Separating the mechanism-based and off target actions of Cholesterol Ester Transfer Protien inhibitors with CETP gene polymorphisms

R Sofat; AD Hingorani; L Smeeth; SE Humphries; PJ Talmud; J Cooper; T Shah; S Sandhu M; SL Ricketts; SM Boekholdt; N Wareham; K-T Khaw; M Kumari; M Kivimaki; M Marmot; FW Asselbergs; P van der Harst; RPF Dullaart; G Navis; RPF Dullaart; D J van Veldhuisen; WK Van Gilst; JF Thompson; P McCaskie; LJ Palmer; M Arca; F Quagliarini; C Gaudio; F Cambien; V Nicaud; O Poirer; V Gudnason; A Isaacs; JCM Witteman; CM van Duijn; M Pencina; RS Vasan; RB D'Agostino; J Ordovas; TY Li; S Kakko; H Kauma; MJ Savolianen; Y Antero Kesaniemi; A Sandhofer; B Paulweber; JV Sorli; A Goto; V Gudnason; A Isaacs; JCM Witteman; CM van Duijn; M Pencina; RS Vasan; RB D'Agostino; J Ordovas; TY Li; S Kakko; H Kauma; MJ Savolianen; Y Antero Kesaniemi; A Sandhofer; B Paulweber; JV Sorli; A Goto; S Yokoyama; K Okumura; BD Horne; C Pakard; D Freeman; I Ford; N Sattar; V McCormack; D Lawlor; S Ebrahim; G Davey Smith; JJP Kastelein; J Deanfield; JP Casas

doi:10.1161/CIRCULATIONAHA.109.865444

Separating the mechanism-based and off target actions of Cholesterol Ester Transfer Protien inhibitors with CETP gene polymorphisms

R Sofat, AD Hingorani, L Smeeth, SE Humphries, PJ Talmud, J Cooper, T Shah, S Sandhu M, SL Ricketts, SM Boekholdt, N Wareham, K-T Khaw, M Kumari, M Kivimaki, M Marmot, FW Asselbergs, P van der Harst, RPF Dullaart, G Navis, RPF DullaartD J van Veldhuisen, WK Van Gilst, JF Thompson, P McCaskie, LJ Palmer, M Arca, F Quagliarini, C Gaudio, F Cambien, V Nicaud, O Poirer, V Gudnason, A Isaacs, JCM Witteman, CM van Duijn, M Pencina, RS Vasan, RB D'Agostino, J Ordovas, TY Li, S Kakko, H Kauma, MJ Savolianen, Y Antero Kesaniemi, A Sandhofer, B Paulweber, JV Sorli, A Goto, V Gudnason, A Isaacs, JCM Witteman, CM van Duijn, M Pencina, RS Vasan, RB D'Agostino, J Ordovas, TY Li, S Kakko, H Kauma, MJ Savolianen, Y Antero Kesaniemi, A Sandhofer, B Paulweber, JV Sorli, A Goto, S Yokoyama, K Okumura, BD Horne, C Pakard, D Freeman, I Ford, N Sattar, V McCormack, D Lawlor, S Ebrahim, G Davey Smith, JJP Kastelein, J Deanfield, JP Casas

Research output: Contribution to journal › Article (Academic Journal) › peer-review

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Abstract

Background— Cholesteryl ester transfer protein (CETP) inhibitors raise high-density lipoprotein (HDL) cholesterol, but torcetrapib, the first-in-class inhibitor tested in a large outcome trial, caused an unexpected blood pressure elevation and increased cardiovascular events. Whether the hypertensive effect resulted from CETP inhibition or an off-target action of torcetrapib has been debated. We hypothesized that common single-nucleotide polymorphisms in the CETP gene could help distinguish mechanism-based from off-target actions of CETP inhibitors to inform on the validity of CETP as a therapeutic target. Methods and Results— We compared the effect of CETP single-nucleotide polymorphisms and torcetrapib treatment on lipid fractions, blood pressure, and electrolytes in up to 67 687 individuals from genetic studies and 17 911 from randomized trials. CETP single-nucleotide polymorphisms and torcetrapib treatment reduced CETP activity and had a directionally concordant effect on 8 lipid and lipoprotein traits (total, low-density lipoprotein, and HDL cholesterol; HDL2; HDL3; apolipoproteins A-I and B; and triglycerides), with the genetic effect on HDL cholesterol (0.13 mmol/L, 95% confidence interval [CI] 0.11 to 0.14 mmol/L) being consistent with that expected of a 10-mg dose of torcetrapib (0.13 mmol/L, 95% CI 0.10 to 0.15). In trials, 60 mg of torcetrapib elevated systolic and diastolic blood pressure by 4.47 mm Hg (95% CI 4.10 to 4.84 mm Hg) and 2.08 mm Hg (95% CI 1.84 to 2.31 mm Hg), respectively. However, the effect of CETP single-nucleotide polymorphisms on systolic blood pressure (0.16 mm Hg, 95% CI –0.28 to 0.60 mm Hg) and diastolic blood pressure (–0.04 mm Hg, 95% CI –0.36 to 0.28 mm Hg) was null and significantly different from that expected of 10 mg of torcetrapib. Conclusions— Discordance in the effects of CETP single-nucleotide polymorphisms and torcetrapib treatment on blood pressure despite the concordant effects on lipids indicates the hypertensive action of torcetrapib is unlikely to be due to CETP inhibition or shared by chemically dissimilar CETP inhibitors. Genetic studies could find a place in drug-development programs as a new source of randomized evidence for drug-target validation in humans.

Translated title of the contribution	Separating the mechanism-based and off target actions of Cholesterol Ester Transfer Protien inhibitors with CETP gene polymorphisms
Original language	English
Pages (from-to)	52 - 62
Number of pages	10
Journal	Circulation
Volume	121
DOIs	https://doi.org/10.1161/CIRCULATIONAHA.109.865444
Publication status	Published - Oct 2009

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10.1161/CIRCULATIONAHA.109.865444

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Sofat, R., Hingorani, AD., Smeeth, L., Humphries, SE., Talmud, PJ., Cooper, J., Shah, T., Sandhu M, S., Ricketts, SL., Boekholdt, SM., Wareham, N., Khaw, K-T., Kumari, M., Kivimaki, M., Marmot, M., Asselbergs, FW., van der Harst, P., Dullaart, RPF., Navis, G., ... Casas, JP. (2009). Separating the mechanism-based and off target actions of Cholesterol Ester Transfer Protien inhibitors with CETP gene polymorphisms. Circulation, 121, 52 - 62. https://doi.org/10.1161/CIRCULATIONAHA.109.865444

Sofat, R ; Hingorani, AD ; Smeeth, L ; Humphries, SE ; Talmud, PJ ; Cooper, J ; Shah, T ; Sandhu M, S ; Ricketts, SL ; Boekholdt, SM ; Wareham, N ; Khaw, K-T ; Kumari, M ; Kivimaki, M ; Marmot, M ; Asselbergs, FW ; van der Harst, P ; Dullaart, RPF ; Navis, G ; Dullaart, RPF ; J van Veldhuisen, D ; Van Gilst, WK ; Thompson, JF ; McCaskie, P ; Palmer, LJ ; Arca, M ; Quagliarini, F ; Gaudio, C ; Cambien, F ; Nicaud, V ; Poirer, O ; Gudnason, V ; Isaacs, A ; Witteman, JCM ; van Duijn, CM ; Pencina, M ; Vasan, RS ; D'Agostino, RB ; Ordovas, J ; Li, TY ; Kakko, S ; Kauma, H ; Savolianen, MJ ; Antero Kesaniemi, Y ; Sandhofer, A ; Paulweber, B ; Sorli, JV ; Goto, A ; Gudnason, V ; Isaacs, A ; Witteman, JCM ; van Duijn, CM ; Pencina, M ; Vasan, RS ; D'Agostino, RB ; Ordovas, J ; Li, TY ; Kakko, S ; Kauma, H ; Savolianen, MJ ; Antero Kesaniemi, Y ; Sandhofer, A ; Paulweber, B ; Sorli, JV ; Goto, A ; Yokoyama, S ; Okumura, K ; Horne, BD ; Pakard, C ; Freeman, D ; Ford, I ; Sattar, N ; McCormack, V ; Lawlor, D ; Ebrahim, S ; Davey Smith, G ; Kastelein, JJP ; Deanfield, J ; Casas, JP. / Separating the mechanism-based and off target actions of Cholesterol Ester Transfer Protien inhibitors with CETP gene polymorphisms. In: Circulation. 2009 ; Vol. 121. pp. 52 - 62.

@article{16348be3d3534adea218a1ceefcce81a,

title = "Separating the mechanism-based and off target actions of Cholesterol Ester Transfer Protien inhibitors with CETP gene polymorphisms",

abstract = "Background— Cholesteryl ester transfer protein (CETP) inhibitors raise high-density lipoprotein (HDL) cholesterol, but torcetrapib, the first-in-class inhibitor tested in a large outcome trial, caused an unexpected blood pressure elevation and increased cardiovascular events. Whether the hypertensive effect resulted from CETP inhibition or an off-target action of torcetrapib has been debated. We hypothesized that common single-nucleotide polymorphisms in the CETP gene could help distinguish mechanism-based from off-target actions of CETP inhibitors to inform on the validity of CETP as a therapeutic target. Methods and Results— We compared the effect of CETP single-nucleotide polymorphisms and torcetrapib treatment on lipid fractions, blood pressure, and electrolytes in up to 67 687 individuals from genetic studies and 17 911 from randomized trials. CETP single-nucleotide polymorphisms and torcetrapib treatment reduced CETP activity and had a directionally concordant effect on 8 lipid and lipoprotein traits (total, low-density lipoprotein, and HDL cholesterol; HDL2; HDL3; apolipoproteins A-I and B; and triglycerides), with the genetic effect on HDL cholesterol (0.13 mmol/L, 95% confidence interval [CI] 0.11 to 0.14 mmol/L) being consistent with that expected of a 10-mg dose of torcetrapib (0.13 mmol/L, 95% CI 0.10 to 0.15). In trials, 60 mg of torcetrapib elevated systolic and diastolic blood pressure by 4.47 mm Hg (95% CI 4.10 to 4.84 mm Hg) and 2.08 mm Hg (95% CI 1.84 to 2.31 mm Hg), respectively. However, the effect of CETP single-nucleotide polymorphisms on systolic blood pressure (0.16 mm Hg, 95% CI –0.28 to 0.60 mm Hg) and diastolic blood pressure (–0.04 mm Hg, 95% CI –0.36 to 0.28 mm Hg) was null and significantly different from that expected of 10 mg of torcetrapib. Conclusions— Discordance in the effects of CETP single-nucleotide polymorphisms and torcetrapib treatment on blood pressure despite the concordant effects on lipids indicates the hypertensive action of torcetrapib is unlikely to be due to CETP inhibition or shared by chemically dissimilar CETP inhibitors. Genetic studies could find a place in drug-development programs as a new source of randomized evidence for drug-target validation in humans.",

author = "R Sofat and AD Hingorani and L Smeeth and SE Humphries and PJ Talmud and J Cooper and T Shah and {Sandhu M}, S and SL Ricketts and SM Boekholdt and N Wareham and K-T Khaw and M Kumari and M Kivimaki and M Marmot and FW Asselbergs and {van der Harst}, P and RPF Dullaart and G Navis and RPF Dullaart and {J van Veldhuisen}, D and {Van Gilst}, WK and JF Thompson and P McCaskie and LJ Palmer and M Arca and F Quagliarini and C Gaudio and F Cambien and V Nicaud and O Poirer and V Gudnason and A Isaacs and JCM Witteman and {van Duijn}, CM and M Pencina and RS Vasan and RB D'Agostino and J Ordovas and TY Li and S Kakko and H Kauma and MJ Savolianen and {Antero Kesaniemi}, Y and A Sandhofer and B Paulweber and JV Sorli and A Goto and V Gudnason and A Isaacs and JCM Witteman and {van Duijn}, CM and M Pencina and RS Vasan and RB D'Agostino and J Ordovas and TY Li and S Kakko and H Kauma and MJ Savolianen and {Antero Kesaniemi}, Y and A Sandhofer and B Paulweber and JV Sorli and A Goto and S Yokoyama and K Okumura and BD Horne and C Pakard and D Freeman and I Ford and N Sattar and V McCormack and D Lawlor and S Ebrahim and {Davey Smith}, G and JJP Kastelein and J Deanfield and JP Casas",

year = "2009",

month = oct,

doi = "10.1161/CIRCULATIONAHA.109.865444",

language = "English",

volume = "121",

pages = "52 -- 62",

journal = "Circulation",

issn = "0009-7322",

publisher = "Lippincott Williams and Wilkins",

}

Sofat, R, Hingorani, AD, Smeeth, L, Humphries, SE, Talmud, PJ, Cooper, J, Shah, T, Sandhu M, S, Ricketts, SL, Boekholdt, SM, Wareham, N, Khaw, K-T, Kumari, M, Kivimaki, M, Marmot, M, Asselbergs, FW, van der Harst, P, Dullaart, RPF, Navis, G, Dullaart, RPF, J van Veldhuisen, D, Van Gilst, WK, Thompson, JF, McCaskie, P, Palmer, LJ, Arca, M, Quagliarini, F, Gaudio, C, Cambien, F, Nicaud, V, Poirer, O, Gudnason, V, Isaacs, A, Witteman, JCM, van Duijn, CM, Pencina, M, Vasan, RS, D'Agostino, RB, Ordovas, J, Li, TY, Kakko, S, Kauma, H, Savolianen, MJ, Antero Kesaniemi, Y, Sandhofer, A, Paulweber, B, Sorli, JV, Goto, A, Gudnason, V, Isaacs, A, Witteman, JCM, van Duijn, CM, Pencina, M, Vasan, RS, D'Agostino, RB, Ordovas, J, Li, TY, Kakko, S, Kauma, H, Savolianen, MJ, Antero Kesaniemi, Y, Sandhofer, A, Paulweber, B, Sorli, JV, Goto, A, Yokoyama, S, Okumura, K, Horne, BD, Pakard, C, Freeman, D, Ford, I, Sattar, N, McCormack, V, Lawlor, D, Ebrahim, S, Davey Smith, G, Kastelein, JJP, Deanfield, J & Casas, JP 2009, 'Separating the mechanism-based and off target actions of Cholesterol Ester Transfer Protien inhibitors with CETP gene polymorphisms', Circulation, vol. 121, pp. 52 - 62. https://doi.org/10.1161/CIRCULATIONAHA.109.865444

Separating the mechanism-based and off target actions of Cholesterol Ester Transfer Protien inhibitors with CETP gene polymorphisms. / Sofat, R; Hingorani, AD; Smeeth, L; Humphries, SE; Talmud, PJ; Cooper, J; Shah, T; Sandhu M, S; Ricketts, SL; Boekholdt, SM; Wareham, N; Khaw, K-T; Kumari, M; Kivimaki, M; Marmot, M; Asselbergs, FW; van der Harst, P; Dullaart, RPF; Navis, G; Dullaart, RPF; J van Veldhuisen, D; Van Gilst, WK; Thompson, JF; McCaskie, P; Palmer, LJ; Arca, M; Quagliarini, F; Gaudio, C; Cambien, F; Nicaud, V; Poirer, O; Gudnason, V; Isaacs, A; Witteman, JCM; van Duijn, CM; Pencina, M; Vasan, RS; D'Agostino, RB; Ordovas, J; Li, TY; Kakko, S; Kauma, H; Savolianen, MJ; Antero Kesaniemi, Y; Sandhofer, A; Paulweber, B; Sorli, JV; Goto, A; Gudnason, V; Isaacs, A; Witteman, JCM; van Duijn, CM; Pencina, M; Vasan, RS; D'Agostino, RB; Ordovas, J; Li, TY; Kakko, S; Kauma, H; Savolianen, MJ; Antero Kesaniemi, Y; Sandhofer, A; Paulweber, B; Sorli, JV; Goto, A; Yokoyama, S; Okumura, K; Horne, BD; Pakard, C; Freeman, D; Ford, I; Sattar, N; McCormack, V; Lawlor, D; Ebrahim, S; Davey Smith, G; Kastelein, JJP; Deanfield, J; Casas, JP.

In: Circulation, Vol. 121, 10.2009, p. 52 - 62.

Research output: Contribution to journal › Article (Academic Journal) › peer-review

TY - JOUR

T1 - Separating the mechanism-based and off target actions of Cholesterol Ester Transfer Protien inhibitors with CETP gene polymorphisms

AU - Sofat, R

AU - Hingorani, AD

AU - Smeeth, L

AU - Humphries, SE

AU - Talmud, PJ

AU - Cooper, J

AU - Shah, T

AU - Sandhu M, S

AU - Ricketts, SL

AU - Boekholdt, SM

AU - Wareham, N

AU - Khaw, K-T

AU - Kumari, M

AU - Kivimaki, M

AU - Marmot, M

AU - Asselbergs, FW

AU - van der Harst, P

AU - Dullaart, RPF

AU - Navis, G

AU - Dullaart, RPF

AU - J van Veldhuisen, D

AU - Van Gilst, WK

AU - Thompson, JF

AU - McCaskie, P

AU - Palmer, LJ

AU - Arca, M

AU - Quagliarini, F

AU - Gaudio, C

AU - Cambien, F

AU - Nicaud, V

AU - Poirer, O

AU - Gudnason, V

AU - Isaacs, A

AU - Witteman, JCM

AU - van Duijn, CM

AU - Pencina, M

AU - Vasan, RS

AU - D'Agostino, RB

AU - Ordovas, J

AU - Li, TY

AU - Kakko, S

AU - Kauma, H

AU - Savolianen, MJ

AU - Antero Kesaniemi, Y

AU - Sandhofer, A

AU - Paulweber, B

AU - Sorli, JV

AU - Goto, A

AU - Gudnason, V

AU - Isaacs, A

AU - Witteman, JCM

AU - van Duijn, CM

AU - Pencina, M

AU - Vasan, RS

AU - D'Agostino, RB

AU - Ordovas, J

AU - Li, TY

AU - Kakko, S

AU - Kauma, H

AU - Savolianen, MJ

AU - Antero Kesaniemi, Y

AU - Sandhofer, A

AU - Paulweber, B

AU - Sorli, JV

AU - Goto, A

AU - Yokoyama, S

AU - Okumura, K

AU - Horne, BD

AU - Pakard, C

AU - Freeman, D

AU - Ford, I

AU - Sattar, N

AU - McCormack, V

AU - Lawlor, D

AU - Ebrahim, S

AU - Davey Smith, G

AU - Kastelein, JJP

AU - Deanfield, J

AU - Casas, JP

PY - 2009/10

Y1 - 2009/10

N2 - Background— Cholesteryl ester transfer protein (CETP) inhibitors raise high-density lipoprotein (HDL) cholesterol, but torcetrapib, the first-in-class inhibitor tested in a large outcome trial, caused an unexpected blood pressure elevation and increased cardiovascular events. Whether the hypertensive effect resulted from CETP inhibition or an off-target action of torcetrapib has been debated. We hypothesized that common single-nucleotide polymorphisms in the CETP gene could help distinguish mechanism-based from off-target actions of CETP inhibitors to inform on the validity of CETP as a therapeutic target. Methods and Results— We compared the effect of CETP single-nucleotide polymorphisms and torcetrapib treatment on lipid fractions, blood pressure, and electrolytes in up to 67 687 individuals from genetic studies and 17 911 from randomized trials. CETP single-nucleotide polymorphisms and torcetrapib treatment reduced CETP activity and had a directionally concordant effect on 8 lipid and lipoprotein traits (total, low-density lipoprotein, and HDL cholesterol; HDL2; HDL3; apolipoproteins A-I and B; and triglycerides), with the genetic effect on HDL cholesterol (0.13 mmol/L, 95% confidence interval [CI] 0.11 to 0.14 mmol/L) being consistent with that expected of a 10-mg dose of torcetrapib (0.13 mmol/L, 95% CI 0.10 to 0.15). In trials, 60 mg of torcetrapib elevated systolic and diastolic blood pressure by 4.47 mm Hg (95% CI 4.10 to 4.84 mm Hg) and 2.08 mm Hg (95% CI 1.84 to 2.31 mm Hg), respectively. However, the effect of CETP single-nucleotide polymorphisms on systolic blood pressure (0.16 mm Hg, 95% CI –0.28 to 0.60 mm Hg) and diastolic blood pressure (–0.04 mm Hg, 95% CI –0.36 to 0.28 mm Hg) was null and significantly different from that expected of 10 mg of torcetrapib. Conclusions— Discordance in the effects of CETP single-nucleotide polymorphisms and torcetrapib treatment on blood pressure despite the concordant effects on lipids indicates the hypertensive action of torcetrapib is unlikely to be due to CETP inhibition or shared by chemically dissimilar CETP inhibitors. Genetic studies could find a place in drug-development programs as a new source of randomized evidence for drug-target validation in humans.

AB - Background— Cholesteryl ester transfer protein (CETP) inhibitors raise high-density lipoprotein (HDL) cholesterol, but torcetrapib, the first-in-class inhibitor tested in a large outcome trial, caused an unexpected blood pressure elevation and increased cardiovascular events. Whether the hypertensive effect resulted from CETP inhibition or an off-target action of torcetrapib has been debated. We hypothesized that common single-nucleotide polymorphisms in the CETP gene could help distinguish mechanism-based from off-target actions of CETP inhibitors to inform on the validity of CETP as a therapeutic target. Methods and Results— We compared the effect of CETP single-nucleotide polymorphisms and torcetrapib treatment on lipid fractions, blood pressure, and electrolytes in up to 67 687 individuals from genetic studies and 17 911 from randomized trials. CETP single-nucleotide polymorphisms and torcetrapib treatment reduced CETP activity and had a directionally concordant effect on 8 lipid and lipoprotein traits (total, low-density lipoprotein, and HDL cholesterol; HDL2; HDL3; apolipoproteins A-I and B; and triglycerides), with the genetic effect on HDL cholesterol (0.13 mmol/L, 95% confidence interval [CI] 0.11 to 0.14 mmol/L) being consistent with that expected of a 10-mg dose of torcetrapib (0.13 mmol/L, 95% CI 0.10 to 0.15). In trials, 60 mg of torcetrapib elevated systolic and diastolic blood pressure by 4.47 mm Hg (95% CI 4.10 to 4.84 mm Hg) and 2.08 mm Hg (95% CI 1.84 to 2.31 mm Hg), respectively. However, the effect of CETP single-nucleotide polymorphisms on systolic blood pressure (0.16 mm Hg, 95% CI –0.28 to 0.60 mm Hg) and diastolic blood pressure (–0.04 mm Hg, 95% CI –0.36 to 0.28 mm Hg) was null and significantly different from that expected of 10 mg of torcetrapib. Conclusions— Discordance in the effects of CETP single-nucleotide polymorphisms and torcetrapib treatment on blood pressure despite the concordant effects on lipids indicates the hypertensive action of torcetrapib is unlikely to be due to CETP inhibition or shared by chemically dissimilar CETP inhibitors. Genetic studies could find a place in drug-development programs as a new source of randomized evidence for drug-target validation in humans.

U2 - 10.1161/CIRCULATIONAHA.109.865444

DO - 10.1161/CIRCULATIONAHA.109.865444

M3 - Article (Academic Journal)

C2 - 20026784

VL - 121

SP - 52

EP - 62

JO - Circulation

JF - Circulation

SN - 0009-7322

ER -

Separating the mechanism-based and off target actions of Cholesterol Ester Transfer Protien inhibitors with CETP gene polymorphisms

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