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1. Mevalonate Cascade Inhibition by Simvastatin Induces the Intrinsic Apoptosis Pathway via Depletion of Isoprenoids in Tumor Cells.

Author

Alizadeh, Javad, Zeki, Amir A, Mirzaei, Nima, Tewary, Sandipan, Rezaei Moghadam, Adel, Glogowska, Aleksandra, Nagakannan, Pandian, Eftekharpour, Eftekhar, Wiechec, Emilia, Gordon, Joseph W, Xu, Fred Y, Field, Jared T, Yoneda, Ken Y, Kenyon, Nicholas J, Hashemi, Mohammad, Hatch, Grant M, Hombach-Klonisch, Sabine, Klonisch, Thomas, and Ghavami, Saeid

Subjects
Cell Line, Tumor, Cell Membrane, Humans, Mevalonic Acid, Terpenes, Simvastatin, Cholesterol, rho GTP-Binding Proteins, Alkyl and Aryl Transferases, Hydroxymethylglutaryl-CoA Reductase Inhibitors, Signal Transduction, Cell Death, Apoptosis, Protein Transport, Dose-Response Relationship, Drug, Farnesyltranstransferase, Metabolic Networks and Pathways, Cell Line, Tumor, Dose-Response Relationship, Drug
Abstract

The mevalonate (MEV) cascade is responsible for cholesterol biosynthesis and the formation of the intermediate metabolites geranylgeranylpyrophosphate (GGPP) and farnesylpyrophosphate (FPP) used in the prenylation of proteins. Here we show that the MEV cascade inhibitor simvastatin induced significant cell death in a wide range of human tumor cell lines, including glioblastoma, astrocytoma, neuroblastoma, lung adenocarcinoma, and breast cancer. Simvastatin induced apoptotic cell death via the intrinsic apoptotic pathway. In all cancer cell types tested, simvastatin-induced cell death was not rescued by cholesterol, but was dependent on GGPP- and FPP-depletion. We confirmed that simvastatin caused the translocation of the small Rho GTPases RhoA, Cdc42, and Rac1/2/3 from cell membranes to the cytosol in U251 (glioblastoma), A549 (lung adenocarcinoma) and MDA-MB-231(breast cancer). Simvastatin-induced Rho-GTP loading significantly increased in U251 cells which were reversed with MEV, FPP, GGPP. In contrast, simvastatin did not change Rho-GTP loading in A549 and MDA-MB-231. Inhibition of geranylgeranyltransferase I by GGTi-298, but not farnesyltransferase by FTi-277, induced significant cell death in U251, A549, and MDA-MB-231. These results indicate that MEV cascade inhibition by simvastatin induced the intrinsic apoptosis pathway via inhibition of Rho family prenylation and depletion of GGPP, in a variety of different human cancer cell lines.

Published
2017

6. Phospholipase D1 corrects impaired [beta]APP trafficking and neurite outgrowth in familial Alzheimer's disease-linked presenilin-1 mutant neurons

Author

Cai, Dongming, Zhong, Minghao, Wang, Runsheng, Netzer, William J., Shields, Dennis, Zheng, Hui, Sisodia, Sangram S., Foster, David A., Gorelick, Fred S., Xu, Fred S., and Greengard, Paul

Subjects
Phospholipases -- Research, Proteolysis -- Research, Glycoproteins -- Research, Science and technology
Abstract

Presenilins (PS1/PS2) regulate proteolysis of [beta]-amyloid precursor protein ([beta]APP) and affect its intracellular trafficking. Here, we demonstrate that a PS1-interacting protein, phospholipase D1 (PLD1), affects intracellular trafficking of [beta]APP. Over-expression of PLD1 in PS1wt cells promotes generation of [beta]APP-containing vesicles from the trans-Golgi network. Conversely, inhibition of PLD1 activity by 1-butanol decreases [beta]APP trafficking in both wt and PS1-deficient cells. The subcellular localization of PLD1 is altered, and PLD enzymatic activity is reduced in cells expressing familial Alzheimer's disease (FAD) PS1 mutations compared with PS1wt cells. Overexpression of wt, but not catalytically inactive, PLD1 increases budding of [beta]APP-containing vesicles from the trans-Golgi network in FAD mutant cells. Surface delivery of [beta]APP is also increased by PLD1 in these cells. The impaired neurite outgrowth capacity in FAD mutant neurons was corrected by introducing PLD1 into these cells. The results indicate that PLD1 may represent a therapeutic target for rescuing compromised neuronal function in AD. [beta]-amyloid precursor protein | intracellular trafficking | axonal growth | neurite branching | trans-Golgi network

Published
2006

11. Simvastatin increases temozolomide‐induced cell death by targeting the fusion of autophagosomes and lysosomes

Author

Shojaei, Shahla, primary, Koleini, Navid, additional, Samiei, Ehsan, additional, Aghaei, Mahmoud, additional, Cole, Laura K., additional, Alizadeh, Javad, additional, Islam, Md Imamul, additional, Vosoughi, Amir‐reza, additional, Albokashy, Mohammed, additional, Butterfield, Yaron, additional, Marzban, Hassan, additional, Xu, Fred, additional, Thliveris, James, additional, Kardami, Elissavet, additional, Hatch, Grant M., additional, Eftekharpour, Eftekhar, additional, Akbari, Mohsen, additional, Hombach‐Klonisch, Sabine, additional, Klonisch, Thomas, additional, and Ghavami, Saeid, additional

Published
2019
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12. Simvastatin increases temozolomide‐induced cell death by targeting the fusion of autophagosomes and lysosomes.

Author

Shojaei, Shahla, Koleini, Navid, Samiei, Ehsan, Aghaei, Mahmoud, Cole, Laura K., Alizadeh, Javad, Islam, Md Imamul, Vosoughi, Amir‐reza, Albokashy, Mohammed, Butterfield, Yaron, Marzban, Hassan, Xu, Fred, Thliveris, James, Kardami, Elissavet, Hatch, Grant M., Eftekharpour, Eftekhar, Akbari, Mohsen, Hombach‐Klonisch, Sabine, Klonisch, Thomas, and Ghavami, Saeid

Subjects
LYSOSOMES, CELL death, SIMVASTATIN, CANCER cell culture, DNA damage, GLIOBLASTOMA multiforme, CELL culture
Abstract

Temozolomide (TMZ) is a chemotherapy agent used to treat Grade IV astrocytoma, also known as glioblastoma (GBM). TMZ treatment causes DNA damage that results in tumor cell apoptosis and increases the survival rate of GBM patients. However, chemoresistance as a result of TMZ‐induced autophagy significantly reduces this anticancer effects over time. Statins are competitive inhibitors of HMG‐CoA reductase, the rate‐limiting enzyme of the mevalonate (MEV) cascade. Statins are best known for their cholesterol (CH)‐lowering effect. Long‐term consumption of statins, prior to and in parallel with other cancer therapeutic approaches, has been reported to increase the survival rate of patients with various forms of cancers. In this study, we investigated the potentiation of TMZ‐induced apoptosis by simvastatin (Simva) in human GBM cell lines and patient GBM cells, using cell monolayers and three‐dimensional cell culture systems. The incubation of cells with a combination of Simva and TMZ resulted in a significant increase in apoptotic cells compared to cells treated with TMZ alone. Incubation of cells with CH or MEV cascade intermediates failed to compensate the decrease in cell viability induced by the combined Simva and TMZ treatment. Simva treatment inhibited the autophagy flux induced by TMZ by blocking autophago‐lysosome formation. Our results suggest that Simva sensitizes GBM cells to TMZ‐induced cell death in a MEV cascade‐independent manner and identifies the inhibition of autophagosome‐lysosome fusion as a promising therapeutic strategy in the treatment of GBM. [ABSTRACT FROM AUTHOR]

Published
2020
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14. HMGA2 as a functional antagonist ofPARP1 inhibitors in tumor cells

Author

Hombach‐Klonisch, Sabine, primary, Kalantari, Forouh, additional, Medapati, Manoj Reddy, additional, Natarajan, Suchitra, additional, Krishnan, Sai Nivedita, additional, Kumar‐Kanojia, Aditya, additional, Thanasupawat, Thatchawan, additional, Begum, Farhana, additional, Xu, Fred Y., additional, Hatch, Grant M., additional, Los, Marek, additional, and Klonisch, Thomas, additional

Published
2018
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15. HMGA2 as a functional antagonist of PARP1 inhibitors in tumor cells.

Author

Hombach‐Klonisch, Sabine, Kalantari, Forouh, Medapati, Manoj Reddy, Natarajan, Suchitra, Krishnan, Sai Nivedita, Kumar‐Kanojia, Aditya, Thanasupawat, Thatchawan, Begum, Farhana, Xu, Fred Y., Hatch, Grant M., Los, Marek, and Klonisch, Thomas

Abstract

Poly(ADP‐ribose) polymerase 1 inhibitors alone or in combination with DNA damaging agents are promising clinical drugs in the treatment of cancer. However, there is a need to understand the molecular mechanisms of resistance to PARP1 inhibitors. Expression of HMGA2 in cancer is associated with poor prognosis for patients. Here, we investigated the novel relationship between HMGA2 and PARP1 in DNA damage‐induced PARP1 activity. We used human triple‐negative breast cancer and fibrosarcoma cell lines to demonstrate that HMGA2 colocalizes and interacts with PARP1. High cellular HMGA2 levels correlated with increased DNA damage‐induced PARP1 activity, which was dependent on functional DNA‐binding AT‐hook domains of HMGA2. HMGA2 inhibited PARP1 trapping to DNA and counteracted the cytotoxic effect of PARP inhibitors. Consequently, HMGA2 decreased caspase 3/7 induction and increased cell survival upon treatment with the alkylating methyl methanesulfonate alone or in combination with the PARP inhibitor AZD2281 (olaparib). HMGA2 increased mitochondrial oxygen consumption rate and spare respiratory capacity and increased NAMPT levels, suggesting metabolic support for enhanced PARP1 activity upon DNA damage. Our data showed that expression of HMGA2 in cancer cells reduces sensitivity to PARP inhibitors and suggests that targeting HMGA2 in combination with PARP inhibition may be a promising new therapeutic approach. (A) PARP inhibitors cause reduced PARylation and increased PARP1 trapping to damaged DNA, leading to cytotoxicity. (B) Chromatin binding of HMGA2 increases PARP1 catalytic activity, reduces sensitivity to PARP inhibitors, and prevents PARP inhibitor‐induced PARP1 trapping at damaged DNA, which ultimately increases cell survival of HMGA2‐expressing cancer cells. [ABSTRACT FROM AUTHOR]

Published
2019
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33. AmyIoid-β peptide induces oligodendrocyte death by activating the neutral sphingomyelinase--ceramide pathway.

Author

Jiunn-Tay Lee, Fred H., Jan Xu, Fred H., Jin-Moo Lee, Ku, Grace, Xianlin Han, Yang, Ding-I., Shawei Chen, Ding-I., and Hsu, Chung Y.

Subjects
*AMYLOID beta-protein, *ALZHEIMER'S disease, *OLIGODENDROGLIA, *CELL death, *CERAMIDES, *ENZYME activation
Abstract

Amyloid-β peptide (Aβ) accumulation in senile plaques, a pathological hallmark of Alzheimer's disease (AD), has been implicated in neuronal degeneration. We have recently demonstrated that Aβ induced oligodendrocyte (OLG) apoptosis, suggesting a role in white matter pathology in AD. Here, we explore the molecular mechanisms involved in Aβ-induced OLG death, examining the potential role of ceramide, a known apoptogenic mediator. Both Aβ and ceramide induced OLG death. In addition, Aβ activated neutral sphingomyelinase (nSMase), but not acidic sphingomyelinase, resulting in increased ceramide generation. Blocking ceramide degradation with N-oleoyl-ethanolamine exacerbated Aβ cytotoxicity; and addition of bacterial sphingomyelinase (mimicking cellular nSMase activity) induced OLG death. Furthermore, nSM- ase inhibition by 3-O-methyl-sphingomyelin or by gene knockdown using antisense oligonucleotides attenuated Aβ-induced OLG death. Glutathione (GSH) precursors inhibited Aβ activation of nSMase and prevented OLG death, whereas GSH depletors increased nSMase activity and Aβ-induced death. These results suggest that Aβ induces OLG death by activating the nSMase-ceramide cascade via an oxidative mechanism. [ABSTRACT FROM AUTHOR]

Published
2004
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34. Expression of monolysocardiolipin acyltransferase activity is regulated in concert with the level of cardiolipin and cardiolipin biosynthesis in the mammalian heart.

Author

Taylor, William A., Xu, Fred Y., Ma, Brian J., Mutter, Thomas C., Dolinsky, Vernon W., and Hatch, Grant M.

Subjects
ACYLTRANSFERASES, CARDIOLIPIN, BIOSYNTHESIS, HEART, MAMMALS
Abstract

Background: Monolysocardiolipin acyltransferase (MLCL AT) catalyzes the acylation of monolysocardiolipin to cardiolipin in mammalian tissues. We previously reported that cardiac cardiolipin levels, MLCL AT and cardiolipin synthase activities were all elevated in rats made hyperthyroid by thyroxine treatment. In this study, we examined if cardiac mitochondrial MLCL AT activity was dependent upon the biosynthesis and level of cardiolipin in the heart. Rat heart mitochondrial MLCL AT activity was determined under conditions in which the levels of cardiac cardiolipin and cardiolipin synthase activity were either reduced or unaltered using four different disease models in the rat. In addition, these parameters were examined in a murine model of cardiac cell differentiation. Results: In rats made hypothyroid by treatment with 6-n-propyl-2-thiouracil in the drinking water for 34 days, cardiac cardiolipin content was decreased 29% (p < 0.025) and this was associated with a 32% decrease (p < 0.025) in cardiolipin synthase and a 35% reduction (p < 0.025) in MLCL AT activities. Streptozotocin-induced diabetes or hyperinsulinemia in rats did not affect cardiac cardiolipin content nor MLCL AT and cardiolipin synthase activities. Finally, cardiolipin content, MLCL AT and cardiolipin synthase activities were unaltered during murine P19 teratocarcinoma cell differentiation into cardiac myocytes. In all models, phospholipase A2 activities were unaltered compared with controls. Conclusion: We propose a general model in which the expression of MLCL AT activity is regulated in concert with the biosynthesis and level of cardiolipin in the heart. [ABSTRACT FROM AUTHOR]

Published
2002
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35. On the mechanism of the phospholipase C-mediated attenuation of cardiolipin biosynthesis in H9c2 cardiac myoblast cells.

Author

Xu, Fred, Kelly, Sherrie, Taylor, William, and Hatch, Grant

Abstract

The effect of phospholipase C treatment on cardiolipin biosynthesis was investigated in intact H9c2 cardiac myoblasts. Treatment of cells with phosphatidylcholine-specific Clostridium welchii phospholipase C reduced the pool size of phosphatidylcholine compared with controls whereas the pool size of cardiolipin and phosphatidylglycerol were unaffected. Pulse labeling experiments with [1,3-3H]glycerol and pulse-chase labeling experiments with [1,3-3H]glycerol were performed in cells incubated or pre-incubated in the absence or presence of phospholipase C. In all experiments, radioactivity incorporated into cardiolipin and phosphatidylglycerol were reduced in phospholipase C-treated cells with time compared with controls indicating attenuated de novo biosynthesis of these phospholipids. Addition of 1,2-dioctanoyl-sn-glycerol, a cell permeable 1,2-diacyl-sn-glycerol analog, to cells mimicked the inhibitory effect of phospholipase C on cardiolipin and phosphatidylglycerol biosynthesis from [1,3-3H]glycerol indicating the involvement of 1,2-diacyl-sn-glycerol. The mechanism for the reduction in cardiolipin and phosphatidylglycerol biosynthesis in phospholipase C-treated cells appeared to be a decrease in the activities of phosphatidic acid:cytidine-5′triphosphate cytidylyltransferase and phosphatidylglycerolphosphate synthase, mediated by elevated 1,2-diacyl-sn-glycerol levels. Upon removal of phospholipase C from the incubation medium, phosphatidylcholine biosynthesis from [methyl-3H]choline was markedly stimulated. These data suggest that de novo phosphatidylglycerol and cardiolipin biosynthesis may be regulated by 1,2-diacyl-sn-glycerol and support the notion that phosphatidylglycerol and cardiolipin biosynthesis may be coordinated with phosphatidylcholine biosynthesis in H9c2 cardiac myoblast cells. [ABSTRACT FROM AUTHOR]

Published
1998
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36. The phospholipidosis-lnducing potential of the chemopotentiating drug, N,N-Diethyl-2-[4-(phenylmethyl)phenoxy]ethanamine (DPPE, tesmilifene) correlates with its stimulation of phosphatidylserine synthesis and exposure on the plasma membrane in MCF-7 breast cancer cells.

Author

Xu FY, Queen G, Brandes L, and Hatch GM

Subjects
Arachidonic Acid metabolism, Breast Neoplasms drug therapy, Breast Neoplasms pathology, Cell Line, Tumor, Drug Synergism, Female, Humans, Lipidoses blood, Serine metabolism, Antineoplastic Agents pharmacology, Cell Membrane drug effects, Lipidoses chemically induced, Phenyl Ethers pharmacology, Phosphatidylserines biosynthesis, Phospholipids blood
Abstract

N,N-Diethyl-2-[4-(phenylmethyl)phenoxy]ethanamine (DPPE, tesmilifene), a potent chemopotentiating drug currently in Phase III clinical trials of metastatic breast cancer, increases cytotoxicity of anthracyclines and taxanes in a variety of multi-drug resistance expressing (MDR+) tumor cell lines in vitro; inhibits binding of histamine to CYP3A4, a lipid/prostanoid-regulatory P450; and modulates serum levels of HDL/LDL cholesterol and phospholipids in vivo. Since increased exposure of phosphatidylserine (PS) on the outer cell membrane leaflet is associated with apoptosis, increased clearance of dead cells by phagocytes and inhibition of the P-glycoprotein pump, the effect of DPPE on PS synthesis was assessed in vitro in a human breast cancer cell line. MCF-7 cells were incubated with 5 microM DPPE for 24 hr or 5 days, followed by addition of [1-(14)C]arachidonic acid for 4 hr; or [3H]serine for 8 hr. Compared to untreated cells, a 27-42% (p < 0.05) increase in [1-(14)C]arachidonic acid incorporated into all phospholipids, including a 1.9-fold increase (p < 0.05) in PS was observed in DPPE-treated cells. [3H]Serine incorporation into PS was elevated 37%, while the pool size of PS was elevated 23% (p < 0.05) in DPPE-treated cells, indicating elevated de novo PS biosynthesis. Annexin-5 binding studies indicated an elevation in exposure of PS on the surface of the plasma membrane in DPPE-treated cells. DPPE-treatment also resulted in N-(7-nitrobenz-2-oxa-1,3-diazol-4-yl)-1,2-dihexadecanoyl-sn-glycero-3-phosphoethanolamine accumulation indicative of phospholipidosis-inducing potential. Thus, the chemopotentiating effect of DPPE may be due to its phospholipidosis-inducing potential and stimulation of PS synthesis leading to an increased exposure of PS on the cell surface which could potentially enhance cancer cell clearance by phagocytes.

Published
2007

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