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

Sriskanthadevan, Shrivani; Jeyaraju, Danny V; Chung, Timothy E; Prabha, Swayam; Xu, Wei; Skrtic, Marko; Jhas, Bozhena; Hurren, Rose; Gronda, Marcela; Wang, Xiaoming; Jitkova, Yulia; Sukhai, Mahadeo A; Lin, Feng-Hsu; Maclean, Neil; Laister, Rob; Goard, Carolyn A; Mullen, Peter J; Xie, Stephanie; Penn, Linda Z; Rogers, Ian M; Dick, John E; Minden, Mark D; Schimmer, Aaron D

Sriskanthadevan, Shrivani; Jeyaraju, Danny V; Chung, Timothy E; Prabha, Swayam; Xu, Wei; Skrtic, Marko; Jhas, Bozhena; Hurren, Rose; Gronda, Marcela; Wang, Xiaoming; Jitkova, Yulia; Sukhai, Mahadeo A; Lin, Feng-Hsu; Maclean, Neil; Laister, Rob; Goard, Carolyn A; Mullen, Peter J; Xie, Stephanie; Penn, Linda Z; Rogers, Ian M; Dick, John E; Minden, Mark D; Schimmer, Aaron D.

Afiliação

Sriskanthadevan S; Princess Margaret Cancer Centre, Ontario Cancer Institute, Toronto, ON, Canada;
Jeyaraju DV; Princess Margaret Cancer Centre, Ontario Cancer Institute, Toronto, ON, Canada;
Chung TE; Princess Margaret Cancer Centre, Ontario Cancer Institute, Toronto, ON, Canada;
Prabha S; Princess Margaret Cancer Centre, Ontario Cancer Institute, Toronto, ON, Canada;
Xu W; Princess Margaret Cancer Centre, Ontario Cancer Institute, Toronto, ON, Canada;
Skrtic M; Princess Margaret Cancer Centre, Ontario Cancer Institute, Toronto, ON, Canada;
Jhas B; Princess Margaret Cancer Centre, Ontario Cancer Institute, Toronto, ON, Canada;
Hurren R; Princess Margaret Cancer Centre, Ontario Cancer Institute, Toronto, ON, Canada;
Gronda M; Princess Margaret Cancer Centre, Ontario Cancer Institute, Toronto, ON, Canada;
Wang X; Princess Margaret Cancer Centre, Ontario Cancer Institute, Toronto, ON, Canada;
Jitkova Y; Princess Margaret Cancer Centre, Ontario Cancer Institute, Toronto, ON, Canada;
Sukhai MA; Princess Margaret Cancer Centre, Ontario Cancer Institute, Toronto, ON, Canada;
Lin FH; Princess Margaret Cancer Centre, Ontario Cancer Institute, Toronto, ON, Canada;
Maclean N; Princess Margaret Cancer Centre, Ontario Cancer Institute, Toronto, ON, Canada;
Laister R; Princess Margaret Cancer Centre, Ontario Cancer Institute, Toronto, ON, Canada;
Goard CA; Princess Margaret Cancer Centre, Ontario Cancer Institute, Toronto, ON, Canada;
Mullen PJ; Princess Margaret Cancer Centre, Ontario Cancer Institute, Toronto, ON, Canada;
Xie S; Division of Stem Cell and Developmental Biology, Campbell Family Institute for Cancer Research/Ontario Cancer Institute, Toronto, ON, Canada; and.
Penn LZ; Princess Margaret Cancer Centre, Ontario Cancer Institute, Toronto, ON, Canada;
Rogers IM; Samuel Lunenfeld Research Institute, Mount Sinai Hospital, Toronto, ON, Canada.
Dick JE; Princess Margaret Cancer Centre, Ontario Cancer Institute, Toronto, ON, Canada; Division of Stem Cell and Developmental Biology, Campbell Family Institute for Cancer Research/Ontario Cancer Institute, Toronto, ON, Canada; and.
Minden MD; Princess Margaret Cancer Centre, Ontario Cancer Institute, Toronto, ON, Canada;
Schimmer AD; Princess Margaret Cancer Centre, Ontario Cancer Institute, Toronto, ON, Canada;

Blood ; 125(13): 2120-30, 2015 Mar 26.

Article em En | MEDLINE | ID: mdl-25631767

ABSTRACT

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.

Assuntos

Leucemia Mieloide Aguda/metabolismo; Leucemia Mieloide Aguda/patologia; Estresse Oxidativo/fisiologia; Consumo de Oxigênio; Morte Celular; Respiração Celular; Transporte de Elétrons; Humanos; Tamanho Mitocondrial; Consumo de Oxigênio/fisiologia; Espécies Reativas de Oxigênio/metabolismo; Células Tumorais Cultivadas

Texto completo

Imprimir

XML

PubMed Links

Buscar no Google

Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Assunto principal: Consumo de Oxigênio / Leucemia Mieloide Aguda / Estresse Oxidativo Limite: Humans Idioma: En Revista: Blood Ano de publicação: 2015 Tipo de documento: Article

Texto completo

Imprimir

XML

PubMed Links

Buscar no Google