A Role for Cytosolic Fumarate Hydratase in Urea Cycle Metabolism and Renal Neoplasia

J. Adam; M. Yang; C. Bauerschmidt; L. O'Flaherty; P. Maheswaran; G. Özkan; P.J. Pollard; C. Pugh; P.J. Ratcliffe; M. Kitagawa; K. Kato; K. Saito; K. Iino; K. Igarashi; T. Soga; N. Sahgal; D. Baban; B. Davies; M. Stratford; D.A. Tennant; C. Ludwig; M. El-Bahrawy; H. Ashrafian

doi:10.1016/j.celrep.2013.04.006

A Role for Cytosolic Fumarate Hydratase in Urea Cycle Metabolism and Renal Neoplasia

J. Adam, M. Yang, C. Bauerschmidt, L. O'Flaherty, P. Maheswaran, G. Özkan, P.J. Pollard, C. Pugh, P.J. Ratcliffe, M. Kitagawa, K. Kato, K. Saito, K. Iino, K. Igarashi, T. Soga, N. Sahgal, D. Baban, B. Davies, M. Stratford, D.A. TennantC. Ludwig, M. El-Bahrawy, H. Ashrafian

Cancer and Genomic Sciences

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Abstract

The identification of mutated metabolic enzymes in hereditary cancer syndromes has established a direct link between metabolic dysregulation and cancer. Mutations in the Krebs cycle enzyme, fumarate hydratase (FH), predispose affected individuals to leiomyomas, renal cysts, and cancers, though the respective pathogenic roles of mitochondrial and cytosolic FH isoforms remain undefined. On the basis of comprehensive metabolomic analyses, we demonstrate that FH1-deficient cells and tissues exhibit defects in the urea cycle/arginine metabolism. Remarkably, transgenic re-expression of cytosolic FH ameliorated both renal cyst development and urea cycle defects associated with renal-specific FH1 deletion in mice. Furthermore, acute arginine depletion significantly reduced the viability of FH1-deficient cells in comparison to controls. Our findings highlight the importance of extramitochondrial metabolic pathways in FH-associated oncogenesis and the urea cycle/arginine metabolism as a potential therapeutic target.

Original language	English
Pages (from-to)	1440-1448
Number of pages	9
Journal	Cell Reports
Volume	3
Issue number	5
Early online date	2 May 2013
DOIs	https://doi.org/10.1016/j.celrep.2013.04.006
Publication status	Published - 30 May 2013

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10.1016/j.celrep.2013.04.006

Adam_et_al_Role_for_cytosolic_fumarate_hydratase_Cell_Reports_2013
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Adam, J., Yang, M., Bauerschmidt, C., O'Flaherty, L., Maheswaran, P., Özkan, G., Pollard, P. J., Pugh, C., Ratcliffe, P. J., Kitagawa, M., Kato, K., Saito, K., Iino, K., Igarashi, K., Soga, T., Sahgal, N., Baban, D., Davies, B., Stratford, M., ... Ashrafian, H. (2013). A Role for Cytosolic Fumarate Hydratase in Urea Cycle Metabolism and Renal Neoplasia. Cell Reports, 3(5), 1440-1448. Advance online publication. https://doi.org/10.1016/j.celrep.2013.04.006

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title = "A Role for Cytosolic Fumarate Hydratase in Urea Cycle Metabolism and Renal Neoplasia",

abstract = "The identification of mutated metabolic enzymes in hereditary cancer syndromes has established a direct link between metabolic dysregulation and cancer. Mutations in the Krebs cycle enzyme, fumarate hydratase (FH), predispose affected individuals to leiomyomas, renal cysts, and cancers, though the respective pathogenic roles of mitochondrial and cytosolic FH isoforms remain undefined. On the basis of comprehensive metabolomic analyses, we demonstrate that FH1-deficient cells and tissues exhibit defects in the urea cycle/arginine metabolism. Remarkably, transgenic re-expression of cytosolic FH ameliorated both renal cyst development and urea cycle defects associated with renal-specific FH1 deletion in mice. Furthermore, acute arginine depletion significantly reduced the viability of FH1-deficient cells in comparison to controls. Our findings highlight the importance of extramitochondrial metabolic pathways in FH-associated oncogenesis and the urea cycle/arginine metabolism as a potential therapeutic target.",

author = "J. Adam and M. Yang and C. Bauerschmidt and L. O'Flaherty and P. Maheswaran and G. {\"O}zkan and P.J. Pollard and C. Pugh and P.J. Ratcliffe and M. Kitagawa and K. Kato and K. Saito and K. Iino and K. Igarashi and T. Soga and N. Sahgal and D. Baban and B. Davies and M. Stratford and D.A. Tennant and C. Ludwig and M. El-Bahrawy and H. Ashrafian",

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Adam, J, Yang, M, Bauerschmidt, C, O'Flaherty, L, Maheswaran, P, Özkan, G, Pollard, PJ, Pugh, C, Ratcliffe, PJ, Kitagawa, M, Kato, K, Saito, K, Iino, K, Igarashi, K, Soga, T, Sahgal, N, Baban, D, Davies, B, Stratford, M, Tennant, DA , Ludwig, C, El-Bahrawy, M & Ashrafian, H 2013, 'A Role for Cytosolic Fumarate Hydratase in Urea Cycle Metabolism and Renal Neoplasia', Cell Reports, vol. 3, no. 5, pp. 1440-1448. https://doi.org/10.1016/j.celrep.2013.04.006

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T1 - A Role for Cytosolic Fumarate Hydratase in Urea Cycle Metabolism and Renal Neoplasia

AU - Adam, J.

AU - Yang, M.

AU - Bauerschmidt, C.

AU - O'Flaherty, L.

AU - Maheswaran, P.

AU - Özkan, G.

AU - Pollard, P.J.

AU - Pugh, C.

AU - Ratcliffe, P.J.

AU - Kitagawa, M.

AU - Kato, K.

AU - Saito, K.

AU - Iino, K.

AU - Igarashi, K.

AU - Soga, T.

AU - Sahgal, N.

AU - Baban, D.

AU - Davies, B.

AU - Stratford, M.

AU - Tennant, D.A.

AU - Ludwig, C.

AU - El-Bahrawy, M.

AU - Ashrafian, H.

PY - 2013/5/30

Y1 - 2013/5/30

N2 - The identification of mutated metabolic enzymes in hereditary cancer syndromes has established a direct link between metabolic dysregulation and cancer. Mutations in the Krebs cycle enzyme, fumarate hydratase (FH), predispose affected individuals to leiomyomas, renal cysts, and cancers, though the respective pathogenic roles of mitochondrial and cytosolic FH isoforms remain undefined. On the basis of comprehensive metabolomic analyses, we demonstrate that FH1-deficient cells and tissues exhibit defects in the urea cycle/arginine metabolism. Remarkably, transgenic re-expression of cytosolic FH ameliorated both renal cyst development and urea cycle defects associated with renal-specific FH1 deletion in mice. Furthermore, acute arginine depletion significantly reduced the viability of FH1-deficient cells in comparison to controls. Our findings highlight the importance of extramitochondrial metabolic pathways in FH-associated oncogenesis and the urea cycle/arginine metabolism as a potential therapeutic target.

AB - The identification of mutated metabolic enzymes in hereditary cancer syndromes has established a direct link between metabolic dysregulation and cancer. Mutations in the Krebs cycle enzyme, fumarate hydratase (FH), predispose affected individuals to leiomyomas, renal cysts, and cancers, though the respective pathogenic roles of mitochondrial and cytosolic FH isoforms remain undefined. On the basis of comprehensive metabolomic analyses, we demonstrate that FH1-deficient cells and tissues exhibit defects in the urea cycle/arginine metabolism. Remarkably, transgenic re-expression of cytosolic FH ameliorated both renal cyst development and urea cycle defects associated with renal-specific FH1 deletion in mice. Furthermore, acute arginine depletion significantly reduced the viability of FH1-deficient cells in comparison to controls. Our findings highlight the importance of extramitochondrial metabolic pathways in FH-associated oncogenesis and the urea cycle/arginine metabolism as a potential therapeutic target.

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JO - Cell Reports

JF - Cell Reports

IS - 5

ER -

A Role for Cytosolic Fumarate Hydratase in Urea Cycle Metabolism and Renal Neoplasia

Abstract

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