Abstract
Doxorubicin (DOX), a category D pregnancy drug, is a chemotherapeutic agent that has been shown in animal studies to induce fetal toxicity, including renal abnormalities. Upregulation of the transient receptor potential cation (TRPC) 6 channel is involved in DOX-induced podocyte apoptosis. We have previously reported that TRPC6-mediated Ca2+ signaling promotes neonatal glomerular mesangial cell (GMC) death. However, it is unknown whether DOX alters mesangial TRPC expression or viability in the fetus. In this study, cell growth was tracked in control and DOX-treated primary GMCs derived from fetal pigs. Live-cell imaging demonstrated that exposure to DOX inhibited the proliferation of fetal pig GMCs and induced cell death. DOX did not alter the TRPC3 expression levels. By contrast, TRPC6 protein expression in the cells was markedly reduced by DOX. DOX treatment also attenuated the TRPC6-mediated intracellular Ca2+ elevation. DOX stimulated mitochondrial reactive oxygen species (mtROS) generation and mitophagy by the GMCs. The DOX-induced mtROS generation and apoptosis were reversed by the mitochondria-targeted antioxidant mitoquinone. These data suggest that DOX-induced fetal pig GMC apoptosis is independent of TRPC6 channel upregulation but requires mtROS production. The mtROS-dependent GMC death may contribute to DOX-induced fetal nephrotoxicity when administered prenatally.
Highlights
Kidney cells, including mesangial cells, parietal epithelial cells, endothelial cells, and podocytes, sustain the structure and function of the glomerulus
We have reported that TRPC6-mediated Ca2+ signaling promotes neonatal glomerular mesangial cell (GMC) death [35]
We tested the hypothesis that DOX-induced upregulation of TRPC6 expression and TRPC6-dependent [Ca2+ ]i elevation is associated with fetal GMC apoptosis
Summary
Kidney cells, including mesangial cells, parietal epithelial cells, endothelial cells, and podocytes, sustain the structure and function of the glomerulus. The glomerular mesangial cells (GMCs) produce vasoactive agents and express G-protein-coupled receptors (GPCRs) and ion channels, including the transient receptor potential cation (TRPC) channels [2,3,4,5]. Postnatal exposure to nephrotoxic medications, including aminoglycoside antibiotics and nonsteroidal anti-inflammatory drugs, can have short- and long-term adverse effects on immature kidneys and are a significant cause of acute kidney injury (AKI) and chronic kidney disease (CKD) [12,13]. Since an increase in cell growth or death can result in glomerular injury [29,30], mechanisms that control propagation and senescence are vital This includes signal transduction pathways that can be modulated by changes in intracellular Ca2+ concentrations ([Ca2+ ]i ) as [Ca2+ ]i is a regulator of signal transduction processes controlling the cell cycle and survival [31,32]. We tested the hypothesis that DOX-induced upregulation of TRPC6 expression and TRPC6-dependent [Ca2+ ]i elevation is associated with fetal GMC apoptosis
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