Mechanisms of Simvastatin Myotoxicity: The Role of Autophagy Flux Inhibition

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Mechanisms of Simvastatin Myotoxicity: The Role of Autophagy Flux Inhibition Publisher Pubmed

Emami A¹ ; Shojaei S¹ ; Da Silva Rosa SC^{1, 2} ; Aghaei M^{1, 3} ; Samiei E^{4, 5, 6} ; Vosoughi AR¹ ; Kalantari F¹ ; Kawalec P¹ ; Thliveris J¹ ; Sharma P⁷ ; Zeki AA^{8, 9, 10} ; Akbari M^{4, 5, 6} ; Gordon JW^{1, 2, 14} ; Ghavami S^{1, 10, 11, 12, 13}

Source: European Journal of Pharmacology Published:2019

Abstract

Statins are some of the most widely used drugs worldwide, but one of their major side effects is myotoxicity. Using mouse myoblast (C2C12) and human alveolar rhabdomyosarcoma cell lines (RH30) in both 2-dimensional (2D) and 3-dimensional (3D) cell culture, we investigated the mechanisms of simvastatin's myotoxicity. We found that simvastatin significantly reduced cell viability in C2C12 cells compared to RH30 cells. However, simvastatin induced greater apoptosis in RH30 compared to C2C12 cells. Simvastatin-induced cell death is dependent on geranylgeranyl pyrophosphate (GGPP) in C2C12 cells, while in RH30 cells it is dependent on both farnesyl pyrophosphate (FPP) and GGPP. Simvastatin inhibited autophagy flux in both C2C12 and RH30 cells and inhibited lysosomal acidification in C2C12 cells, while autophagy inhibition with Bafilomycin-A1 increased simvastatin myotoxicity in both cell lines. Simvastatin induced greater cell death in RH30 cells compared to C2C12 in a 3D culture model with similar effects on autophagy flux as in 2D culture. Overall, our results suggest that simvastatin-induced myotoxicity involves both apoptosis and autophagy, where autophagy serves a pro-survival role in both cell lines. The sensitivity to simvastatin-induced myotoxicity differs between 2D and 3D culture, demonstrating that the cellular microenvironment is a critical factor in regulating simvastatin-induced cell death in myoblasts. © 2019 Elsevier B.V.

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Style	Citing Format
MLA	Emami A, et al.. "Mechanisms of Simvastatin Myotoxicity: The Role of Autophagy Flux Inhibition." European Journal of Pharmacology, vol. 862, no. , 2019, pp. -.
APA	Emami A, Shojaei S, Da Silva Rosa SC, Aghaei M, Samiei E, Vosoughi AR, Kalantari F, Kawalec P, Thliveris J, Sharma P, Zeki AA, Akbari M, Gordon JW, Ghavami S (2019). Mechanisms of Simvastatin Myotoxicity: The Role of Autophagy Flux Inhibition. European Journal of Pharmacology, 862(), -.
Chicago	Emami A, Shojaei S, Da Silva Rosa SC, Aghaei M, Samiei E, Vosoughi AR, Kalantari F, et al.. "Mechanisms of Simvastatin Myotoxicity: The Role of Autophagy Flux Inhibition." European Journal of Pharmacology 862, no. (2019): -.
Harvard	Emami A et al. (2019) 'Mechanisms of Simvastatin Myotoxicity: The Role of Autophagy Flux Inhibition', European Journal of Pharmacology, 862(), pp. -.
Vancouver	Emami A, Shojaei S, Da Silva Rosa SC, Aghaei M, Samiei E, Vosoughi AR, et al.. Mechanisms of Simvastatin Myotoxicity: The Role of Autophagy Flux Inhibition. European Journal of Pharmacology. 2019;862():-.
BibTex	@article{ author = {Emami A and Shojaei S and Da Silva Rosa SC and Aghaei M and Samiei E and Vosoughi AR and Kalantari F and Kawalec P and Thliveris J and Sharma P and Zeki AA and Akbari M and Gordon JW and Ghavami S}, title = {Mechanisms of Simvastatin Myotoxicity: The Role of Autophagy Flux Inhibition}, journal = {European Journal of Pharmacology}, volume = {862}, number = {}, pages = {-}, year = {2019} }
RIS	TY - JOUR AU - Emami A AU - Shojaei S AU - Da Silva Rosa SC AU - Aghaei M AU - Samiei E AU - Vosoughi AR AU - Kalantari F AU - Kawalec P AU - Thliveris J AU - Sharma P AU - Zeki AA AU - Akbari M AU - Gordon JW AU - Ghavami S TI - Mechanisms of Simvastatin Myotoxicity: The Role of Autophagy Flux Inhibition JO - European Journal of Pharmacology VL - 862 IS - SP - EP - PY - 2019 ER -

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