Intrinsic and extrinsic regulation of rhabdomyolysis susceptibility by Tango2.

Rhabdomyolysis is a clinical emergency characterized by severe muscle damage, resulting in the release of intracellular muscle components, which leads to myoglobinuria and, in severe cases, acute kidney failure. Rhabdomyolysis is caused by genetic factors linked to increased disease susceptibility in response to extrinsic triggers. Recessive mutations in TANGO2 result in episodic rhabdomyolysis, metabolic crises, encephalopathy and cardiac arrhythmia. The underlying mechanism contributing to disease onset in response to specific triggers remains unclear. To address these challenges, we created a zebrafish model of Tango2 deficiency. Here, we demonstrate that the loss of Tango2 in zebrafish results in growth defects, early lethality and increased susceptibility of skeletal muscle defects in response to extrinsic triggers, similar to TANGO2-deficient patients. Using lipidomics, we identified alterations in the glycerolipid pathway in tango2 mutants, which is critical for membrane stability and energy balance. Therefore, these studies provide insight into key disease processes in Tango2 deficiency and have increased our understanding of the impacts of specific defects on predisposition to environmental triggers in TANGO2-related disorders. © 2023. Published by The Company of Biologists Ltd.

Citation

Euri S Kim, Jennifer G Casey, Brian S Tao, Arian Mansur, Nishanthi Mathiyalagan, E Diane Wallace, Brandie M Ehrmann, Vandana A Gupta. Intrinsic and extrinsic regulation of rhabdomyolysis susceptibility by Tango2. Disease models & mechanisms. 2023 Sep 01;16(9)

Mesh Tags

PMID: 37577943

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