Mutant IDH1 and thrombosis in gliomas

Dusten Unruh; Steven R. Schwarze; Laith Khoury; Cheddhi Thomas; Meijing Wu; Li Chen; Rui Chen; Yinxing Liu; Margaret A. Schwartz; Christina Amidei; Priya Kumthekar; Carolina G. Benjamin; Kristine Song; Caleb Dawson; Joanne M. Rispoli; Girish Fatterpekar; John G. Golfinos; Douglas Kondziolka; Matthias Karajannis; Donato Pacione; David Zagzag; Thomas McIntyre; Matija Snuderl; Craig Horbinski

doi:10.1007/s00401-016-1620-7

Mutant IDH1 and thrombosis in gliomas

Dusten Unruh, Steven R. Schwarze, Laith Khoury, Cheddhi Thomas, Meijing Wu, Li Chen, Rui Chen, Yinxing Liu, Margaret A. Schwartz, Christina Amidei, Priya Kumthekar, Carolina G. Benjamin, Kristine Song, Caleb Dawson, Joanne M. Rispoli, Girish Fatterpekar, John G. Golfinos, Douglas Kondziolka, Matthias Karajannis, Donato PacioneDavid Zagzag, Thomas McIntyre, Matija Snuderl, Craig Horbinski

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138 Scopus citations

Abstract

Mutant isocitrate dehydrogenase 1 (IDH1) is common in gliomas, and produces D-2-hydroxyglutarate (D-2-HG). The full effects of IDH1 mutations on glioma biology and tumor microenvironment are unknown. We analyzed a discovery cohort of 169 World Health Organization (WHO) grade II–IV gliomas, followed by a validation cohort of 148 cases, for IDH1 mutations, intratumoral microthrombi, and venous thromboemboli (VTE). 430 gliomas from The Cancer Genome Atlas were analyzed for mRNAs associated with coagulation, and 95 gliomas in a tissue microarray were assessed for tissue factor (TF) protein. In vitro and in vivo assays evaluated platelet aggregation and clotting time in the presence of mutant IDH1 or D-2-HG. VTE occurred in 26–30 % of patients with wild-type IDH1 gliomas, but not in patients with mutant IDH1 gliomas (0 %). IDH1 mutation status was the most powerful predictive marker for VTE, independent of variables such as GBM diagnosis and prolonged hospital stay. Microthrombi were far less common within mutant IDH1 gliomas regardless of WHO grade (85–90 % in wild-type versus 2–6 % in mutant), and were an independent predictor of IDH1 wild-type status. Among all 35 coagulation-associated genes, F3 mRNA, encoding TF, showed the strongest inverse relationship with IDH1 mutations. Mutant IDH1 gliomas had F3 gene promoter hypermethylation, with lower TF protein expression. D-2-HG rapidly inhibited platelet aggregation and blood clotting via a novel calcium-dependent, methylation-independent mechanism. Mutant IDH1 glioma engraftment in mice significantly prolonged bleeding time. Our data suggest that mutant IDH1 has potent antithrombotic activity within gliomas and throughout the peripheral circulation. These findings have implications for the pathologic evaluation of gliomas, the effect of altered isocitrate metabolism on tumor microenvironment, and risk assessment of glioma patients for VTE.

Original language	English
Pages (from-to)	917-930
Number of pages	14
Journal	Acta Neuropathologica
Volume	132
Issue number	6
DOIs	https://doi.org/10.1007/s00401-016-1620-7
State	Published - Dec 1 2016

Bibliographical note

Publisher Copyright:
© 2016, Springer-Verlag Berlin Heidelberg.

ASJC Scopus subject areas

Pathology and Forensic Medicine
Clinical Neurology
Cellular and Molecular Neuroscience

UN SDGs

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10.1007/s00401-016-1620-7

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Unruh, D., Schwarze, S. R., Khoury, L., Thomas, C., Wu, M., Chen, L., Chen, R., Liu, Y., Schwartz, M. A., Amidei, C., Kumthekar, P., Benjamin, C. G., Song, K., Dawson, C., Rispoli, J. M., Fatterpekar, G., Golfinos, J. G., Kondziolka, D., Karajannis, M., ... Horbinski, C. (2016). Mutant IDH1 and thrombosis in gliomas. Acta Neuropathologica, 132(6), 917-930. https://doi.org/10.1007/s00401-016-1620-7

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abstract = "Mutant isocitrate dehydrogenase 1 (IDH1) is common in gliomas, and produces D-2-hydroxyglutarate (D-2-HG). The full effects of IDH1 mutations on glioma biology and tumor microenvironment are unknown. We analyzed a discovery cohort of 169 World Health Organization (WHO) grade II–IV gliomas, followed by a validation cohort of 148 cases, for IDH1 mutations, intratumoral microthrombi, and venous thromboemboli (VTE). 430 gliomas from The Cancer Genome Atlas were analyzed for mRNAs associated with coagulation, and 95 gliomas in a tissue microarray were assessed for tissue factor (TF) protein. In vitro and in vivo assays evaluated platelet aggregation and clotting time in the presence of mutant IDH1 or D-2-HG. VTE occurred in 26–30 % of patients with wild-type IDH1 gliomas, but not in patients with mutant IDH1 gliomas (0 %). IDH1 mutation status was the most powerful predictive marker for VTE, independent of variables such as GBM diagnosis and prolonged hospital stay. Microthrombi were far less common within mutant IDH1 gliomas regardless of WHO grade (85–90 % in wild-type versus 2–6 % in mutant), and were an independent predictor of IDH1 wild-type status. Among all 35 coagulation-associated genes, F3 mRNA, encoding TF, showed the strongest inverse relationship with IDH1 mutations. Mutant IDH1 gliomas had F3 gene promoter hypermethylation, with lower TF protein expression. D-2-HG rapidly inhibited platelet aggregation and blood clotting via a novel calcium-dependent, methylation-independent mechanism. Mutant IDH1 glioma engraftment in mice significantly prolonged bleeding time. Our data suggest that mutant IDH1 has potent antithrombotic activity within gliomas and throughout the peripheral circulation. These findings have implications for the pathologic evaluation of gliomas, the effect of altered isocitrate metabolism on tumor microenvironment, and risk assessment of glioma patients for VTE.",

author = "Dusten Unruh and Schwarze, {Steven R.} and Laith Khoury and Cheddhi Thomas and Meijing Wu and Li Chen and Rui Chen and Yinxing Liu and Schwartz, {Margaret A.} and Christina Amidei and Priya Kumthekar and Benjamin, {Carolina G.} and Kristine Song and Caleb Dawson and Rispoli, {Joanne M.} and Girish Fatterpekar and Golfinos, {John G.} and Douglas Kondziolka and Matthias Karajannis and Donato Pacione and David Zagzag and Thomas McIntyre and Matija Snuderl and Craig Horbinski",

note = "Publisher Copyright: {\textcopyright} 2016, Springer-Verlag Berlin Heidelberg.",

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doi = "10.1007/s00401-016-1620-7",

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Unruh, D, Schwarze, SR, Khoury, L, Thomas, C, Wu, M, Chen, L, Chen, R, Liu, Y, Schwartz, MA, Amidei, C, Kumthekar, P, Benjamin, CG, Song, K, Dawson, C, Rispoli, JM, Fatterpekar, G, Golfinos, JG, Kondziolka, D, Karajannis, M, Pacione, D, Zagzag, D, McIntyre, T, Snuderl, M & Horbinski, C 2016, 'Mutant IDH1 and thrombosis in gliomas', Acta Neuropathologica, vol. 132, no. 6, pp. 917-930. https://doi.org/10.1007/s00401-016-1620-7

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T1 - Mutant IDH1 and thrombosis in gliomas

AU - Unruh, Dusten

AU - Schwarze, Steven R.

AU - Khoury, Laith

AU - Thomas, Cheddhi

AU - Wu, Meijing

AU - Chen, Li

AU - Chen, Rui

AU - Liu, Yinxing

AU - Schwartz, Margaret A.

AU - Amidei, Christina

AU - Kumthekar, Priya

AU - Benjamin, Carolina G.

AU - Song, Kristine

AU - Dawson, Caleb

AU - Rispoli, Joanne M.

AU - Fatterpekar, Girish

AU - Golfinos, John G.

AU - Kondziolka, Douglas

AU - Karajannis, Matthias

AU - Pacione, Donato

AU - Zagzag, David

AU - McIntyre, Thomas

AU - Snuderl, Matija

AU - Horbinski, Craig

PY - 2016/12/1

Y1 - 2016/12/1

N2 - Mutant isocitrate dehydrogenase 1 (IDH1) is common in gliomas, and produces D-2-hydroxyglutarate (D-2-HG). The full effects of IDH1 mutations on glioma biology and tumor microenvironment are unknown. We analyzed a discovery cohort of 169 World Health Organization (WHO) grade II–IV gliomas, followed by a validation cohort of 148 cases, for IDH1 mutations, intratumoral microthrombi, and venous thromboemboli (VTE). 430 gliomas from The Cancer Genome Atlas were analyzed for mRNAs associated with coagulation, and 95 gliomas in a tissue microarray were assessed for tissue factor (TF) protein. In vitro and in vivo assays evaluated platelet aggregation and clotting time in the presence of mutant IDH1 or D-2-HG. VTE occurred in 26–30 % of patients with wild-type IDH1 gliomas, but not in patients with mutant IDH1 gliomas (0 %). IDH1 mutation status was the most powerful predictive marker for VTE, independent of variables such as GBM diagnosis and prolonged hospital stay. Microthrombi were far less common within mutant IDH1 gliomas regardless of WHO grade (85–90 % in wild-type versus 2–6 % in mutant), and were an independent predictor of IDH1 wild-type status. Among all 35 coagulation-associated genes, F3 mRNA, encoding TF, showed the strongest inverse relationship with IDH1 mutations. Mutant IDH1 gliomas had F3 gene promoter hypermethylation, with lower TF protein expression. D-2-HG rapidly inhibited platelet aggregation and blood clotting via a novel calcium-dependent, methylation-independent mechanism. Mutant IDH1 glioma engraftment in mice significantly prolonged bleeding time. Our data suggest that mutant IDH1 has potent antithrombotic activity within gliomas and throughout the peripheral circulation. These findings have implications for the pathologic evaluation of gliomas, the effect of altered isocitrate metabolism on tumor microenvironment, and risk assessment of glioma patients for VTE.

AB - Mutant isocitrate dehydrogenase 1 (IDH1) is common in gliomas, and produces D-2-hydroxyglutarate (D-2-HG). The full effects of IDH1 mutations on glioma biology and tumor microenvironment are unknown. We analyzed a discovery cohort of 169 World Health Organization (WHO) grade II–IV gliomas, followed by a validation cohort of 148 cases, for IDH1 mutations, intratumoral microthrombi, and venous thromboemboli (VTE). 430 gliomas from The Cancer Genome Atlas were analyzed for mRNAs associated with coagulation, and 95 gliomas in a tissue microarray were assessed for tissue factor (TF) protein. In vitro and in vivo assays evaluated platelet aggregation and clotting time in the presence of mutant IDH1 or D-2-HG. VTE occurred in 26–30 % of patients with wild-type IDH1 gliomas, but not in patients with mutant IDH1 gliomas (0 %). IDH1 mutation status was the most powerful predictive marker for VTE, independent of variables such as GBM diagnosis and prolonged hospital stay. Microthrombi were far less common within mutant IDH1 gliomas regardless of WHO grade (85–90 % in wild-type versus 2–6 % in mutant), and were an independent predictor of IDH1 wild-type status. Among all 35 coagulation-associated genes, F3 mRNA, encoding TF, showed the strongest inverse relationship with IDH1 mutations. Mutant IDH1 gliomas had F3 gene promoter hypermethylation, with lower TF protein expression. D-2-HG rapidly inhibited platelet aggregation and blood clotting via a novel calcium-dependent, methylation-independent mechanism. Mutant IDH1 glioma engraftment in mice significantly prolonged bleeding time. Our data suggest that mutant IDH1 has potent antithrombotic activity within gliomas and throughout the peripheral circulation. These findings have implications for the pathologic evaluation of gliomas, the effect of altered isocitrate metabolism on tumor microenvironment, and risk assessment of glioma patients for VTE.

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Mutant IDH1 and thrombosis in gliomas

Abstract

Bibliographical note

ASJC Scopus subject areas

UN SDGs

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