Proteogenomic Markers of Chemotherapy Resistance and Response in Triple-Negative Breast Cancer

Meenakshi Anurag; Eric J. Jaehnig; Karsten Krug; Jonathan T. Lei; Erik J. Bergstrom; Beom Jun Kim; Tanmayi D. Vashist; Anh Minh Tran Huynh; Yongchao Dou; Xuxu Gou; Chen Huang; Zhiao Shi; Bo Wen; Viktoriya Korchina; Richard A. Gibbs; Donna M. Muzny; Harshavardhan Doddapaneni; Lacey E. Dobrolecki; Henry Rodriguez; Ana I. Robles; Tara Hiltke; Michael T. Lewis; Julie R. Nangia; Maryam Nemati Shafaee; Shunqiang Li; Ian S. Hagemann; Jeremy Hoog; Bora Lim; C. Kent Osborne; D. R. Mani; Michael A. Gillette; Bing Zhang; Gloria V. Echeverria; George Miles; Mothaffar F. Rimawi; Steven A. Carr; Foluso O. Ademuyiwa; Shankha Satpathy; Matthew J. Ellis

doi:10.1158/2159-8290.CD-22-0200

Proteogenomic Markers of Chemotherapy Resistance and Response in Triple-Negative Breast Cancer

Meenakshi Anurag, Eric J. Jaehnig, Karsten Krug, Jonathan T. Lei, Erik J. Bergstrom, Beom Jun Kim, Tanmayi D. Vashist, Anh Minh Tran Huynh, Yongchao Dou, Xuxu Gou, Chen Huang, Zhiao Shi, Bo Wen, Viktoriya Korchina, Richard A. Gibbs, Donna M. Muzny, Harshavardhan Doddapaneni, Lacey E. Dobrolecki, Henry Rodriguez, Ana I. RoblesTara Hiltke, Michael T. Lewis, Julie R. Nangia, Maryam Nemati Shafaee, Shunqiang Li, Ian S. Hagemann, Jeremy Hoog, Bora Lim, C. Kent Osborne, D. R. Mani, Michael A. Gillette, Bing Zhang, Gloria V. Echeverria, George Miles, Mothaffar F. Rimawi, Steven A. Carr, Foluso O. Ademuyiwa, Shankha Satpathy, Matthew J. Ellis

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Abstract

Microscaled proteogenomics was deployed to probe the molecular basis for differential response to neoadjuvant carboplatin and docetaxel combination chemo therapy for triple-negative breast cancer (TNBC). Proteomic analyses of pretreatment patient biopsies uniquely revealed metabolic pathways, including oxidative phosphorylation, adipogenesis, and fatty acid metabolism, that were associated with resistance. Both proteomics and transcriptomics revealed that sensitivity was marked by elevation of DNA repair, E2F targets, G₂–M checkpoint, interferongamma signaling, and immune-checkpoint components. Proteogenomic analyses of somatic copy-number aberrations identified a resistance-associated 19q13.31–33 deletion where LIG1, POLD1, and XRCC1 are located. In orthogonal datasets, LIG1 (DNA ligase I) gene deletion and/or low mRNA expression levels were associated with lack of pathologic complete response, higher chromosomal instability index (CIN), and poor prognosis in TNBC, as well as carboplatin-selective resistance in TNBC preclinical models. Hemizygous loss of LIG1 was also associated with higher CIN and poor prognosis in other cancer types, demonstrating broader clinical implications. SIGNIFICANCE: Proteogenomic analysis of triple-negative breast tumors revealed a complex landscape of chemotherapy response associations, including a 19q13.31–33 somatic deletion encoding genes serving lagging-strand DNA synthesis (LIG1, POLD1, and XRCC1), that correlate with lack of pathologic response, carboplatin-selective resistance, and, in pan-cancer studies, poor prognosis and CIN.

Original language	English (US)
Pages (from-to)	2586-2605
Number of pages	20
Journal	Cancer discovery
Volume	12
Issue number	11
DOIs	https://doi.org/10.1158/2159-8290.CD-22-0200
State	Published - Nov 1 2022

ASJC Scopus subject areas

Oncology

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Anurag, M., Jaehnig, E. J., Krug, K., Lei, J. T., Bergstrom, E. J., Kim, B. J., Vashist, T. D., Huynh, A. M. T., Dou, Y., Gou, X., Huang, C., Shi, Z., Wen, B., Korchina, V., Gibbs, R. A., Muzny, D. M., Doddapaneni, H., Dobrolecki, L. E., Rodriguez, H., ... Ellis, M. J. (2022). Proteogenomic Markers of Chemotherapy Resistance and Response in Triple-Negative Breast Cancer. Cancer discovery, 12(11), 2586-2605. https://doi.org/10.1158/2159-8290.CD-22-0200

Anurag, M, Jaehnig, EJ, Krug, K, Lei, JT, Bergstrom, EJ, Kim, BJ, Vashist, TD, Huynh, AMT, Dou, Y, Gou, X, Huang, C, Shi, Z, Wen, B, Korchina, V, Gibbs, RA, Muzny, DM, Doddapaneni, H, Dobrolecki, LE, Rodriguez, H, Robles, AI, Hiltke, T, Lewis, MT, Nangia, JR, Shafaee, MN, Li, S, Hagemann, IS, Hoog, J, Lim, B, Osborne, CK, Mani, DR, Gillette, MA, Zhang, B, Echeverria, GV, Miles, G, Rimawi, MF, Carr, SA, Ademuyiwa, FO, Satpathy, S & Ellis, MJ 2022, 'Proteogenomic Markers of Chemotherapy Resistance and Response in Triple-Negative Breast Cancer', Cancer discovery, vol. 12, no. 11, pp. 2586-2605. https://doi.org/10.1158/2159-8290.CD-22-0200

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title = "Proteogenomic Markers of Chemotherapy Resistance and Response in Triple-Negative Breast Cancer",

abstract = "Microscaled proteogenomics was deployed to probe the molecular basis for differential response to neoadjuvant carboplatin and docetaxel combination chemo therapy for triple-negative breast cancer (TNBC). Proteomic analyses of pretreatment patient biopsies uniquely revealed metabolic pathways, including oxidative phosphorylation, adipogenesis, and fatty acid metabolism, that were associated with resistance. Both proteomics and transcriptomics revealed that sensitivity was marked by elevation of DNA repair, E2F targets, G2–M checkpoint, interferongamma signaling, and immune-checkpoint components. Proteogenomic analyses of somatic copy-number aberrations identified a resistance-associated 19q13.31–33 deletion where LIG1, POLD1, and XRCC1 are located. In orthogonal datasets, LIG1 (DNA ligase I) gene deletion and/or low mRNA expression levels were associated with lack of pathologic complete response, higher chromosomal instability index (CIN), and poor prognosis in TNBC, as well as carboplatin-selective resistance in TNBC preclinical models. Hemizygous loss of LIG1 was also associated with higher CIN and poor prognosis in other cancer types, demonstrating broader clinical implications. SIGNIFICANCE: Proteogenomic analysis of triple-negative breast tumors revealed a complex landscape of chemotherapy response associations, including a 19q13.31–33 somatic deletion encoding genes serving lagging-strand DNA synthesis (LIG1, POLD1, and XRCC1), that correlate with lack of pathologic response, carboplatin-selective resistance, and, in pan-cancer studies, poor prognosis and CIN.",

author = "Meenakshi Anurag and Jaehnig, {Eric J.} and Karsten Krug and Lei, {Jonathan T.} and Bergstrom, {Erik J.} and Kim, {Beom Jun} and Vashist, {Tanmayi D.} and Huynh, {Anh Minh Tran} and Yongchao Dou and Xuxu Gou and Chen Huang and Zhiao Shi and Bo Wen and Viktoriya Korchina and Gibbs, {Richard A.} and Muzny, {Donna M.} and Harshavardhan Doddapaneni and Dobrolecki, {Lacey E.} and Henry Rodriguez and Robles, {Ana I.} and Tara Hiltke and Lewis, {Michael T.} and Nangia, {Julie R.} and Shafaee, {Maryam Nemati} and Shunqiang Li and Hagemann, {Ian S.} and Jeremy Hoog and Bora Lim and Osborne, {C. Kent} and Mani, {D. R.} and Gillette, {Michael A.} and Bing Zhang and Echeverria, {Gloria V.} and George Miles and Rimawi, {Mothaffar F.} and Carr, {Steven A.} and Ademuyiwa, {Foluso O.} and Shankha Satpathy and Ellis, {Matthew J.}",

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year = "2022",

month = nov,

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doi = "10.1158/2159-8290.CD-22-0200",

language = "English (US)",

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pages = "2586--2605",

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T1 - Proteogenomic Markers of Chemotherapy Resistance and Response in Triple-Negative Breast Cancer

AU - Anurag, Meenakshi

AU - Jaehnig, Eric J.

AU - Krug, Karsten

AU - Lei, Jonathan T.

AU - Bergstrom, Erik J.

AU - Kim, Beom Jun

AU - Vashist, Tanmayi D.

AU - Huynh, Anh Minh Tran

AU - Dou, Yongchao

AU - Gou, Xuxu

AU - Huang, Chen

AU - Shi, Zhiao

AU - Wen, Bo

AU - Korchina, Viktoriya

AU - Gibbs, Richard A.

AU - Muzny, Donna M.

AU - Doddapaneni, Harshavardhan

AU - Dobrolecki, Lacey E.

AU - Rodriguez, Henry

AU - Robles, Ana I.

AU - Hiltke, Tara

AU - Lewis, Michael T.

AU - Nangia, Julie R.

AU - Shafaee, Maryam Nemati

AU - Li, Shunqiang

AU - Hagemann, Ian S.

AU - Hoog, Jeremy

AU - Lim, Bora

AU - Osborne, C. Kent

AU - Mani, D. R.

AU - Gillette, Michael A.

AU - Zhang, Bing

AU - Echeverria, Gloria V.

AU - Miles, George

AU - Rimawi, Mothaffar F.

AU - Carr, Steven A.

AU - Ademuyiwa, Foluso O.

AU - Satpathy, Shankha

AU - Ellis, Matthew J.

PY - 2022/11/1

Y1 - 2022/11/1

N2 - Microscaled proteogenomics was deployed to probe the molecular basis for differential response to neoadjuvant carboplatin and docetaxel combination chemo therapy for triple-negative breast cancer (TNBC). Proteomic analyses of pretreatment patient biopsies uniquely revealed metabolic pathways, including oxidative phosphorylation, adipogenesis, and fatty acid metabolism, that were associated with resistance. Both proteomics and transcriptomics revealed that sensitivity was marked by elevation of DNA repair, E2F targets, G2–M checkpoint, interferongamma signaling, and immune-checkpoint components. Proteogenomic analyses of somatic copy-number aberrations identified a resistance-associated 19q13.31–33 deletion where LIG1, POLD1, and XRCC1 are located. In orthogonal datasets, LIG1 (DNA ligase I) gene deletion and/or low mRNA expression levels were associated with lack of pathologic complete response, higher chromosomal instability index (CIN), and poor prognosis in TNBC, as well as carboplatin-selective resistance in TNBC preclinical models. Hemizygous loss of LIG1 was also associated with higher CIN and poor prognosis in other cancer types, demonstrating broader clinical implications. SIGNIFICANCE: Proteogenomic analysis of triple-negative breast tumors revealed a complex landscape of chemotherapy response associations, including a 19q13.31–33 somatic deletion encoding genes serving lagging-strand DNA synthesis (LIG1, POLD1, and XRCC1), that correlate with lack of pathologic response, carboplatin-selective resistance, and, in pan-cancer studies, poor prognosis and CIN.

AB - Microscaled proteogenomics was deployed to probe the molecular basis for differential response to neoadjuvant carboplatin and docetaxel combination chemo therapy for triple-negative breast cancer (TNBC). Proteomic analyses of pretreatment patient biopsies uniquely revealed metabolic pathways, including oxidative phosphorylation, adipogenesis, and fatty acid metabolism, that were associated with resistance. Both proteomics and transcriptomics revealed that sensitivity was marked by elevation of DNA repair, E2F targets, G2–M checkpoint, interferongamma signaling, and immune-checkpoint components. Proteogenomic analyses of somatic copy-number aberrations identified a resistance-associated 19q13.31–33 deletion where LIG1, POLD1, and XRCC1 are located. In orthogonal datasets, LIG1 (DNA ligase I) gene deletion and/or low mRNA expression levels were associated with lack of pathologic complete response, higher chromosomal instability index (CIN), and poor prognosis in TNBC, as well as carboplatin-selective resistance in TNBC preclinical models. Hemizygous loss of LIG1 was also associated with higher CIN and poor prognosis in other cancer types, demonstrating broader clinical implications. SIGNIFICANCE: Proteogenomic analysis of triple-negative breast tumors revealed a complex landscape of chemotherapy response associations, including a 19q13.31–33 somatic deletion encoding genes serving lagging-strand DNA synthesis (LIG1, POLD1, and XRCC1), that correlate with lack of pathologic response, carboplatin-selective resistance, and, in pan-cancer studies, poor prognosis and CIN.

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Proteogenomic Markers of Chemotherapy Resistance and Response in Triple-Negative Breast Cancer

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