Associations between genetic variants and the effect of letrozole and exemestane on bone mass and bone turnover

Steffi Oesterreich; N. Lynn Henry; Kelley M. Kidwell; Catherine H. Van Poznak; Todd C. Skaar; Jessica Dantzer; Lang Li; Thomas N. Hangartner; Munro Peacock; Anne T. Nguyen; James M. Rae; Zeruesenay Desta; Santosh Philips; Anna M. Storniolo; Vered Stearns; Daniel F. Hayes; David A. Flockhart

doi:10.1007/s10549-015-3608-8

Associations between genetic variants and the effect of letrozole and exemestane on bone mass and bone turnover

Steffi Oesterreich, N. Lynn Henry, Kelley M. Kidwell, Catherine H. Van Poznak, Todd C. Skaar, Jessica Dantzer, Lang Li, Thomas N. Hangartner, Munro Peacock, Anne T. Nguyen, James M. Rae, Zeruesenay Desta, Santosh Philips, Anna M. Storniolo, Vered Stearns, Daniel F. Hayes, David A. Flockhart

School of Medicine

Research output: Contribution to journal › Article › peer-review

18 Scopus citations

Abstract

Adjuvant therapy for hormone receptor (HR) positive postmenopausal breast cancer patients includes aromatase inhibitors (AI). While both the non-steroidal AI letrozole and the steroidal AI exemestane decrease serum estrogen concentrations, there is evidence that exemestane may be less detrimental to bone. We hypothesized that single nucleotide polymorphisms (SNP) predict effects of AIs on bone turnover. Early stage HR-positive breast cancer patients were enrolled in a randomized trial of exemestane versus letrozole. Effects of AI on bone mineral density (BMD) and bone turnover markers (BTM), and associations between SNPs in 24 candidate genes and changes in BMD or BTM were determined. Of the 503 enrolled patients, paired BMD data were available for 123 and 101 patients treated with letrozole and exemestane, respectively, and paired BTM data were available for 175 and 173 patients, respectively. The mean change in lumbar spine BMD was significantly greater for letrozole-treated (−3.2 %) compared to exemestane-treated patients (−1.0 %) (p = 0.0016). Urine N-telopeptide was significantly increased in patients treated with exemestane (p = 0.001) but not letrozole. Two SNPs (rs4870061 and rs9322335) in ESR1 and one SNP (rs10140457) in ESR2 were associated with decreased BMD in letrozole-treated patients. In the exemestane-treated patients, SNPs in ESR1 (Rs2813543) and CYP19A1 (Rs6493497) were associated with decreased bone density. Exemestane had a less negative impact on bone density compared to letrozole, and the effects of AI therapy on bone may be impacted by genetic variants in the ER pathway.

Original language	English (US)
Pages (from-to)	263-273
Number of pages	11
Journal	Breast Cancer Research and Treatment
Volume	154
Issue number	2
DOIs	https://doi.org/10.1007/s10549-015-3608-8
State	Published - Nov 1 2015

Keywords

Aromatase inhibitors
Bone health
Breast cancer
Pharmacogenomics
Polymorphism

ASJC Scopus subject areas

Oncology
Cancer Research

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10.1007/s10549-015-3608-8

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Oesterreich, S., Henry, N. L., Kidwell, K. M., Van Poznak, C. H., Skaar, T. C., Dantzer, J., Li, L., Hangartner, T. N., Peacock, M., Nguyen, A. T., Rae, J. M., Desta, Z., Philips, S., Storniolo, A. M., Stearns, V., Hayes, D. F., & Flockhart, D. A. (2015). Associations between genetic variants and the effect of letrozole and exemestane on bone mass and bone turnover. Breast Cancer Research and Treatment, 154(2), 263-273. https://doi.org/10.1007/s10549-015-3608-8

Oesterreich, S, Henry, NL, Kidwell, KM, Van Poznak, CH, Skaar, TC, Dantzer, J, Li, L, Hangartner, TN, Peacock, M, Nguyen, AT, Rae, JM, Desta, Z, Philips, S, Storniolo, AM, Stearns, V, Hayes, DF & Flockhart, DA 2015, 'Associations between genetic variants and the effect of letrozole and exemestane on bone mass and bone turnover', Breast Cancer Research and Treatment, vol. 154, no. 2, pp. 263-273. https://doi.org/10.1007/s10549-015-3608-8

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title = "Associations between genetic variants and the effect of letrozole and exemestane on bone mass and bone turnover",

abstract = "Adjuvant therapy for hormone receptor (HR) positive postmenopausal breast cancer patients includes aromatase inhibitors (AI). While both the non-steroidal AI letrozole and the steroidal AI exemestane decrease serum estrogen concentrations, there is evidence that exemestane may be less detrimental to bone. We hypothesized that single nucleotide polymorphisms (SNP) predict effects of AIs on bone turnover. Early stage HR-positive breast cancer patients were enrolled in a randomized trial of exemestane versus letrozole. Effects of AI on bone mineral density (BMD) and bone turnover markers (BTM), and associations between SNPs in 24 candidate genes and changes in BMD or BTM were determined. Of the 503 enrolled patients, paired BMD data were available for 123 and 101 patients treated with letrozole and exemestane, respectively, and paired BTM data were available for 175 and 173 patients, respectively. The mean change in lumbar spine BMD was significantly greater for letrozole-treated (−3.2 %) compared to exemestane-treated patients (−1.0 %) (p = 0.0016). Urine N-telopeptide was significantly increased in patients treated with exemestane (p = 0.001) but not letrozole. Two SNPs (rs4870061 and rs9322335) in ESR1 and one SNP (rs10140457) in ESR2 were associated with decreased BMD in letrozole-treated patients. In the exemestane-treated patients, SNPs in ESR1 (Rs2813543) and CYP19A1 (Rs6493497) were associated with decreased bone density. Exemestane had a less negative impact on bone density compared to letrozole, and the effects of AI therapy on bone may be impacted by genetic variants in the ER pathway.",

keywords = "Aromatase inhibitors, Bone health, Breast cancer, Pharmacogenomics, Polymorphism",

author = "Steffi Oesterreich and Henry, {N. Lynn} and Kidwell, {Kelley M.} and {Van Poznak}, {Catherine H.} and Skaar, {Todd C.} and Jessica Dantzer and Lang Li and Hangartner, {Thomas N.} and Munro Peacock and Nguyen, {Anne T.} and Rae, {James M.} and Zeruesenay Desta and Santosh Philips and Storniolo, {Anna M.} and Vered Stearns and Hayes, {Daniel F.} and Flockhart, {David A.}",

note = "Funding Information: We thank the patients who participated in the study, and the treating physicians, research nurses, and data managers at the three sites. This study was supported in part by a Pharmacogenetics Research Network Grant # U-01 GM61373 (DAF) and Clinical Pharmacology training grant: 5T32-GM08425 (DAF) from the National Institute of General Medical Sciences, National Institutes of Health (NIH), Bethesda, MD, and by grant numbers M01-RR000042 (UM), M01-RR00750 (IU), and M01-RR00052 (JHU) from the National Center for Research Resources (NCRR), and by R01-GM-099143 (JR, SO). The contents of the manuscript are solely the responsibility of the authors and do not necessarily represent the official views of NCRR or NIH. In addition, these studies were supported by grants from Pfizer, Inc. (DFH), Novartis Pharma AG (DFH), the Fashion Footwear Association of New York/QVC Presents Shoes on Sale{\texttrademark} (DFH), and BCRF. Study medication was provided by Pfizer, Inc. and Novartis Pharma AG. Authors{\textquoteright} roles: Study design: SO, NLH, TCS, VS, DFH, DAF. Study conduct and data collection: ATN, TCS, TNH, SP, MP, AMS, VS. NLH. Data analysis: KMK, LL, JD. Data interpretation: SO, NLH, TCS, VS, DFH, DAF, CHP, ATN, JMR, ZD. Drafting manuscript: SO, NLH. Revising manuscript content and approving final version of manuscript: All co-authors. SO, NLH, VS, DFH, and DAF take responsibility for the integrity of the data analysis. Funding Information: NLH received research funding from AstraZeneca. DFH received research funding during the conduct of this trial from Novartis and Pfizer, and currently receives research funding from Veridex and Janssen Diagnostics. DAF receives research funding from Novartis and Pfizer and is a member of the Scientific Advisory Board for Quest Diagnostics, Inc. VS receives research funding from Abbott, Abraxis, Merck, Novartis, and Pfizer. JMR received a research grant from Pfizer. TNH receives research funding from Shire. TCS, JD, LL, KMK, CVP, CG, ATN, ZD, SO, SP, JSC, and AMS reported no conflicts of interest. Publisher Copyright: {\textcopyright} 2015, Springer Science+Business Media New York.",

year = "2015",

month = nov,

day = "1",

doi = "10.1007/s10549-015-3608-8",

language = "English (US)",

volume = "154",

pages = "263--273",

journal = "Breast Cancer Research and Treatment",

issn = "0167-6806",

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TY - JOUR

T1 - Associations between genetic variants and the effect of letrozole and exemestane on bone mass and bone turnover

AU - Oesterreich, Steffi

AU - Henry, N. Lynn

AU - Kidwell, Kelley M.

AU - Van Poznak, Catherine H.

AU - Skaar, Todd C.

AU - Dantzer, Jessica

AU - Li, Lang

AU - Hangartner, Thomas N.

AU - Peacock, Munro

AU - Nguyen, Anne T.

AU - Rae, James M.

AU - Desta, Zeruesenay

AU - Philips, Santosh

AU - Storniolo, Anna M.

AU - Stearns, Vered

AU - Hayes, Daniel F.

AU - Flockhart, David A.

N1 - Funding Information: We thank the patients who participated in the study, and the treating physicians, research nurses, and data managers at the three sites. This study was supported in part by a Pharmacogenetics Research Network Grant # U-01 GM61373 (DAF) and Clinical Pharmacology training grant: 5T32-GM08425 (DAF) from the National Institute of General Medical Sciences, National Institutes of Health (NIH), Bethesda, MD, and by grant numbers M01-RR000042 (UM), M01-RR00750 (IU), and M01-RR00052 (JHU) from the National Center for Research Resources (NCRR), and by R01-GM-099143 (JR, SO). The contents of the manuscript are solely the responsibility of the authors and do not necessarily represent the official views of NCRR or NIH. In addition, these studies were supported by grants from Pfizer, Inc. (DFH), Novartis Pharma AG (DFH), the Fashion Footwear Association of New York/QVC Presents Shoes on Sale™ (DFH), and BCRF. Study medication was provided by Pfizer, Inc. and Novartis Pharma AG. Authors’ roles: Study design: SO, NLH, TCS, VS, DFH, DAF. Study conduct and data collection: ATN, TCS, TNH, SP, MP, AMS, VS. NLH. Data analysis: KMK, LL, JD. Data interpretation: SO, NLH, TCS, VS, DFH, DAF, CHP, ATN, JMR, ZD. Drafting manuscript: SO, NLH. Revising manuscript content and approving final version of manuscript: All co-authors. SO, NLH, VS, DFH, and DAF take responsibility for the integrity of the data analysis. Funding Information: NLH received research funding from AstraZeneca. DFH received research funding during the conduct of this trial from Novartis and Pfizer, and currently receives research funding from Veridex and Janssen Diagnostics. DAF receives research funding from Novartis and Pfizer and is a member of the Scientific Advisory Board for Quest Diagnostics, Inc. VS receives research funding from Abbott, Abraxis, Merck, Novartis, and Pfizer. JMR received a research grant from Pfizer. TNH receives research funding from Shire. TCS, JD, LL, KMK, CVP, CG, ATN, ZD, SO, SP, JSC, and AMS reported no conflicts of interest. Publisher Copyright: © 2015, Springer Science+Business Media New York.

PY - 2015/11/1

Y1 - 2015/11/1

N2 - Adjuvant therapy for hormone receptor (HR) positive postmenopausal breast cancer patients includes aromatase inhibitors (AI). While both the non-steroidal AI letrozole and the steroidal AI exemestane decrease serum estrogen concentrations, there is evidence that exemestane may be less detrimental to bone. We hypothesized that single nucleotide polymorphisms (SNP) predict effects of AIs on bone turnover. Early stage HR-positive breast cancer patients were enrolled in a randomized trial of exemestane versus letrozole. Effects of AI on bone mineral density (BMD) and bone turnover markers (BTM), and associations between SNPs in 24 candidate genes and changes in BMD or BTM were determined. Of the 503 enrolled patients, paired BMD data were available for 123 and 101 patients treated with letrozole and exemestane, respectively, and paired BTM data were available for 175 and 173 patients, respectively. The mean change in lumbar spine BMD was significantly greater for letrozole-treated (−3.2 %) compared to exemestane-treated patients (−1.0 %) (p = 0.0016). Urine N-telopeptide was significantly increased in patients treated with exemestane (p = 0.001) but not letrozole. Two SNPs (rs4870061 and rs9322335) in ESR1 and one SNP (rs10140457) in ESR2 were associated with decreased BMD in letrozole-treated patients. In the exemestane-treated patients, SNPs in ESR1 (Rs2813543) and CYP19A1 (Rs6493497) were associated with decreased bone density. Exemestane had a less negative impact on bone density compared to letrozole, and the effects of AI therapy on bone may be impacted by genetic variants in the ER pathway.

AB - Adjuvant therapy for hormone receptor (HR) positive postmenopausal breast cancer patients includes aromatase inhibitors (AI). While both the non-steroidal AI letrozole and the steroidal AI exemestane decrease serum estrogen concentrations, there is evidence that exemestane may be less detrimental to bone. We hypothesized that single nucleotide polymorphisms (SNP) predict effects of AIs on bone turnover. Early stage HR-positive breast cancer patients were enrolled in a randomized trial of exemestane versus letrozole. Effects of AI on bone mineral density (BMD) and bone turnover markers (BTM), and associations between SNPs in 24 candidate genes and changes in BMD or BTM were determined. Of the 503 enrolled patients, paired BMD data were available for 123 and 101 patients treated with letrozole and exemestane, respectively, and paired BTM data were available for 175 and 173 patients, respectively. The mean change in lumbar spine BMD was significantly greater for letrozole-treated (−3.2 %) compared to exemestane-treated patients (−1.0 %) (p = 0.0016). Urine N-telopeptide was significantly increased in patients treated with exemestane (p = 0.001) but not letrozole. Two SNPs (rs4870061 and rs9322335) in ESR1 and one SNP (rs10140457) in ESR2 were associated with decreased BMD in letrozole-treated patients. In the exemestane-treated patients, SNPs in ESR1 (Rs2813543) and CYP19A1 (Rs6493497) were associated with decreased bone density. Exemestane had a less negative impact on bone density compared to letrozole, and the effects of AI therapy on bone may be impacted by genetic variants in the ER pathway.

KW - Aromatase inhibitors

KW - Bone health

KW - Breast cancer

KW - Pharmacogenomics

KW - Polymorphism

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Associations between genetic variants and the effect of letrozole and exemestane on bone mass and bone turnover

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