Literature DB >> 25631767

AML cells have low spare reserve capacity in their respiratory chain that renders them susceptible to oxidative metabolic stress.

Shrivani Sriskanthadevan1, Danny V Jeyaraju1, Timothy E Chung1, Swayam Prabha1, Wei Xu1, Marko Skrtic1, Bozhena Jhas1, Rose Hurren1, Marcela Gronda1, Xiaoming Wang1, Yulia Jitkova1, Mahadeo A Sukhai1, Feng-Hsu Lin1, Neil Maclean1, Rob Laister1, Carolyn A Goard1, Peter J Mullen1, Stephanie Xie2, Linda Z Penn1, Ian M Rogers3, John E Dick4, Mark D Minden1, Aaron D Schimmer1.   

Abstract

Mitochondrial respiration is a crucial component of cellular metabolism that can become dysregulated in cancer. Compared with normal hematopoietic cells, acute myeloid leukemia (AML) cells and patient samples have higher mitochondrial mass, without a concomitant increase in respiratory chain complex activity. Hence these cells have a lower spare reserve capacity in the respiratory chain and are more susceptible to oxidative stress. We therefore tested the effects of increasing the electron flux through the respiratory chain as a strategy to induce oxidative stress and cell death preferentially in AML cells. Treatment with the fatty acid palmitate induced oxidative stress and cell death in AML cells, and it suppressed tumor burden in leukemic cell lines and primary patient sample xenografts in the absence of overt toxicity to normal cells and organs. These data highlight a unique metabolic vulnerability in AML, and identify a new therapeutic strategy that targets abnormal oxidative metabolism in this malignancy.
© 2015 by The American Society of Hematology.

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Year:  2015        PMID: 25631767      PMCID: PMC4375109          DOI: 10.1182/blood-2014-08-594408

Source DB:  PubMed          Journal:  Blood        ISSN: 0006-4971            Impact factor:   22.113


  33 in total

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Journal:  Mol Cell Biochem       Date:  2010-03-30       Impact factor: 3.396

2.  Mitochondrial respiratory capacity is a critical regulator of CD8+ T cell memory development.

Authors:  Gerritje J W van der Windt; Bart Everts; Chih-Hao Chang; Jonathan D Curtis; Tori C Freitas; Eyal Amiel; Edward J Pearce; Erika L Pearce
Journal:  Immunity       Date:  2011-12-28       Impact factor: 31.745

3.  Increased mitochondrial fatty acid oxidation is sufficient to protect skeletal muscle cells from palmitate-induced apoptosis.

Authors:  Carole Henique; Abdelhak Mansouri; Gwladys Fumey; Veronique Lenoir; Jean Girard; Frederic Bouillaud; Carina Prip-Buus; Isabelle Cohen
Journal:  J Biol Chem       Date:  2010-09-12       Impact factor: 5.157

4.  Retinoic acid-induced differentiation increases the rate of oxygen consumption and enhances the spare respiratory capacity of mitochondria in SH-SY5Y cells.

Authors:  Zhiyin Xun; Do-Yup Lee; James Lim; Christie A Canaria; Adam Barnebey; Steven M Yanonne; Cynthia T McMurray
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Authors:  H C Lee; P H Yin; C Y Lu; C W Chi; Y H Wei
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Authors:  Ning Zhang; Andre F Palmer
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7.  Inhibition of mitochondrial translation as a therapeutic strategy for human acute myeloid leukemia.

Authors:  Marko Skrtić; Shrivani Sriskanthadevan; Bozhena Jhas; Marinella Gebbia; Xiaoming Wang; Zezhou Wang; Rose Hurren; Yulia Jitkova; Marcela Gronda; Neil Maclean; Courteney K Lai; Yanina Eberhard; Justyna Bartoszko; Paul Spagnuolo; Angela C Rutledge; Alessandro Datti; Troy Ketela; Jason Moffat; Brian H Robinson; Jessie H Cameron; Jeffery Wrana; Connie J Eaves; Mark D Minden; Jean C Y Wang; John E Dick; Keith Humphries; Corey Nislow; Guri Giaever; Aaron D Schimmer
Journal:  Cancer Cell       Date:  2011-11-15       Impact factor: 31.743

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Authors:  Luis E Raez; Kyriakos Papadopoulos; Alejandro D Ricart; E Gabriella Chiorean; Robert S Dipaola; Mark N Stein; Caio M Rocha Lima; James J Schlesselman; Khaled Tolba; Virginia K Langmuir; Stewart Kroll; Donald T Jung; Metin Kurtoglu; Joseph Rosenblatt; Theodore J Lampidis
Journal:  Cancer Chemother Pharmacol       Date:  2012-12-11       Impact factor: 3.333

9.  Bezafibrate can be a new treatment option for mitochondrial fatty acid oxidation disorders: evaluation by in vitro probe acylcarnitine assay.

Authors:  Seiji Yamaguchi; Hong Li; Jamiyan Purevsuren; Kenji Yamada; Midori Furui; Tomoo Takahashi; Yuichi Mushimoto; Hironori Kobayashi; Yuki Hasegawa; Takeshi Taketani; Toshiyuki Fukao; Seiji Fukuda
Journal:  Mol Genet Metab       Date:  2012-07-14       Impact factor: 4.797

10.  c-Myc suppression of miR-23a/b enhances mitochondrial glutaminase expression and glutamine metabolism.

Authors:  Ping Gao; Irina Tchernyshyov; Tsung-Cheng Chang; Yun-Sil Lee; Kayoko Kita; Takafumi Ochi; Karen I Zeller; Angelo M De Marzo; Jennifer E Van Eyk; Joshua T Mendell; Chi V Dang
Journal:  Nature       Date:  2009-02-15       Impact factor: 49.962
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  95 in total

1.  The Mitochondrial Transacylase, Tafazzin, Regulates for AML Stemness by Modulating Intracellular Levels of Phospholipids.

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Journal:  Cell Stem Cell       Date:  2019-03-28       Impact factor: 24.633

2.  An Automated Differential Nuclear Staining Assay for Accurate Determination of Mitocan Cytotoxicity.

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3.  Knockdown of BNIP3L or SQSTM1 alters cellular response to mitochondria target drugs.

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Journal:  Autophagy       Date:  2019-01-09       Impact factor: 16.016

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Authors:  Julie Mondet; Caroline Lo Presti; Catherine Garrel; Kristina Skaare; Clara Mariette; Sylvain Carras; Sophie Park; Martin Carré; Claude-Eric Bulabois; Lysiane Molina; Rémy Gressin; Anne Thiebaut; Stéphane Courby; Nuria Socoro-Yuste; Patrice Faure; Anne Mc Leer-Florin; Jean-Yves Cahn; Pascal Mossuz
Journal:  Haematologica       Date:  2019-02-28       Impact factor: 9.941

5.  Platelets from pulmonary hypertension patients show increased mitochondrial reserve capacity.

Authors:  Quyen L Nguyen; Catherine Corey; Pamela White; Annie Watson; Mark T Gladwin; Marc A Simon; Sruti Shiva
Journal:  JCI Insight       Date:  2017-03-09

6.  Protein Kinase C Epsilon Is a Key Regulator of Mitochondrial Redox Homeostasis in Acute Myeloid Leukemia.

Authors:  Daniela Di Marcantonio; Esteban Martinez; Simone Sidoli; Jessica Vadaketh; Margaret Nieborowska-Skorska; Anushk Gupta; Jake M Meadows; Francesca Ferraro; Elena Masselli; Grant A Challen; Michael D Milsom; Claudia Scholl; Stefan Fröhling; Siddharth Balachandran; Tomasz Skorski; Benjamin A Garcia; Prisco Mirandola; Giuliana Gobbi; Ramiro Garzon; Marco Vitale; Stephen M Sykes
Journal:  Clin Cancer Res       Date:  2017-11-10       Impact factor: 12.531

7.  Bardoxolone Methyl and a Related Triterpenoid Downregulate cMyc Expression in Leukemia Cells.

Authors:  Un-Ho Jin; Yating Cheng; Beiyan Zhou; Stephen Safe
Journal:  Mol Pharmacol       Date:  2017-03-08       Impact factor: 4.436

8.  Mitochondrial ClpP-Mediated Proteolysis Induces Selective Cancer Cell Lethality.

Authors:  Jo Ishizawa; Sarah F Zarabi; R Eric Davis; Ondrej Halgas; Takenobu Nii; Yulia Jitkova; Ran Zhao; Jonathan St-Germain; Lauren E Heese; Grace Egan; Vivian R Ruvolo; Samir H Barghout; Yuki Nishida; Rose Hurren; Wencai Ma; Marcela Gronda; Todd Link; Keith Wong; Mark Mabanglo; Kensuke Kojima; Gautam Borthakur; Neil MacLean; Man Chun John Ma; Andrew B Leber; Mark D Minden; Walid Houry; Hagop Kantarjian; Martin Stogniew; Brian Raught; Emil F Pai; Aaron D Schimmer; Michael Andreeff
Journal:  Cancer Cell       Date:  2019-05-02       Impact factor: 31.743

9.  Platelets Bioenergetics Screening Reflects the Impact of Brain Aβ Plaque Accumulation in a Rat Model of Alzheimer.

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Journal:  Neurochem Res       Date:  2018-10-24       Impact factor: 3.996

10.  Exogenous Gene Transmission of Isocitrate Dehydrogenase 2 Mimics Ischemic Preconditioning Protection.

Authors:  Alexander L Kolb; Peter R Corridon; Shijun Zhang; Weimin Xu; Frank A Witzmann; Jason A Collett; George J Rhodes; Seth Winfree; Devin Bready; Zechariah J Pfeffenberger; Jeremy M Pomerantz; Takashi Hato; Glenn T Nagami; Bruce A Molitoris; David P Basile; Simon J Atkinson; Robert L Bacallao
Journal:  J Am Soc Nephrol       Date:  2018-01-25       Impact factor: 10.121
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