Morgan E. Morris scite author profile

Opening of voltage dependent anion channels (VDAC) by the erastin-like compound X1 and the multikinase inhibitor sorafenib promotes oxidative stress and mitochondrial dysfunction in hepatocarcinoma cells. Here, we hypothesized that X1 and sorafenib induce mitochondrial dysfunction by increasing ROS formation and activating c-Jun N-terminal kinases (JNKs), leading to translocation of activated JNK to mitochondria. Both X1 and sorafenib increased production of reactive oxygen species (ROS) and activated JNK. X1 and sorafenib caused a drop in mitochondrial membrane potential (ΔΨ), a readout of mitochondrial metabolism, after 60 min. Mitochondrial depolarization after X1 and sorafenib occurred in parallel with JNK activation, increased superoxide (O 2•− ) production, decreased basal and oligomycin sensitive respiration, and decreased maximal respiratory capacity. Increased production of O 2 •− after X1 or sorafenib was abrogated by JNK inhibition and antioxidants. S3QEL specific inhibitor of site IIIQ o, at Complex III prevented depolarization induced by X1. JNK inhibition by JNK inhibitors VIII and SP600125 also prevented mitochondrial depolarization. After X1, activated JNK translocated to mitochondria as assessed by proximity ligation assays.

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Statin‐dependent modulation of mitochondrial metabolism in cancer cells is independent of cholesterol content

Christie

Fang

Hunt

et al. 2019

FASEB j.

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Statins, widely used to treat hypercholesterolemia, inhibit the 3‐hydroxy‐3‐methylglutary1‐coenzyme A reductase, the rate‐limiting enzyme of de novo cholesterol (Chol) synthesis. Statins have been also reported to slow tumor progression. In cancer cells, ATP is generated both by glycolysis and oxidative phosphorylation. Mitochondrial membrane potential (ΔΨ), a readout of mitochondrial metabolism, is sustained by the oxidation of respiratory substrates in the Krebs cycle to generate NADH and flavin adenine dinucleotide, which are further oxidized by the respiratory chain. Here, we studied the short‐term effects of statins (3–24 h) on mitochondrial metabolism on cancer cells. Lovastatin (LOV) and simvastatin (SIM) increased in HepG2 and Huh7 human hepatocarcinoma cells and HCC4006 human lung adenocarcinoma cells. Mitochondrial hyperpolarization after LOV and SIM was dose and time dependent. Maximal increase in ΔΨ occurred at 10 µM and 24 h for both statins. The structurally unrelated atorvastatin also hyperpolarized mitochondria in HepG2 cells. Cellular and mitochondrial Chol remained unchanged after SIM. Both LOV and SIM decreased basal respiration, ATP‐linked respiration, and ATP production. LOV and SIM did not change the rate of lactic acid production. In summary, statins modulate mitochondrial metabolism in cancer cells independently of the Chol content in cellular membranes without affecting glycolysis.—Christie, C. F., Fang, D., Hunt, E. G., Morris, M. E., Rovini, A., Heslop, K. A., Beeson, G. C., Beeson, C. C., Maldonado, E. N. Statin‐dependent modulation of mitochondrial metabolism in cancer cells is independent of cholesterol content. FASEB J. 33, 8186–8201 (2019). http://www.fasebj.org

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Quantitative analysis of mitochondrial membrane potential heterogeneity in unsynchronized and synchronized cancer cells

et al. 2020

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Mitochondrial membrane potential (ΔΨm) is a global indicator of mitochondrial function. Previous reports on heterogeneity of ΔΨm were qualitative or semiquantitative. Here, we quantified intercellular differences in ΔΨm in unsynchronized human cancer cells, cells synchronized in G1, S, and G2, and human fibroblasts. We assessed ΔΨm using a two-pronged microscopy approach to measure relative fluorescence of tetramethylrhodamine methyl ester (TMRM) and absolute values of ΔΨm. We showed that ΔΨm is more heterogeneous in cancer cells compared to fibroblasts, and it is maintained throughout the cell cycle. The effect of chemical inhibition of the respiratory chain and ATP synthesis differed between basal, low and high ΔΨm cells. Overall, our results showed that intercellular heterogeneity of ΔΨm is mainly modulated by intramitochondrial factors, it is independent of the ΔΨm indicator and it is not correlated with intercellular heterogeneity of plasma membrane potential or the phases of the cell cycle.

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5-HT_1F receptor regulates mitochondrial homeostasis and its loss potentiates acute kidney injury and impairs renal recovery

Gibbs

Collier

Morris

et al. 2018

American Journal of Physiology-Renal Physiology

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Our laboratory previously reported that agonists of the 5-hydoxytryptamine 1F (5-HT) receptor induce renal mitochondrial biogenesis (MB) and that stimulation of the 5-HT receptor following ischemia/reperfusion (I/R)-induced acute kidney injury (AKI) accelerated the recovery of renal function in mice. The goal of this study was to examine the contribution of the 5-HT receptor in the regulation of renal mitochondrial homeostasis and renal function in naïve and injured mice. Although 5-HT receptor knockout (KO) mice were healthy and fertile, and did not exhibit renal dysfunction, renal mitochondrial DNA copy number and mitochondrial fission gene expression increased at 10 wk of age. The 5-HT receptor KO mice exhibited greater proximal tubular injury and diminished renal recovery after I/R-induced AKI compared with wild-type mice. These findings were associated with persistent suppression of renal cortical MB and ATP levels after injury. In summary, the 5-HT receptor is a component of physiological MB regulation in the kidney, and its absence potentiates renal injury and impedes recovery.

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Voltage-Dependent Anion Channels Influence Cytotoxicity of ME-344, a Therapeutic Isoflavone

Zhang¹,

Townsend²,

Morris³

et al. 2020

J Pharmacol Exp Ther

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ME-344 is a second-generation cytotoxic isoflavone with anticancer activity promulgated through interference with mitochondrial functions. Using a click chemistry version of the drug together with affinity-enriched mass spectrometry, voltagedependent anion channels (VDACs) 1 and 2 were identified as drug targets. To determine the importance of VDAC1 or 2 to cytotoxicity, we used lung cancer cells that were either sensitive (H460) or intrinsically resistant (H596) to the drug. In H460 cells, depletion of VDAC1 and VDAC2 by small interfering RNA impacted ME-344 effects by diminishing generation of reactive oxygen species (ROS), preventing mitochondrial membrane potential dissipation, and moderating ME-344-induced cytotoxicity and mitochondrial-mediated apoptosis. Mechanistically, VDAC1 and VDAC2 knockdown prevented ME-344-induced apoptosis by inhibiting Bax mitochondrial translocation and cytochrome c release as well as apoptosis in these H460 cells. We conclude that VDAC1 and 2, as mediators of the response to oxidative stress, have roles in modulating ROS generation, Bax translocation, and cytochrome c release during mitochondrial-mediated apoptosis caused by ME-344. SIGNIFICANCE STATEMENT Dissecting preclinical drug mechanisms are of significance in development of a drug toward eventual Food and Drug Administration approval.

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Morgan E. Morris

JNK activation and translocation to mitochondria mediates mitochondrial dysfunction and cell death induced by VDAC opening and sorafenib in hepatocarcinoma cells

Statin‐dependent modulation of mitochondrial metabolism in cancer cells is independent of cholesterol content

Quantitative analysis of mitochondrial membrane potential heterogeneity in unsynchronized and synchronized cancer cells

5-HT_1F receptor regulates mitochondrial homeostasis and its loss potentiates acute kidney injury and impairs renal recovery

Voltage-Dependent Anion Channels Influence Cytotoxicity of ME-344, a Therapeutic Isoflavone

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Morgan E. Morris

JNK activation and translocation to mitochondria mediates mitochondrial dysfunction and cell death induced by VDAC opening and sorafenib in hepatocarcinoma cells

Statin‐dependent modulation of mitochondrial metabolism in cancer cells is independent of cholesterol content

Quantitative analysis of mitochondrial membrane potential heterogeneity in unsynchronized and synchronized cancer cells

5-HT1F receptor regulates mitochondrial homeostasis and its loss potentiates acute kidney injury and impairs renal recovery

Voltage-Dependent Anion Channels Influence Cytotoxicity of ME-344, a Therapeutic Isoflavone

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5-HT_1F receptor regulates mitochondrial homeostasis and its loss potentiates acute kidney injury and impairs renal recovery