Failure to identify modifiers of <i>NEBULIN</i> related nemaline myopathy in two pre-clinical models of the disease

Qiu, Boyang; Ruston, Julie; Granzier, Henk; Justice, Monica J.; Dowling, James J.

doi:10.1242/bio.044867

Cited by 3 publications

(1 citation statement)

References 39 publications

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“…Locomotion is a complex trait that may be difficult to modify, especially in the double mutant fish which are completely paralyzed. We have observed mixed results with this outcome measure in other zebrafish myopathy models, where we have successfully identified chemicals that rescue the swimming defect in mtm1 mutant zebrafish (Sabha et al, 2016), meanwhile we found no positive hits in neb deficient zebrafish which show complete paralysis (Qiu et al, 2019). As discussed below, we believe development of new models that do not completely lack RyR1 expression and that more closely mirror human mutations will overcome this limitation in the future.…”

Section: Discussionmentioning

confidence: 88%

Identification of drug modifiers for RYR1-related myopathy using a multi-species discovery pipeline

Volpatti

Endo

Knox

et al. 2020

eLife

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Ryanodine receptor type I-related myopathies (RYR1-RMs) are a common group of childhood muscle diseases associated with severe disabilities and early mortality for which there are no available treatments. The goal of this study is to identify new therapeutic targets for RYR1-RMs. To accomplish this, we developed a discovery pipeline using nematode, zebrafish, and mammalian cell models. We first performed large-scale drug screens in C. elegans which uncovered 74 hits. Targeted testing in zebrafish yielded positive results for two p38 inhibitors. Using mouse myotubes, we found that either pharmacological inhibition or siRNA silencing of p38 impaired caffeine-induced Ca2+ release from wild type cells while promoting intracellular Ca2+ release in Ryr1 knockout cells. Lastly, we demonstrated that p38 inhibition blunts the aberrant temperature-dependent increase in resting Ca2+ in myotubes from an RYR1-RM mouse model. This unique platform for RYR1-RM therapy development is potentially applicable to a broad range of neuromuscular disorders.

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Section: Discussionmentioning

confidence: 88%

Identification of drug modifiers for RYR1-related myopathy using a multi-species discovery pipeline

Volpatti

Endo

Knox

et al. 2020

eLife

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Early clinical and pre-clinical therapy development in Nemaline myopathy

Fisher

Mackels

Markati

et al. 2022

Expert Opinion on Therapeutic Targets

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Standardization of zebrafish drug testing parameters for muscle diseases

Karuppasamy,

English,

Henry

et al. 2024

Disease Models &Amp; Mechanisms

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Skeletal muscular diseases predominantly affect skeletal and cardiac muscle, resulting in muscle weakness, impaired respiratory function and decreased lifespan. These harmful outcomes lead to poor health-related quality of life and carry a high healthcare economic burden. The absence of promising treatments and new therapies for muscular disorders requires new methods for candidate drug identification and advancement in animal models. Consequently, the rapid screening of drug compounds in an animal model that mimics features of human muscle disease is warranted. Zebrafish are a versatile model in preclinical studies that support developmental biology and drug discovery programs for novel chemical entities and repurposing of established drugs. Due to several advantages, there is an increasing number of applications of the zebrafish model for high-throughput drug screening for human disorders and developmental studies. Consequently, standardization of key drug screening parameters, such as animal husbandry protocols, drug compound administration and outcome measures, is paramount for the continued advancement of the model and field. Here, we seek to summarize and explore critical drug treatment and drug screening parameters in the zebrafish-based modeling of human muscle diseases. Through improved standardization and harmonization of drug screening parameters and protocols, we aim to promote more effective drug discovery programs.

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Failure to identify modifiers of NEBULIN related nemaline myopathy in two pre-clinical models of the disease

Cited by 3 publications

References 39 publications

Identification of drug modifiers for RYR1-related myopathy using a multi-species discovery pipeline

Identification of drug modifiers for RYR1-related myopathy using a multi-species discovery pipeline

Early clinical and pre-clinical therapy development in Nemaline myopathy

Standardization of zebrafish drug testing parameters for muscle diseases

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