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- Blixt, Maria, et al.
(författare)
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MYCN induces cell-specific tumorigenic growth in RB1-proficient human retinal organoid and chicken retina models of retinoblastoma
- 2022
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Ingår i: Oncogenesis. - : Springer Science and Business Media LLC. - 2157-9024. ; 11:1, s. 34-
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Tidskriftsartikel (refereegranskat)abstract
- Retinoblastoma is a rare, intraocular paediatric cancer that originates in the neural retina and is most frequently caused by bi-allelic loss of RB1 gene function. Other oncogenic mutations, such as amplification and increased expression of the MYCN gene, have been found even with proficient RB1 function. In this study, we investigated whether MYCN over-expression can drive carcinogenesis independently of RB1 loss-of-function mutations. The aim was to elucidate the events that result in carcinogenesis and identify the cancer cell-of-origin. We used the chicken retina, a well-established model for studying retinal neurogenesis, and established human embryonic stem cell-derived retinal organoids as model systems. We over-expressed MYCN by electroporation of piggyBac genome-integrating expression vectors. We found that over-expression of MYCN induced tumorigenic growth with high frequency in RB1-proficient chicken retinas and human organoids. In both systems, the tumorigenic cells expressed markers for undifferentiated cone photoreceptor/horizontal cell progenitors. The over-expression resulted in metastatic retinoblastoma within 7–9 weeks in chicken. Cells expressing MYCN could be grown in vitro and, when orthotopically injected, formed tumours that infiltrated the sclera and optic nerve and expressed markers for cone progenitors. Investigation of the tumour cell phenotype determined that the potential for neoplastic growth was embryonic stage-dependent and featured a cell-specific resistance to apoptosis in the cone/horizontal cell lineage, but not in ganglion or amacrine cells. We conclude that MYCN over-expression is sufficient to drive tumorigenesis and that a cell-specific resistance to apoptosis in the cone/horizontal cell lineage mediates the cancer phenotype.
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| 2. |
- Hellsand, Minas, 1989-
(författare)
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Models of Retinal Development and Disease
- 2022
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- For a model of a human disease to be valid and useful, it is important that key genotypic and phenotypic traits are shared between model system and human. The work in this thesis has been focused on generating new and characterizing spontaneous models of three genetic disorders affecting the retina: retinoblastoma, a childhood cancer with its origin in the fetal retina, Stargardt disease, a juvenile form of macular degeneration, and Bardet-Biedl syndrome, a pleiotropic ciliopathy featuring retinal degeneration.In Paper I, we generated two novel models of MYCN-driven retinoblastoma, in developing chicken retinas and in human retinal organoids, in order to identify its cell of origin and to determine whether MYCN is sufficient in driving tumorigenesis. We found that MYCN was indeed sufficient and that the expression was uniquely tolerated by the cone and horizontal cell progenitor which survived and proliferated anachronistically. The results from our models are in alignment with observations that MYCN-driven retinoblastoma results in a more anaplastic and aggressive form of the cancer and we propose that the fate-restricted progenitor for cones and horizontal cells is its cell of origin.In Paper II, we analyzed the effects of a novel, spontaneous model of ABCA4-mediated Stargardt disease in Labrador retrievers and found that dogs homozygous for the mutation exhibited visual impairment and photoreceptor degeneration. Cone photoreceptors were scarce and the retinal pigment epithelium autofluorescent, indicative of lipofuscin accumulation, a hallmark of Stargardt disease. The phenotype and its etiology in this model are akin to human Stargardt disease.In Paper III, we investigated whether a spontaneous mutation in the TTC8 gene resulted in syndromic Bardet-Biedl syndrome in golden retrievers. We found that, in addition to progressive photoreceptor degeneration and visual impairment, the TTC8 mutation resulted in pleiotropic clinical signs of Bardet-Biedl syndrome with great inter-individual variation, congruent with Bardet-Biedl syndrome in humans.We find that the models described in this thesis are representative of the corresponding genetic disorders in human and that they could be of value for hypothesis generation (in chicken), experimental gene therapy (in dog), and as a human system to test pharmacological interventions (retinal organoids).
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