Splicing factor proline and glutamine rich intron retention, reduced expression and aggregate formation are pathological features of amyotrophic lateral sclerosis

Hogan, Alison; Grima, Natalie; Fifita, Jennifer A.; McCann, Emma; Heng, Benjamin; Fat, Sandrine Chan Moi; Wu, Songhua; Maharjan, Ram; Cain, Amy K.; Henden, Lyndal; Rayner, Stephanie L.; Tarr, Ingrid; Zhang, Katharine Y.; Zhao, Qiongyi; Zhang, Zong-Hong; Wright, Anthony R.; Lee, Albert; Morsch, Marco; Yang, Shu; Williams, Kelly L.; Blair, Ian P.

doi:10.1111/nan.12749

Cited by 11 publications

(15 citation statements)

References 61 publications

(77 reference statements)

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“…In light of our findings, we propose that perturbed control of intron retention in ALS includes the formation of pathogenic PreT-IR transcripts induced by loss of SFPQ function in both the nucleus and neurites, and that this misregulation impacts patients’ neurites most severely. Supporting this model, we found that the intron retention signature shared across ALS studies is also present in zebrafish null neurons 18 , 19 , 33 , 34 . Loss of SFPQ function likely perturbs the splicing of SFPQ-binding introns.…”

Section: Discussionsupporting

confidence: 67%

“…An emerging hallmark of ALS/FTLD, increased retention of specific introns in spliced mRNAs, has been observed across a range of genetic backgrounds, in cellular and animal models and patient tissue. Key affected introns are common across multiple datasets 18 , 19 , 33 , 34 . A functional connection between SFPQ misregulation and aberrant intron retention in ALS/FTLD has not yet been explored.…”

Section: Resultsmentioning

confidence: 99%

“…Depletion of SFPQ protein has been shown to cause mis-splicing, accompanied by tauopathy and an FTLD-like phenotype 6 , 7 , 21 . Missense mutations within sfpq found in a small number of ALS patients have also been shown to cause neurodegeneration ALS 4 , 18 . Studies across sporadic and familial cases have established SFPQ misregulation as a hallmark of ALS/FTLD 5 .…”

Section: Introductionmentioning

confidence: 99%

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Prematurely terminated intron-retaining mRNAs invade axons in SFPQ null-driven neurodegeneration and are a hallmark of ALS

et al. 2022

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Loss of SFPQ is a hallmark of motor degeneration in ALS and prevents maturation of motor neurons when occurring during embryogenesis. Here, we show that in zebrafish, developing motor neurons lacking SFPQ exhibit axon extension, branching and synaptogenesis defects, prior to degeneration. Subcellular transcriptomics reveals that loss of SFPQ in neurons produces a complex set of aberrant intron-retaining (IR) transcripts coding for neuron-specific proteins that accumulate in neurites. Some of these local IR mRNAs are prematurely terminated within the retained intron (PreT-IR). PreT-IR mRNAs undergo intronic polyadenylation, nuclear export, and localise to neurites in vitro and in vivo. We find these IR and PreT-IR mRNAs enriched in RNAseq datasets of tissue from patients with familial and sporadic ALS. This shared signature, between SFPQ-depleted neurons and ALS, functionally implicates SFPQ with the disease and suggests that neurite-centred perturbation of alternatively spliced isoforms drives the neurodegenerative process.

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Section: Discussionsupporting

confidence: 67%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Prematurely terminated intron-retaining mRNAs invade axons in SFPQ null-driven neurodegeneration and are a hallmark of ALS

et al. 2022

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“…Mislocalization and cytoplasmic aggregation of nuclear SFPQ are associated with the pathogenesis of ALS [4][5][6]. We have previously demonstrated that the application of ZnCl 2 enhances the cytoplasmic accumulation and aggregation of SFPQ when overexpressed in cultured neurons [12].…”

Section: Fals-associated N533h and L534i Mutants Promote Sfpq Cytopla...mentioning

confidence: 99%

“…These RBPs are best exemplified by trans-activation response element DNA-binding protein 43 (TDP-43) and fused in sarcoma (FUS), both of which predominantly function in the nucleus under normal conditions but are mislocalized and aggregated in the disease state [2,3]. Recent evidence has also demonstrated abnormal cytoplasmic accumulation and loss of the nuclear pool of an RBP, splicing factor prolineand glutamine-rich (SFPQ) protein, in ALS [4][5][6]. However, the precise molecular mechanisms that underpin these pathological changes, and their effects on neuronal functions are not well understood.…”

Section: Introductionmentioning

confidence: 99%

Familial ALS-associated SFPQ variants promote the formation of SFPQ cytoplasmic aggregates in primary neurons

et al. 2022

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Splicing factor proline- and glutamine-rich (SFPQ) is a nuclear RNA-binding protein that is involved in a wide range of physiological processes including neuronal development and homeostasis. However, the mislocalization and cytoplasmic aggregation of SFPQ are associated with the pathophysiology of amyotrophic lateral sclerosis (ALS). We have previously reported that zinc mediates SFPQ polymerization and promotes the formation of cytoplasmic aggregates in neurons. Here we characterize two familial ALS (fALS)-associated SFPQ variants, which cause amino acid substitutions in the proximity of the SFPQ zinc-coordinating centre (N533H and L534I). Both mutants display increased zinc-binding affinities, which can be explained by the presence of a second zinc-binding site revealed by the 1.83 Å crystal structure of the human SFPQ L534I mutant. Overexpression of these fALS-associated mutants significantly increases the number of SFPQ cytoplasmic aggregates in primary neurons. Although they do not affect the density of dendritic spines, the presence of SFPQ cytoplasmic aggregates causes a marked reduction in the levels of the GluA1, but not the GluA2 subunit of AMPA-type glutamate receptors on the neuronal surface. Taken together, our data demonstrate that fALS-associated mutations enhance the propensity of SFPQ to bind zinc and form aggregates, leading to the dysregulation of AMPA receptor subunit composition, which may contribute to neuronal dysfunction in ALS.

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Molecular mechanisms of amyotrophic lateral sclerosis as broad therapeutic targets for gene therapy applications utilizing adeno‐associated viral vectors

Merjane

Chung

Patani

et al. 2023

Medicinal Research Reviews

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Despite the devastating clinical outcome of the neurodegenerative disease, amyotrophic lateral sclerosis (ALS), its etiology remains mysterious. Approximately 90% of ALS is characterized as sporadic, signifying that the patient has no family history of the disease. The development of an impactful disease modifying therapy across the ALS spectrum has remained out of grasp, largely due to the poorly understood mechanisms of disease onset and progression. Currently, ALS is invariably fatal and rapidly progressive. It is hypothesized that multiple factors can lead to the development of ALS, however, treatments are often focused on targeting specific familial forms of the disease (10% of total cases). There is a strong need to develop disease modifying treatments for ALS that can be effective across the full ALS spectrum of familial and sporadic cases. Although the onset of disease varies significantly between patients, there are general disease mechanisms and progressions that can be seen broadly across ALS patients. Therefore, this review explores the targeting of these widespread disease mechanisms as possible areas for therapeutic intervention to treat ALS broadly. In particular, this review will focus on targeting mechanisms of defective protein homeostasis and RNA processing, which are both increasingly recognized as design principles of ALS pathogenesis. Additionally, this review will explore the benefits of gene therapy as an approach to treating ALS, specifically focusing on the use of adeno‐associated virus (AAV) as a vector for gene delivery to the CNS and recent advances in the field.

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Splicing factor proline and glutamine rich intron retention, reduced expression and aggregate formation are pathological features of amyotrophic lateral sclerosis

Cited by 11 publications

References 61 publications

Prematurely terminated intron-retaining mRNAs invade axons in SFPQ null-driven neurodegeneration and are a hallmark of ALS

Prematurely terminated intron-retaining mRNAs invade axons in SFPQ null-driven neurodegeneration and are a hallmark of ALS

Familial ALS-associated SFPQ variants promote the formation of SFPQ cytoplasmic aggregates in primary neurons

Molecular mechanisms of amyotrophic lateral sclerosis as broad therapeutic targets for gene therapy applications utilizing adeno‐associated viral vectors

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