Univ, South China Hosp, Dept Ophthalmol, Hlth Sci Ctr, Shenzhen, Peoples R China
[8] Southern Med Univ, Med Coll Rehabil, Guangzhou, Peoples R China
[9] Univ South China, Hengyang, Peoples R China
[10] Southern Med Univ, Shenzhen Hosp, Dept Anesthesiol, Shenzhen, Peoples R China
[11] Sun Yat Sen Univ, Dept Ophthalmol, Affiliated Hosp 6, Guangzhou, Peoples R China
[12] Southern Med Univ, Zhujiang Hosp, Dept Ophthalmol, Guangzhou, Peoples R China
来源
FRONTIERS IN MOLECULAR BIOSCIENCES | 2021年 / 8卷
关键词
single-cell RNA sequencing; ScRNA-seq; retina; gene; retinal disease; HETEROGENEITY; SEQ; EXPRESSION; PATHWAYS; MODEL; IDENTIFICATION; PROGRESSION; ORGANOIDS; MICROGLIA; REVEALS;
D O I
10.3389/fmolb.2021.699906
中图分类号
Q5 [生物化学]; Q7 [分子生物学];
学科分类号
071010 ; 081704 ;
摘要
The retina is composed of 11 types of cells, including neurons, glial cells and vascular bed cells. It contains five types of neurons, each with specific physiological, morphological, and molecular definitions. Currently, single-cell RNA sequencing (sRNA-seq) is emerging as one of the most powerful tools to reveal the complexity of the retina. The continuous discovery of retina-related gene targets plays an important role in helping us understand the nature of diseases. The revelation of new cell subpopulations can focus the occurrence and development of diseases on specific biological activities of specific cells. In addition sRNA-seq performs high-throughput sequencing analysis of epigenetics, transcriptome and genome at the single-cell level, with the advantages of high-throughput and highresolution. In this paper, we systematically review the development history of sRNA-seq technology, and summarize the new subtypes of retinal cells and some specific gene markers discovered by this technology. The progress in the diagnosis of retinal related diseases is also discussed.
引用
收藏
页数:9
相关论文
共 65 条
[41]   Integrating microarray-based spatial transcriptomics and single-cell RNA-seq reveals tissue architecture in pancreatic ductal adenocarcinomas [J].
Moncada, Reuben ;
Barkley, Dalia ;
Wagner, Florian ;
Chiodin, Marta ;
Devlin, Joseph C. ;
Baron, Maayan ;
Hajdu, Cristina H. ;
Simeone, Diane M. ;
Yanai, Itai .
NATURE BIOTECHNOLOGY, 2020, 38 (03) :333-+
[42]  
Newman AM, 2012, GENOME MED, V4, DOI [10.1186/PREACCEPT-1418491035586234, 10.1186/gm315]
[43]   Microglial Function Is Distinct in Different Anatomical Locations during Retinal Homeostasis and Degeneration [J].
O'Koren, Emily G. ;
Yu, Chen ;
Klingeborn, Mikael ;
Wong, Alicia Y. W. ;
Prigge, Cameron L. ;
Mathew, Rose ;
Kalnitsky, Joan ;
Msallam, Rasha A. ;
Silvin, Aymeric ;
Kay, Jeremy N. ;
Rickman, Catherine Bowes ;
Arshavsky, Vadim Y. ;
Ginhoux, Florent ;
Merad, Miriam ;
Saban, Daniel R. .
IMMUNITY, 2019, 50 (03) :723-+
[44]   Expansion of the ISWI chromatin remodeler family with new active complexes [J].
Oppikofer, Mariano ;
Bai, Tianyi ;
Gan, Yutian ;
Haley, Benjamin ;
Liu, Peter ;
Sandoval, Wendy ;
Ciferri, Claudio ;
Cochran, Andrea G. .
EMBO REPORTS, 2017, 18 (10) :1697-1706
[45]   Serum miR-122 levels correlate with diabetic retinopathy [J].
Pastukh, Nina ;
Meerson, Ari ;
Kalish, Dorina ;
Jabaly, Hanin ;
Blum, Arnon .
CLINICAL AND EXPERIMENTAL MEDICINE, 2019, 19 (02) :255-260
[46]   Cell-Type-Specific Complement Expression in the Healthy and Diseased Retina [J].
Pauly, Diana ;
Agarwal, Divyansh ;
Dana, Nicholas ;
Schaefer, Nicole ;
Biber, Josef ;
Wunderlich, Kirsten A. ;
Jabri, Yassin ;
Straub, Tobias ;
Zhang, Nancy R. ;
Gautam, Avneesh K. ;
Weber, Bernhard H. F. ;
Hauck, Stefanie M. ;
Kim, Mijin ;
Curcio, Christine A. ;
Stambolian, Dwight ;
Li, Mingyao ;
Grosche, Antje .
CELL REPORTS, 2019, 29 (09) :2835-+
[47]   Molecular Classification and Comparative Taxonomics of Foveal and Peripheral Cells in Primate Retina [J].
Peng, Yi-Rong ;
Shekhar, Karthik ;
Yan, Wenjun ;
Herrmann, Dustin ;
Sappington, Anna ;
Bryman, Gregory S. ;
van Zyl, Tave ;
Do, Michael Tri. H. ;
Regev, Aviv ;
Sanes, Joshua R. .
CELL, 2019, 176 (05) :1222-+
[48]   Single-cell RNA-sequencing: The future of genome biology is now [J].
Picelli, Simone .
RNA BIOLOGY, 2017, 14 (05) :637-650
[49]   Low-coverage single-cell mRNA sequencing reveals cellular heterogeneity and activated signaling pathways in developing cerebral cortex [J].
Pollen, Alex A. ;
Nowakowski, Tomasz J. ;
Shuga, Joe ;
Wang, Xiaohui ;
Leyrat, Anne A. ;
Lui, Jan H. ;
Li, Nianzhen ;
Szpankowski, Lukasz ;
Fowler, Brian ;
Chen, Peilin ;
Ramalingam, Naveen ;
Sun, Gang ;
Thu, Myo ;
Norris, Michael ;
Lebofsky, Ronald ;
Toppani, Dominique ;
Kemp, Darnell W., II ;
Wong, Michael ;
Clerkson, Barry ;
Jones, Brittnee N. ;
Wu, Shiquan ;
Knutsson, Lawrence ;
Alvarado, Beatriz ;
Wang, Jing ;
Weaver, Lesley S. ;
May, Andrew P. ;
Jones, Robert C. ;
Unger, Marc A. ;
Kriegstein, Arnold R. ;
West, Jay A. A. .
NATURE BIOTECHNOLOGY, 2014, 32 (10) :1053-+
[50]   Single-cell profiling of the developing mouse brain and spinal cord with split-pool barcoding [J].
Rosenberg, Alexander B. ;
Roco, Charles M. ;
Muscat, Richard A. ;
Kuchina, Anna ;
Sample, Paul ;
Yao, Zizhen ;
Graybuck, Lucas T. ;
Peeler, David J. ;
Mukherjee, Sumit ;
Chen, Wei ;
Pun, Suzie H. ;
Sellers, Drew L. ;
Tasic, Bosiljka ;
Seelig, Georg .
SCIENCE, 2018, 360 (6385) :176-+
1234567