CPS1 maintains pyrimidine pools and DNA synthesis in KRAS/LKB1-mutant lung cancer cells

Jiyeon Kim; Zeping Hu; Ling Cai; Kailong Li; Eunhee Choi; Brandon Faubert; Divya Bezwada; Jaime Rodriguez-Canales; Pamela Villalobos; Yu Fen Lin; Min Ni; Kenneth E. Huffman; Luc Girard; Lauren A. Byers; Keziban Unsal-Kacmaz; Christopher G. Peña; John V. Heymach; Els Wauters; Johan Vansteenkiste; Diego H. Castrillon; Benjamin P.C. Chen; Ignacio Wistuba; Diether Lambrechts; Jian Xu; John D. Minna; Ralph J. Deberardinis

doi:10.1038/nature22359

CPS1 maintains pyrimidine pools and DNA synthesis in KRAS/LKB1-mutant lung cancer cells

Jiyeon Kim, Zeping Hu, Ling Cai, Kailong Li, Eunhee Choi, Brandon Faubert, Divya Bezwada, Jaime Rodriguez-Canales, Pamela Villalobos, Yu Fen Lin, Min Ni, Kenneth E. Huffman, Luc Girard, Lauren A. Byers, Keziban Unsal-Kacmaz, Christopher G. Peña, John V. Heymach, Els Wauters, Johan Vansteenkiste, Diego H. CastrillonBenjamin P.C. Chen, Ignacio Wistuba, Diether Lambrechts, Jian Xu, John D. Minna, Ralph J. Deberardinis

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Abstract

Metabolic reprogramming by oncogenic signals promotes cancer initiation and progression. The oncogene KRAS and tumour suppressor STK11, which encodes the kinase LKB1, regulate metabolism and are frequently mutated in non-small-cell lung cancer (NSCLC). Concurrent occurrence of oncogenic KRAS and loss of LKB1 (KL) in cells specifies aggressive oncological behaviour. Here we show that human KL cells and tumours share metabolomic signatures of perturbed nitrogen handling. KL cells express the urea cycle enzyme carbamoyl phosphate synthetase-1 (CPS1), which produces carbamoyl phosphate in the mitochondria from ammonia and bicarbonate, initiating nitrogen disposal. Transcription of CPS1 is suppressed by LKB1 through AMPK, and CPS1 expression correlates inversely with LKB1 in human NSCLC. Silencing CPS1 in KL cells induces cell death and reduces tumour growth. Notably, cell death results from pyrimidine depletion rather than ammonia toxicity, as CPS1 enables an unconventional pathway of nitrogen flow from ammonia into pyrimidines. CPS1 loss reduces the pyrimidine to purine ratio, compromises S-phase progression and induces DNA-polymerase stalling and DNA damage. Exogenous pyrimidines reverse DNA damage and rescue growth. The data indicate that the KL oncological genotype imposes a metabolic vulnerability related to a dependence on a cross-compartmental pathway of pyrimidine metabolism in an aggressive subset of NSCLC.

Original language	English (US)
Pages (from-to)	168-172
Number of pages	5
Journal	Nature
Volume	546
Issue number	7656
DOIs	https://doi.org/10.1038/nature22359
State	Published - Jun 1 2017

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Kim, J., Hu, Z., Cai, L., Li, K., Choi, E., Faubert, B., Bezwada, D., Rodriguez-Canales, J., Villalobos, P., Lin, Y. F., Ni, M., Huffman, K. E., Girard, L., Byers, L. A., Unsal-Kacmaz, K., Peña, C. G., Heymach, J. V., Wauters, E., Vansteenkiste, J., ... Deberardinis, R. J. (2017). CPS1 maintains pyrimidine pools and DNA synthesis in KRAS/LKB1-mutant lung cancer cells. Nature, 546(7656), 168-172. https://doi.org/10.1038/nature22359

Kim, J, Hu, Z, Cai, L, Li, K, Choi, E, Faubert, B, Bezwada, D, Rodriguez-Canales, J, Villalobos, P, Lin, YF, Ni, M, Huffman, KE, Girard, L, Byers, LA, Unsal-Kacmaz, K, Peña, CG, Heymach, JV, Wauters, E, Vansteenkiste, J, Castrillon, DH, Chen, BPC, Wistuba, I, Lambrechts, D, Xu, J, Minna, JD & Deberardinis, RJ 2017, 'CPS1 maintains pyrimidine pools and DNA synthesis in KRAS/LKB1-mutant lung cancer cells', Nature, vol. 546, no. 7656, pp. 168-172. https://doi.org/10.1038/nature22359

@article{9c5cbc0228fa4d28934c4a1af9f84702,

title = "CPS1 maintains pyrimidine pools and DNA synthesis in KRAS/LKB1-mutant lung cancer cells",

abstract = "Metabolic reprogramming by oncogenic signals promotes cancer initiation and progression. The oncogene KRAS and tumour suppressor STK11, which encodes the kinase LKB1, regulate metabolism and are frequently mutated in non-small-cell lung cancer (NSCLC). Concurrent occurrence of oncogenic KRAS and loss of LKB1 (KL) in cells specifies aggressive oncological behaviour. Here we show that human KL cells and tumours share metabolomic signatures of perturbed nitrogen handling. KL cells express the urea cycle enzyme carbamoyl phosphate synthetase-1 (CPS1), which produces carbamoyl phosphate in the mitochondria from ammonia and bicarbonate, initiating nitrogen disposal. Transcription of CPS1 is suppressed by LKB1 through AMPK, and CPS1 expression correlates inversely with LKB1 in human NSCLC. Silencing CPS1 in KL cells induces cell death and reduces tumour growth. Notably, cell death results from pyrimidine depletion rather than ammonia toxicity, as CPS1 enables an unconventional pathway of nitrogen flow from ammonia into pyrimidines. CPS1 loss reduces the pyrimidine to purine ratio, compromises S-phase progression and induces DNA-polymerase stalling and DNA damage. Exogenous pyrimidines reverse DNA damage and rescue growth. The data indicate that the KL oncological genotype imposes a metabolic vulnerability related to a dependence on a cross-compartmental pathway of pyrimidine metabolism in an aggressive subset of NSCLC.",

author = "Jiyeon Kim and Zeping Hu and Ling Cai and Kailong Li and Eunhee Choi and Brandon Faubert and Divya Bezwada and Jaime Rodriguez-Canales and Pamela Villalobos and Lin, {Yu Fen} and Min Ni and Huffman, {Kenneth E.} and Luc Girard and Byers, {Lauren A.} and Keziban Unsal-Kacmaz and Pe{\~n}a, {Christopher G.} and Heymach, {John V.} and Els Wauters and Johan Vansteenkiste and Castrillon, {Diego H.} and Chen, {Benjamin P.C.} and Ignacio Wistuba and Diether Lambrechts and Jian Xu and Minna, {John D.} and Deberardinis, {Ralph J.}",

note = "Funding Information: We thank A. Jaffe and members of the DeBerardinis laboratory for critiquing the manuscript and J. Kozlitina for statistical expertise. R.J.D. is supported by grants from the NIH (R01CA157996), Cancer Prevention and Research Institute of Texas (CPRIT RP130272), Robert A. Welch Foundation (I1733) and H.H.M.I. (Faculty Scholars Program). J.K. is supported by an American Lung Association Senior Research Training Fellowship (RT-306212). D.H.C. is supported by NIH grant (1R01CA196912). J.D.M., J.R.C., P.V. and I.W. are supported by the University of Texas Lung Specialized Programs of Research Excellence (SPORE) grant (P50CA70907). J.D.M. is also supported by NIH grant CA176284 and CPRIT grants RP120732 and RP110708.",

year = "2017",

month = jun,

day = "1",

doi = "10.1038/nature22359",

language = "English (US)",

volume = "546",

pages = "168--172",

journal = "Nature",

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T1 - CPS1 maintains pyrimidine pools and DNA synthesis in KRAS/LKB1-mutant lung cancer cells

AU - Kim, Jiyeon

AU - Hu, Zeping

AU - Cai, Ling

AU - Li, Kailong

AU - Choi, Eunhee

AU - Faubert, Brandon

AU - Bezwada, Divya

AU - Rodriguez-Canales, Jaime

AU - Villalobos, Pamela

AU - Lin, Yu Fen

AU - Ni, Min

AU - Huffman, Kenneth E.

AU - Girard, Luc

AU - Byers, Lauren A.

AU - Unsal-Kacmaz, Keziban

AU - Peña, Christopher G.

AU - Heymach, John V.

AU - Wauters, Els

AU - Vansteenkiste, Johan

AU - Castrillon, Diego H.

AU - Chen, Benjamin P.C.

AU - Wistuba, Ignacio

AU - Lambrechts, Diether

AU - Xu, Jian

AU - Minna, John D.

AU - Deberardinis, Ralph J.

N1 - Funding Information: We thank A. Jaffe and members of the DeBerardinis laboratory for critiquing the manuscript and J. Kozlitina for statistical expertise. R.J.D. is supported by grants from the NIH (R01CA157996), Cancer Prevention and Research Institute of Texas (CPRIT RP130272), Robert A. Welch Foundation (I1733) and H.H.M.I. (Faculty Scholars Program). J.K. is supported by an American Lung Association Senior Research Training Fellowship (RT-306212). D.H.C. is supported by NIH grant (1R01CA196912). J.D.M., J.R.C., P.V. and I.W. are supported by the University of Texas Lung Specialized Programs of Research Excellence (SPORE) grant (P50CA70907). J.D.M. is also supported by NIH grant CA176284 and CPRIT grants RP120732 and RP110708.

PY - 2017/6/1

Y1 - 2017/6/1

N2 - Metabolic reprogramming by oncogenic signals promotes cancer initiation and progression. The oncogene KRAS and tumour suppressor STK11, which encodes the kinase LKB1, regulate metabolism and are frequently mutated in non-small-cell lung cancer (NSCLC). Concurrent occurrence of oncogenic KRAS and loss of LKB1 (KL) in cells specifies aggressive oncological behaviour. Here we show that human KL cells and tumours share metabolomic signatures of perturbed nitrogen handling. KL cells express the urea cycle enzyme carbamoyl phosphate synthetase-1 (CPS1), which produces carbamoyl phosphate in the mitochondria from ammonia and bicarbonate, initiating nitrogen disposal. Transcription of CPS1 is suppressed by LKB1 through AMPK, and CPS1 expression correlates inversely with LKB1 in human NSCLC. Silencing CPS1 in KL cells induces cell death and reduces tumour growth. Notably, cell death results from pyrimidine depletion rather than ammonia toxicity, as CPS1 enables an unconventional pathway of nitrogen flow from ammonia into pyrimidines. CPS1 loss reduces the pyrimidine to purine ratio, compromises S-phase progression and induces DNA-polymerase stalling and DNA damage. Exogenous pyrimidines reverse DNA damage and rescue growth. The data indicate that the KL oncological genotype imposes a metabolic vulnerability related to a dependence on a cross-compartmental pathway of pyrimidine metabolism in an aggressive subset of NSCLC.

AB - Metabolic reprogramming by oncogenic signals promotes cancer initiation and progression. The oncogene KRAS and tumour suppressor STK11, which encodes the kinase LKB1, regulate metabolism and are frequently mutated in non-small-cell lung cancer (NSCLC). Concurrent occurrence of oncogenic KRAS and loss of LKB1 (KL) in cells specifies aggressive oncological behaviour. Here we show that human KL cells and tumours share metabolomic signatures of perturbed nitrogen handling. KL cells express the urea cycle enzyme carbamoyl phosphate synthetase-1 (CPS1), which produces carbamoyl phosphate in the mitochondria from ammonia and bicarbonate, initiating nitrogen disposal. Transcription of CPS1 is suppressed by LKB1 through AMPK, and CPS1 expression correlates inversely with LKB1 in human NSCLC. Silencing CPS1 in KL cells induces cell death and reduces tumour growth. Notably, cell death results from pyrimidine depletion rather than ammonia toxicity, as CPS1 enables an unconventional pathway of nitrogen flow from ammonia into pyrimidines. CPS1 loss reduces the pyrimidine to purine ratio, compromises S-phase progression and induces DNA-polymerase stalling and DNA damage. Exogenous pyrimidines reverse DNA damage and rescue growth. The data indicate that the KL oncological genotype imposes a metabolic vulnerability related to a dependence on a cross-compartmental pathway of pyrimidine metabolism in an aggressive subset of NSCLC.

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CPS1 maintains pyrimidine pools and DNA synthesis in KRAS/LKB1-mutant lung cancer cells

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