Estradiol promotes pentose phosphate pathway addiction and cell survival via reactivation of Akt in mTORC1 hyperactive cells

Lymphangioleiomyomatosis (LAM) is a female-predominant interstitial lung disease that can lead to respiratory failure. LAM cells typically have inactivating TSC2 mutations, leading to mTORC1 activation. The gender specificity of LAM suggests that estradiol contributes to disease development, yet the...

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Bibliographic Details
Published in:Cell death & disease 2014-05, Vol.5 (5), p.e1231-e1231
Main Authors: Sun, Y, Gu, X, Zhang, E, Park, M-A, Pereira, A M, Wang, S, Morrison, T, Li, C, Blenis, J, Gerbaudo, V H, Henske, E P, Yu, J J
Format: Article
Language:English
Subjects:
631/443/319
631/67/322
692/420
692/699/1785
Animals
Antibodies
Biochemistry
Biomedical and Life Sciences
Breast Neoplasms - enzymology
Breast Neoplasms - genetics
Breast Neoplasms - pathology
Cell Biology
Cell Culture
Cell Line, Tumor
Cell Survival
Drug Implants
Enzyme Activation
Estradiol - administration & dosage
Estradiol - metabolism
Female
Gene Expression Profiling
Glucose - metabolism
Glucose Transporter Type 1 - metabolism
Glucose Transporter Type 2 - metabolism
Glucosephosphate Dehydrogenase - genetics
Glucosephosphate Dehydrogenase - metabolism
Humans
Immunology
Life Sciences
Lymphangioleiomyomatosis - enzymology
Lymphangioleiomyomatosis - genetics
Lymphangioleiomyomatosis - pathology
Mechanistic Target of Rapamycin Complex 1
Metabolomics
Mice
Mice, SCID
Multiprotein Complexes - metabolism
NADP - metabolism
Original
original-article
Oxidative Stress
Pentose Phosphate Pathway
Proto-Oncogene Proteins c-akt - metabolism
Rats
Reactive Oxygen Species - metabolism
RNA Interference
Signal Transduction
Time Factors
TOR Serine-Threonine Kinases - metabolism
Transfection
Tumor Suppressor Proteins - deficiency
Tumor Suppressor Proteins - genetics
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Summary:Lymphangioleiomyomatosis (LAM) is a female-predominant interstitial lung disease that can lead to respiratory failure. LAM cells typically have inactivating TSC2 mutations, leading to mTORC1 activation. The gender specificity of LAM suggests that estradiol contributes to disease development, yet the underlying pathogenic mechanisms are not completely understood. Using metabolomic profiling, we identified an estradiol-enhanced pentose phosphate pathway signature in Tsc2-deficient cells. Estradiol increased levels of cellular NADPH, decreased levels of reactive oxygen species, and enhanced cell survival under oxidative stress. Mechanistically, estradiol reactivated Akt in TSC2-deficient cells in vitro and in vivo , induced membrane translocation of glucose transporters (GLUT1 or GLUT4), and increased glucose uptake in an Akt-dependent manner. 18 F-FDG-PET imaging demonstrated enhanced glucose uptake in xenograft tumors of Tsc2-deficient cells from estradiol-treated mice. Expression array study identified estradiol-enhanced transcript levels of glucose-6-phosphate dehydrogenase (G6PD), the rate-limiting enzyme of the pentose phosphate pathway. Consistent with this, G6PD was abundant in xenograft tumors and lung metastatic lesions of Tsc2-deficient cells from estradiol-treated mice. Molecular depletion of G6PD attenuated estradiol-enhanced survival in vitro , and treatment with 6-aminonicotinamide, a competitive inhibitor of G6PD, reduced lung colonization of Tsc2-deficient cells. Collectively, these data indicate that estradiol promotes glucose metabolism in mTORC1 hyperactive cells through the pentose phosphate pathway via Akt reactivation and G6PD upregulation, thereby enhancing cell survival under oxidative stress. Interestingly, a strong correlation between estrogen exposure and G6PD was also found in breast cancer cells. Targeting the pentose phosphate pathway may have therapeutic benefit for LAM and possibly other hormonally dependent neoplasms.
ISSN:2041-4889
2041-4889
DOI:10.1038/cddis.2014.204