AAGGG repeat expansions trigger<i>RFC1</i>-independent synaptic dysregulation in human CANVAS neurons

Maltby, Connor J.; Krans, Amy; Grudzien, Samantha J.; Palacios, Yomira; Muiños, Jessica; Suárez, Andrea; Asher, Melissa; Willey, Sydney; Van Deynze, Kinsey; Mumm, Camille; Boyle, Alan P.; Cortese, Andrea; Ndayisaba, Alain; Khurana, Vikram; Barmada, Sami J.; Dijkstra, Anke A.; Todd, Peter K.

doi:10.1126/sciadv.adn2321

Sci. Adv.

2024

DOI: 10.1126/sciadv.adn2321

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AAGGG repeat expansions triggerRFC1-independent synaptic dysregulation in human CANVAS neurons

Connor J. Maltby,

Amy Krans,

Samantha J. Grudzien

et al.

Abstract: Cerebellar ataxia with neuropathy and vestibular areflexia syndrome (CANVAS) is a recessively inherited neurodegenerative disorder caused by intronic biallelic, nonreference CCCTT/AAGGG repeat expansions withinRFC1. To investigate how these repeats cause disease, we generated patient induced pluripotent stem cell–derived neurons (iNeurons). CCCTT/AAGGG repeat expansions do not alter neuronalRFC1splicing, expression, or DNA repair pathway function. In reporter assays, AAGGG repeats are translated into pentapept… Show more

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Cited by 2 publications

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Enhanced detection and genotyping of disease-associated tandem repeats using HMMSTR and targeted long-read sequencing

Van Deynze,

Mumm,

Maltby

et al. 2024

Nucleic Acids Research

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Tandem repeat sequences comprise approximately 8% of the human genome and are linked to more than 50 neurodegenerative disorders. Accurate characterization of disease-associated repeat loci remains resource intensive and often lacks high resolution genotype calls. We introduce a multiplexed, targeted nanopore sequencing panel and HMMSTR, a sequence-based tandem repeat copy number caller which outperforms current signal- and sequence-based callers relative to two assemblies and we show it performs with high accuracy in heterozygous regions and at low read coverage. The flexible panel allows us to capture disease associated regions at an average coverage of >150x. Using these tools, we successfully characterize known or suspected repeat expansions in patient derived samples. In these samples, we also identify unexpected expanded alleles at tandem repeat loci not previously associated with the underlying diagnosis. This genotyping approach for tandem repeat expansions is scalable, simple, flexible and accurate, offering significant potential for diagnostic applications and investigation of expansion co-occurrence in neurodegenerative disorders.

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Enhanced detection and genotyping of disease-associated tandem repeats using HMMSTR and targeted long-read sequencing

Van Deynze,

Mumm,

Maltby

et al. 2024

Nucleic Acids Research

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What Are the Central Mechanisms of Cough and Their Neurologic Implications?

Hass,

Benarroch

2024

Neurology

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Cough is an important defensive mechanism that shares many features with pain, including neurotransmitter systems, central modulation, and sensitization. Cough is a reflex that is primarily triggered by vagal afferents that terminate in the nucleus of the solitary tract (NTS) in the dorsal medulla.1 These NTS neurons have connections with neurons in the ventral respiratory group (VRG), dorsal motor nucleus of the vagus (DMV), and nucleus ambiguus, which initiate effector pathways for coordinated control of respiratory muscles (Figure).1,2 Cough, like other protective reflexes such as vomiting, is mediated by excitatory glutamatergic projections, inhibited by local GABAergic circuits, modulated by neuropeptides and monoamines, and susceptible to central sensitization. Whereas cough is a purely medullary reflex,2 human neuroimaging studies show that both voluntary cough and reflex cough in response to irritant exposure in the airways are associated with activation of several supramedullary regions, including the insula cortex, anterior midcingulate cortex, orbitofrontal cortex, primary sensory cortex, supplementary motor area, and cerebellum.3-5 The cerebellum is activated both during voluntary and involuntary (reflex) cough and may have a regulatory role.4 For example, the cerebellum sends projections to the periaqueductal gray (PAG), which using inputs to the NTS inhibits cough.6 The PAG also participates in modulation of pain, which indicates that cough and pain share common peripheral and central mechanisms.1,7

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AAGGG repeat expansions triggerRFC1-independent synaptic dysregulation in human CANVAS neurons

Cited by 2 publications

References 83 publications

Enhanced detection and genotyping of disease-associated tandem repeats using HMMSTR and targeted long-read sequencing

Enhanced detection and genotyping of disease-associated tandem repeats using HMMSTR and targeted long-read sequencing

What Are the Central Mechanisms of Cough and Their Neurologic Implications?

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