Objectives: Opioids including morphine and DAMGO activate mu-opioid receptors (MOR), increase intracellular reactive oxygen species (ROS) levels, and induce cell death. Ferrous iron (Fe) through Fenton-like chemistry increases ROS levels and endolysosomes are "master regulators of iron metabolism" and contain readily-releasable Fe stores. However, mechanisms underlying opioid-induced changes in endolysosome iron homeostasis and downstream-signaling events remain unclear.
Methods: We used SH-SY5Y neuroblastoma cells, flow cytometry, and confocal microscopy to measure Fe and ROS levels and cell death.
Results: Morphine and DAMGO de-acidified endolysosomes, decreased endolysosome Fe levels, increased cytosol and mitochondria Fe and ROS levels, depolarized mitochondrial membrane potential, and induced cell death; effects blocked by the nonselective MOR antagonist naloxone and the selective MOR antagonist β-funaltrexamine (β-FNA). Deferoxamine, an endolysosome-iron chelator, inhibited opioid agonist-induced increases in cytosolic and mitochondrial Fe and ROS. Opioid-induced efflux of endolysosome Fe and subsequent Fe accumulation in mitochondria were blocked by the endolysosome-resident two-pore channel inhibitor NED-19 and the mitochondrial permeability transition pore inhibitor TRO.
Conclusions: Opioid agonist-induced increases in cytosolic and mitochondrial Fe and ROS as well as cell death appear downstream of endolysosome de-acidification and Fe efflux from the endolysosome iron pool that is sufficient to affect other organelles.
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| http://dx.doi.org/10.1515/nipt-2022-0013 | DOI Listing |
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