The Musashi proteins direct post-transcriptional control of protein expression and alternate exon splicing in vertebrate photoreceptors

Matalkah, Fatimah; Jeong, Bohye; Sheridan, Macie; Horstick, Eric J.; Ramamurthy, Visvanathan; Stoilov, Peter

doi:10.1038/s42003-022-03990-w

Cited by 12 publications

(7 citation statements)

References 76 publications

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“…Consistent with these functional enrichments, a zebrafish mutant for srrm3 , showing a large mis-regulation of RetMICs, exhibited severe OS alteration, photoreceptor death and blindness (Ciampi et al, 2022 ). However, despite the strong phenotype of a global microexon mis-regulation, it should be noted that depletion of individual RetMICs in mice have not shown any evident visual phenotypes (Matalkah et al, 2022 ), likely as a result of compensatory effects and the high robustness of living systems to relatively subtle perturbations as those exerted by individual microexon deletions.…”

Section: As In Retinal Photoreceptorsmentioning

confidence: 99%

“…The patterns of AS in retina and photoreceptors are known to be in part driven by the direct action of an RNA-binding protein called Musashi-1 (MSI1) (Murphy et al, 2016 ; Ling et al, 2020 ; Matalkah et al, 2022 ). The Musashi family comprises two members, MSI1 and MSI2 , and it has been involved in stem cell renewal and negative regulation of cell differentiation.…”

Section: Assembling the Unique Srs Of Photoreceptorsmentioning

confidence: 99%

“…Moreover, MSI1 overexpression in neuroblastoma cells was shown to promote the inclusion of some of these photoreceptor-specific exons by binding to the downstream proximal introns. Msi1 and Msi2 have a distinct pattern of expression across retinal development, with Msi1 being highly expressed at birth until postnatal day 16, while both proteins show equal expression in adult photoreceptors (Matalkah et al, 2022 ). Indeed, both genes are functionally redundant in mature retina, as inducible double knockout mice have a strong visual impairment and mis-splicing of photoreceptor exons, while single-knockout mice have no alterations in photoreceptors (Matalkah et al, 2022 ).…”

Section: Assembling the Unique Srs Of Photoreceptorsmentioning

confidence: 99%

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Unique transcriptomes of sensory and non-sensory neurons: insights from Splicing Regulatory States

Ciampi,

Serrano,

Irimia

2024

Mol Syst Biol

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Alternative Splicing (AS) programs serve as instructive signals of cell type specificity, particularly within the brain, which comprises dozens of molecularly and functionally distinct cell types. Among them, retinal photoreceptors stand out due to their unique transcriptome, making them a particularly well-suited system for studying how AS shapes cell type-specific molecular functions. Here, we use the Splicing Regulatory State (SRS) as a novel framework to discuss the splicing factors governing the unique AS pattern of photoreceptors, and how this pattern may aid in the specification of their highly specialized sensory cilia. In addition, we discuss how other sensory cells with ciliated structures, for which data is much scarcer, also rely on specific SRSs to implement a proteome specialized in the detection of sensory stimuli. By reviewing the general rules of cell type- and tissue-specific AS programs, firstly in the brain and subsequently in specialized sensory neurons, we propose a novel paradigm on how SRSs are established and how they can diversify. Finally, we illustrate how SRSs shape the outcome of mutations in splicing factors to produce cell type-specific phenotypes that can lead to various human diseases.

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Section: As In Retinal Photoreceptorsmentioning

confidence: 99%

Section: Assembling the Unique Srs Of Photoreceptorsmentioning

confidence: 99%

Section: Assembling the Unique Srs Of Photoreceptorsmentioning

confidence: 99%

See 1 more Smart Citation

Unique transcriptomes of sensory and non-sensory neurons: insights from Splicing Regulatory States

Ciampi,

Serrano,

Irimia

2024

Mol Syst Biol

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“…Contributing to this is regulation at the post-transcriptional level -that involves non-coding RNA or RNA-binding protein (RBP)-mediated control over mRNA splicing, transport, stability and translation -all of which determines the cellular proteome (Brinegar and Cooper 2016;Hentze et al 2018;Gebauer et al 2021). Indeed, recent findings have demonstrated that RBPs play a conserved role in mediating post-transcriptional control in eye and lens development Lachke and Maas 2011;Dash et al 2015Dash et al , 2016Dash et al , 2020Siddam et al 2018;Shao et al 2020;Barnum et al 2020;Nakazawa et al 2020;Sundar et al 2020;Aryal et al 2020b;Lachke 2022;Matalkah et al 2022). Together, these findings suggest that along with the transcriptome, characterization of the proteome is important to determine the factors that are important in a specific cell/tissue of interest.…”

Section: Embryonic Combined Retina and Rpe Proteomementioning

confidence: 99%

Proteomic profiling of retina and retinal pigment epithelium combined embryonic tissue to facilitate ocular disease gene discovery

Aryal

Anand

Huang

et al. 2023

Preprint

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To expedite gene discovery in eye development and its associated defects, we previously developed a bioinformatics resource-tool iSyTE (integrated Systems Tool for Eye gene discovery). However, iSyTE is presently limited to lens tissue and is predominantly based on transcriptomics datasets. Therefore, to extend iSyTE to other eye tissues on the proteome level, we performed high-throughput tandem mass spectrometry (MS/MS) on mouse embryonic day (E)14.5 retina and retinal pigment epithelium combined tissue and identified an average of 3,300 proteins per sample (n=5). High-throughput expression profiling-based gene discovery approaches–involving either transcriptomics or proteomics–pose a key challenge of prioritizing candidates from thousands of RNA/proteins expressed. To address this, we used MS/MS proteome data from mouse whole embryonic body (WB) as a reference dataset and performed comparative analysis–termed “in silico WB-subtraction”–with the retina proteome dataset. In silico WB-subtraction identified 90 high-priority proteins with retina-enriched expression at stringency criteria of ³2.5 average spectral counts, ³2.0 fold-enrichment, False Discovery Rate <0.01. These top candidates represent a pool of retina-enriched proteins, several of which are associated with retinal biology and/or defects (e.g., Aldh1a1, Ank2, Ank3, Dcn, Dync2h1, Egfr, Ephb2, Fbln5, Fbn2, Hras, Igf2bp1, Msi1, Rbp1, Rlbp1, Tenm3, Yap1, etc.), indicating the effectiveness of this approach. Importantly, in silico WB-subtraction also identified several new high-priority candidates with potential regulatory function in retina development. Finally, proteins exhibiting expression or enriched-expression in the retina are made accessible in a user-friendly manner at iSyTE (https://research.bioinformatics.udel.edu/iSyTE/), to allow effective visualization of this information and facilitate eye gene discovery.

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“…H3K4me3 and H3K36me3 have been linked to the regulation of transcription initiation and elongation, respectively. Since photoreceptors experience age-associated changes in transcription factor activity 24 , 25 , as well as splicing 26 , 27 , we sought to study how histone methylation contributed to the aging transcriptome. Further, we wondered if decreasing levels of one of these active marks would directly contribute to any of the age-associated changes observed in the transcriptome of aging photoreceptors.…”

Section: Introductionmentioning

confidence: 99%

Establishing the contribution of active histone methylation marks to the aging transcriptional landscape of Drosophila photoreceptors

Jauregui-Lozano

McGovern

Bakhle

et al. 2023

Sci Rep

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Studies in multiple organisms have shown that aging is accompanied by several molecular phenotypes that include dysregulation of chromatin. Since chromatin regulates DNA-based processes such as transcription, alterations in chromatin modifications could impact the transcriptome and function of aging cells. In flies, as in mammals, the aging eye undergoes changes in gene expression that correlate with declining visual function and increased risk of retinal degeneration. However, the causes of these transcriptome changes are poorly understood. Here, we profiled chromatin marks associated with active transcription in the aging Drosophila eye to understand how chromatin modulates transcriptional outputs. We found that both H3K4me3 and H3K36me3 globally decrease across all actively expressed genes with age. However, we found no correlation with changes in differential gene expression. Downregulation of the H3K36me3 methyltransferase Set2 in young photoreceptors revealed significant changes in splicing events that overlapped significantly with those observed in aging photoreceptors. These overlapping splicing events impacted multiple genes involved in phototransduction and neuronal function. Since proper splicing is essential for visual behavior, and because aging Drosophila undergo a decrease in visual function, our data suggest that H3K36me3 could play a role in maintaining visual function in the aging eye through regulating alternative splicing.

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The Musashi proteins direct post-transcriptional control of protein expression and alternate exon splicing in vertebrate photoreceptors

Cited by 12 publications

References 76 publications

Unique transcriptomes of sensory and non-sensory neurons: insights from Splicing Regulatory States

Unique transcriptomes of sensory and non-sensory neurons: insights from Splicing Regulatory States

Proteomic profiling of retina and retinal pigment epithelium combined embryonic tissue to facilitate ocular disease gene discovery

Establishing the contribution of active histone methylation marks to the aging transcriptional landscape of Drosophila photoreceptors

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