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Reconstruct Human Retinoblastoma In Vitro
In This Article
Summary
We describe a method for generating human retinoblastoma (RB) by introducing biallelic RB1 mutations in human embryonic stem cells (hESC). RB cell lines could also be successfully cultured using the isolated RB in a dish.
Abstract
Human RB is pediatric cancer, which is lethal if no treatment is administered. As RB originates from cone precursors, which is relatively rare in rodent models, meanwhile regarding the interspecies differences between humans and rodents, a disease model derived from humans is more beneficial for uncovering the mechanisms of human RB and seeking the targets of therapy. Herein, the protocol describes the generation of two gene-edited hESC lines with a biallelic RB1 point mutation (RB1Mut/Mut) and an RB1 knockout mutation (RB1-/-), respectively. During the process of retinal development, the formation of RB is observed. The RB cell lines are also established by segregating from the RB organoids. Altogether, by differentiating the gene-edited hESC lines into the retinal organoids using a 2D and 3D combined differentiation protocol, we have successfully reconstructed the human RB in a dish and identified its cone-precursor origin. It would provide a helpful disease model for observing the retinoblastoma genesis, proliferation, and growth as well as further developing novel therapeutic agents.
Introduction
Human retinoblastoma (RB) is a rare, fatal tumor derived from the retinal cone-precursors1,2,3, is the most common type of intraocular malignancy in childhood4. Homozygous inactivation of RB1 gene is the initiating genetic lesion in RB5. However, mice with RB1 mutations fail to form the retinal tumor2. Although the mouse tumors could be generated with the combination of Rb1 mutations and other genetic modifications, they still lack the features of human RB6
Protocol
This study is approved by the institutional Ethics Committee of Beijing Tongren Hospital, Capital Medical University. H9 hESCs are obtained from the WiCell Research Institute.
1. Generation of RB1 mutated hESC
- CRISPR/Cas9 targeting vector for the knockout (KO) of RB1.
- Design a pair of sgRNA. For the ablation of RB1, target the first exon of this gene. The forward primer sequence is CACCGCGGTGGCGGCCGTTTTTCGG, and the reverse primer sequence is.......
Representative Results
The procedure of RB generation is elucidated in the Figure 1, which combines the adherent and floating culture. It was possible to harvest the human RB from RB1-KO hESC, and obtain the RB cell line by isolating the RB organoids.
Here, the protocol provides the details of the differentiation in different stages (Figure 2). Hollow spheres are formed in the first 3 days which attach to the culture surface and then expand (
Discussion
Human retinoblastoma (RB) is caused by the inactivation of RB1 and the dysfunction of Rb protein. In this protocol, the RB1-KO hESC is the pivotal step for the generation of RB in a dish. While even with RB1-/- hESC, it is possible that there is no RB formation due to the methods of retinal organoid differentiation10. In this protocol, the transfer from adherent culture to floating culture is essential in the process of differentiation. The density of the cyst.......
Acknowledgements
We thank the 502 team for all the help. This work is partly supported by the Beijing Municipal Natural Science Foundation (Z200014) and National Key R&D Program of China (2017YFA0105300).
....Materials
| Name | Company | Catalog Number | Comments |
| 2-mercaptoethanol | Life Technologies | 21985-023 | |
| Anti-ARR3 | Sigma | HPA063129 | Antibody |
| Anti-CRX (M02) | Abnove | ABN-H00001406-M02 | Antibody |
| Anti-Ki67 | Abcam | ab15580 | Antibody |
| Anti-Syk (D3Z1E) | Cell Signaling Technology | 13198 | Antibody |
| BbsI | NEB | R3539S | Restriction enzymes |
| Dispase (1U/mL) | Stemcell Technologies | 7923 | |
| DMEM basic | Gibco | 10566-016 | |
| DMEM/F-12-GlutaMAX | Gibco | 10565-042 | |
| DMSO | Sigma | D2650 | |
| DPBS | Gibco | C141905005BT | |
| EDTA | Thermo | 15575020 | |
| Fetal Bovine Serum (FBS), Qualified for Human Embryonic Stem Cells | Biological Industry | 04-002-1A | |
| Glutamine | Gibco | 35050-061 | |
| Ham's F-12 Nutrient Mix (Hams F12) | Gibco | 11765-054 | |
| MEM Non-essential Amino Acid Solution (100X) | Sigma | M7145 | |
| Neurobasal Medium | Gibco | 21103-049 | |
| P3 Primary Cell 4D-Nucleofector X Kit S | Lonza | V4XP-3032 | Nucleofection kit |
| Pen Strep | Gibco | 15140-122 | |
| Puromycin | Gene Operation | ISY1130- 0025MG | |
| QIAquick PCR Purification Kit | QIAGEN | 28104 | |
| ncEpic-hiPSC/hESC culture medium | Nuwacell | RP01001 | ncEpic-hiPSC/hESC culture medium in 1.2.1 |
| Growth factor reduced basement membrane matrix | BD | 356231 | Matrigel in 1.2.1 |
| Cell dissociation enzyme | Gibco | 12563-011 | TrypLE Express in 1.2.8 |
| RNeasy Midi Kit | QIAGEN | 75144 | |
| RNeasy Mini Kit | QIAGEN | 74104 | |
| Supplement A | Life Technologies | 17502-048 | N-2 Supplement (100X), liquid, supplemet in medum I |
| Supplement B | Life Technologies | 17105-041 | B-27 Supplement (50X),liquid, supplemet in medum I,II,III |
| T4 Polynucleotide Kinase | Life Technologies | EK0032 | |
| Taurine | Sigma | T-8691-25G | |
| Y-27632 2HCl | Selleck | S1049 | |
| pX330-U6- Chimeric BB-CBh-hSpCas9-2A-Puro | Addgene | 42230 | |
| Nucleofector 4D | Lonza | ||
| RPMI | Sigma | R0883-500ML |
References
- Liu, H., et al. Human embryonic stem cell-derived organoid retinoblastoma reveals a cancerous origin. Proceedings of the National Academy of Sciences of the United States of America. 117 (52), 33628-33638 (2020).
- Singh, H. P., et al.
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