Long-Chain and Very Long-Chain Ceramides Mediate Doxorubicin-Induced Toxicity and Fibrosis.

Tom Kretzschmar,Daniela Haase,Jasmine M F Wu,Martin Westermann,Markus H Gräler,Sandor Nietzsche,Tina Müller,P Christian Schulze,Martin Förster,Mohamed M Bekhite,Marcus Franz

doi:10.3390/ijms222111852

Tom Kretzschmar, Daniela Haase + Show 9 more

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https://doi.org/10.3390/ijms222111852

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Abstract

Doxorubicin (Dox) is a chemotherapeutic agent with cardiotoxicity associated with profibrotic effects. Dox increases ceramide levels with pro-inflammatory effects, cell death, and fibrosis. The purpose of our study was to identify the underlying ceramide signaling pathways. We aimed to characterize the downstream effects on cell survival, metabolism, and fibrosis. Human fibroblasts (hFSF) were treated with 0.7 µM of Dox or transgenically overexpressed ceramide synthase 2 (FLAG-CerS2). Furthermore, cells were pre-treated with MitoTempo (MT) (2 h, 20 µM) or Fumonisin B1 (FuB) (4 h, 100 µM). Protein expression was measured by Western blot or immunofluorescence (IF). Ceramide levels were determined with mass spectroscopy (MS). Visualizations were conducted using laser scanning microscopy (LSM) or electron microscopy. Mitochondrial activity was measured using seahorse analysis. Dox and CerS2 overexpression increased CerS2 protein expression. Coherently, ceramides were elevated with the highest peak for C24:0. Ceramide- induced mitochondrial ROS production was reduced with MT or FuB preincubation. Mitochondrial homeostasis was reduced and accompanied by reduced ATP production. Our data show that the increase in pro-inflammatory ceramides is an essential contributor to Dox side-effects. The accumulation of ceramides resulted in a lipotoxic shift and subsequently mitochondrial structural and functional damage, which was partially reversible following inhibition of ceramide synthesis.

Highlights

Dox is a chemotherapeutic agent that belongs to the family of anthracyclines
Fumonisin B1 (FuB) was used to determine the beneficial effects of ceramide reduction in mitochondrial ROS production and homeostasis
We have shown that Dox treatment of fibroblasts results in an increase in ceramides, observable in CerS2 overexpression

Summary

Introduction

Dox is a chemotherapeutic agent that belongs to the family of anthracyclines. It is used to treat various tumors. The underlying mechanisms of Dox toxicity are still not fully understood; in particular, its effects on cardiac fibrosis have not yet been thoroughly analyzed [3]. Long chain ceramides have an attached fatty acid with a chain length of more than 14 C-Atoms (C14) and very- long chain ceramides with more than 22 C-Atoms (C22) and their accumulation are negatively associated with cell viability [6]. The expression of CerS2 differs based on the origin of the individual cells and is mainly responsible for the formation of very long-chain ceramides [10] The accumulation of ceramides is associated with various diseases in different tissues, but its regulation and respective signaling pathways are not fully understood [6,11,12,13]

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