Expanding the phenotype of THRB: a range of macular dystrophies as the major clinical manifestations in patients with a dominant splicing variant

Fernández-Suárez, Elena; González-del Pozo, María; García-Núñez, Alejandro; Méndez-Vidal, Cristina; Martín-Sánchez, Marta; Mejías-Carrasco, José Manuel; Ramos-Jiménez, Manuel; Morillo-Sánchez, María José; Rodríguez-de la Rúa, Enrique; Borrego, Salud; Antiñolo, Guillermo

doi:10.3389/fcell.2023.1197744

Cited by 3 publications

References 57 publications

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Cone photoreceptor differentiation regulated by thyroid hormone transporter MCT8 in the retinal pigment epithelium

Liu,

Ng,

Liu

et al. 2024

Proc. Natl. Acad. Sci. U.S.A.

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The key role of a thyroid hormone receptor in determining the maturation and diversity of cone photoreceptors reflects a profound influence of endocrine signaling on the cells that mediate color vision. However, the route by which hormone reaches cones remains enigmatic as cones reside in the retinal photoreceptor layer, shielded by the blood–retina barrier. Using genetic approaches, we report that cone differentiation is regulated by a membrane transporter for thyroid hormone, MCT8 (SLC16A2), in the retinal pigment epithelium (RPE), which forms the outer blood–retina barrier. Mct8 -deficient mice display hypothyroid-like cone gene expression and compromised electroretinogram responses. Mammalian color vision is typically facilitated by cone types that detect medium-long (M) and short (S) wavelengths of light but Mct8 -deficient mice have a partial shift of M to S cone identity, resembling the phenotype of thyroid hormone receptor deficiency. RPE-specific ablation of Mct8 results in similar shifts in cone identity and hypothyroid-like gene expression whereas reexpression of MCT8 in the RPE in Mct8 -deficient mice partly restores M cone identity, consistent with paracrine-like control of thyroid hormone signaling by the RPE. Our findings suggest that in addition to transport of essential solutes and homeostatic support for photoreceptors, the RPE regulates the thyroid hormone signal that promotes cone-mediated vision.

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Cone photoreceptor differentiation regulated by thyroid hormone transporter MCT8 in the retinal pigment epithelium

Liu,

Ng,

Liu

et al. 2024

Proc. Natl. Acad. Sci. U.S.A.

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Therapeutic strategies for aberrant splicing in cancer and genetic disorders

Shi,

Tang,

Xiang

2024

Clinical Genetics

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Accurate pre‐mRNA splicing is essential for proper protein translation; however, aberrant splicing is commonly observed in the context of cancer and genetic disorders. Notably, in genetic diseases, these splicing abnormalities often play a pivotal role. Substantial challenges persist in accurately identifying and classifying disease‐induced aberrant splicing, as well as in development of targeted therapeutic strategies. In this review, we examine prevalent forms of aberrant splicing and explore potential therapeutic approaches aimed at addressing these splicing‐related diseases. This summary contributes to a deeper understanding of the complexities about aberrant splicing and provide a foundation for the development of effective therapeutic interventions in the field of genetic disorders and cancer.

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Simultaneous profiling of full-length RNA transcripts and chromatin accessibility within single cells of human retinal organoids

Hu,

Zhang,

et al. 2023

Preprint

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Single-cell multi-omics sequencing can integrate transcriptome and epigenome to analyze the complex mechanisms underlying neuron development and regeneration, but most current methods are based on second-generation short-read sequencing, which has low efficiency in detecting RNA structural heterogeneity. Long-length sequencing can analyze RNA structures, but the throughput and the number of transcripts detected at the single-cell level are very low, and single-cell level epigenome profiling has not been accomplished either. Therefore, there is currently a lack of an effective method that can integrate RNA splicing and epigenetic modification to analyze the molecular mechanism of neural development. This study developed a single-cell multi-omics assay based on short-read sequencing for the simultaneous detection of single-cell full-length RNA isoforms and DNA accessibility. The accuracy of its resolution in RNA transcript structure can reach 94.5%, and the sensitivity of detecting single-cell gene expression is twice that of third-generation sequencing. And it can detect over 10,000 single nuclei at one run, enabling the effective integrated analysis of single-cell RNA isoforms and DNA accessibility at high throughput. We used this method to construct a multidimensional cell atlas of human retinal organoids, and found that gene expression and differential choices of isoforms of multiple fate-determining factors were significantly associated with chromatin accessibility. This method provides a new technical method for dissecting the multidimensional molecular mechanism of fate determination in neural cell development and regeneration.

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Expanding the phenotype of THRB: a range of macular dystrophies as the major clinical manifestations in patients with a dominant splicing variant

Cited by 3 publications

References 57 publications

Cone photoreceptor differentiation regulated by thyroid hormone transporter MCT8 in the retinal pigment epithelium

Cone photoreceptor differentiation regulated by thyroid hormone transporter MCT8 in the retinal pigment epithelium

Therapeutic strategies for aberrant splicing in cancer and genetic disorders

Simultaneous profiling of full-length RNA transcripts and chromatin accessibility within single cells of human retinal organoids

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