Identification of a novel inactivating mutation in Isocitrate Dehydrogenase 1 (IDH1-R314C) in a high grade astrocytoma

Sanne A M Van Lith; Anna C. Navis; Krissie Lenting; Kiek Verrijp; Jan T G Schepens; Wiljan J A J Hendriks; Nil A. Schubert; Hanka Venselaar; Ron A. Wevers; Arno Van Rooij; Pieter Wesseling; Remco J. Molenaar; Cornelis J F Van Noorden; Stefan Pusch; Bastiaan Tops; William P J Leenders

doi:10.1038/srep30486

Identification of a novel inactivating mutation in Isocitrate Dehydrogenase 1 (IDH1-R314C) in a high grade astrocytoma

Sanne A M Van Lith, Anna C. Navis, Krissie Lenting, Kiek Verrijp, Jan T G Schepens, Wiljan J A J Hendriks, Nil A. Schubert, Hanka Venselaar, Ron A. Wevers, Arno Van Rooij, Pieter Wesseling, Remco J. Molenaar, Cornelis J F Van Noorden, Stefan Pusch, Bastiaan Tops, William P J Leenders^*

^*Corresponding author for this work

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

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Abstract

The majority of low-grade and secondary high-grade gliomas carry heterozygous hotspot mutations in cytosolic isocitrate dehydrogenase 1 (IDH1) or the mitochondrial variant IDH2. These mutations mostly involve Arg132 in IDH1, and Arg172 or Arg140 in IDH2. Whereas IDHs convert isocitrate to alpha-ketoglutarate (α-KG) with simultaneous reduction of NADP⁺ to NADPH, these IDH mutants reduce α-KG to D-2-hydroxyglutarate (D-2-HG) while oxidizing NADPH. D-2-HG is a proposed oncometabolite, acting via competitive inhibition of α-KG-dependent enzymes that are involved in metabolism and epigenetic regulation. However, much less is known about the implications of the metabolic stress, imposed by decreased α-KG and NADPH production, for tumor biology. We here present a novel heterozygous IDH1 mutation, IDH1^R314C, which was identified by targeted next generation sequencing of a high grade glioma from which a mouse xenograft model and a cell line were generated. IDH1^R314C lacks isocitrate-to-α-KG conversion activity due to reduced affinity for NADP⁺, and differs from the IDH1 R132 mutants in that it does not produce D-2-HG. Because IDH1^R314C is defective in producing α-KG and NADPH, without concomitant production of the D-2-HG, it represents a valuable tool to study the effects of IDH1-dysfunction on cellular metabolism in the absence of this oncometabolite.

Original language	English
Article number	30486
Journal	Scientific Reports
Volume	6
DOIs	https://doi.org/10.1038/srep30486
Publication status	Published - 27 Jul 2016
Externally published	Yes

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Van Lith, S. A. M., Navis, A. C., Lenting, K., Verrijp, K., Schepens, J. T. G., Hendriks, W. J. A. J., Schubert, N. A., Venselaar, H., Wevers, R. A., Van Rooij, A., Wesseling, P., Molenaar, R. J., Van Noorden, C. J. F., Pusch, S., Tops, B., & Leenders, W. P. J. (2016). Identification of a novel inactivating mutation in Isocitrate Dehydrogenase 1 (IDH1-R314C) in a high grade astrocytoma. Scientific Reports, 6, Article 30486. https://doi.org/10.1038/srep30486

@article{16a3e9eee98f41b1a87649bb56cbc318,

title = "Identification of a novel inactivating mutation in Isocitrate Dehydrogenase 1 (IDH1-R314C) in a high grade astrocytoma",

abstract = "The majority of low-grade and secondary high-grade gliomas carry heterozygous hotspot mutations in cytosolic isocitrate dehydrogenase 1 (IDH1) or the mitochondrial variant IDH2. These mutations mostly involve Arg132 in IDH1, and Arg172 or Arg140 in IDH2. Whereas IDHs convert isocitrate to alpha-ketoglutarate (α-KG) with simultaneous reduction of NADP+ to NADPH, these IDH mutants reduce α-KG to D-2-hydroxyglutarate (D-2-HG) while oxidizing NADPH. D-2-HG is a proposed oncometabolite, acting via competitive inhibition of α-KG-dependent enzymes that are involved in metabolism and epigenetic regulation. However, much less is known about the implications of the metabolic stress, imposed by decreased α-KG and NADPH production, for tumor biology. We here present a novel heterozygous IDH1 mutation, IDH1R314C, which was identified by targeted next generation sequencing of a high grade glioma from which a mouse xenograft model and a cell line were generated. IDH1R314C lacks isocitrate-to-α-KG conversion activity due to reduced affinity for NADP+, and differs from the IDH1 R132 mutants in that it does not produce D-2-HG. Because IDH1R314C is defective in producing α-KG and NADPH, without concomitant production of the D-2-HG, it represents a valuable tool to study the effects of IDH1-dysfunction on cellular metabolism in the absence of this oncometabolite.",

author = "{Van Lith}, {Sanne A M} and Navis, {Anna C.} and Krissie Lenting and Kiek Verrijp and Schepens, {Jan T G} and Hendriks, {Wiljan J A J} and Schubert, {Nil A.} and Hanka Venselaar and Wevers, {Ron A.} and {Van Rooij}, Arno and Pieter Wesseling and Molenaar, {Remco J.} and {Van Noorden}, {Cornelis J F} and Stefan Pusch and Bastiaan Tops and Leenders, {William P J}",

year = "2016",

month = jul,

day = "27",

doi = "10.1038/srep30486",

language = "English",

volume = "6",

journal = "Scientific Reports",

issn = "2045-2322",

publisher = "Nature Publishing Group",

}

Van Lith, SAM, Navis, AC, Lenting, K, Verrijp, K, Schepens, JTG, Hendriks, WJAJ, Schubert, NA, Venselaar, H, Wevers, RA, Van Rooij, A, Wesseling, P, Molenaar, RJ, Van Noorden, CJF, Pusch, S, Tops, B & Leenders, WPJ 2016, 'Identification of a novel inactivating mutation in Isocitrate Dehydrogenase 1 (IDH1-R314C) in a high grade astrocytoma', Scientific Reports, vol. 6, 30486. https://doi.org/10.1038/srep30486

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T1 - Identification of a novel inactivating mutation in Isocitrate Dehydrogenase 1 (IDH1-R314C) in a high grade astrocytoma

AU - Van Lith, Sanne A M

AU - Navis, Anna C.

AU - Lenting, Krissie

AU - Verrijp, Kiek

AU - Schepens, Jan T G

AU - Hendriks, Wiljan J A J

AU - Schubert, Nil A.

AU - Venselaar, Hanka

AU - Wevers, Ron A.

AU - Van Rooij, Arno

AU - Wesseling, Pieter

AU - Molenaar, Remco J.

AU - Van Noorden, Cornelis J F

AU - Pusch, Stefan

AU - Tops, Bastiaan

AU - Leenders, William P J

PY - 2016/7/27

Y1 - 2016/7/27

N2 - The majority of low-grade and secondary high-grade gliomas carry heterozygous hotspot mutations in cytosolic isocitrate dehydrogenase 1 (IDH1) or the mitochondrial variant IDH2. These mutations mostly involve Arg132 in IDH1, and Arg172 or Arg140 in IDH2. Whereas IDHs convert isocitrate to alpha-ketoglutarate (α-KG) with simultaneous reduction of NADP+ to NADPH, these IDH mutants reduce α-KG to D-2-hydroxyglutarate (D-2-HG) while oxidizing NADPH. D-2-HG is a proposed oncometabolite, acting via competitive inhibition of α-KG-dependent enzymes that are involved in metabolism and epigenetic regulation. However, much less is known about the implications of the metabolic stress, imposed by decreased α-KG and NADPH production, for tumor biology. We here present a novel heterozygous IDH1 mutation, IDH1R314C, which was identified by targeted next generation sequencing of a high grade glioma from which a mouse xenograft model and a cell line were generated. IDH1R314C lacks isocitrate-to-α-KG conversion activity due to reduced affinity for NADP+, and differs from the IDH1 R132 mutants in that it does not produce D-2-HG. Because IDH1R314C is defective in producing α-KG and NADPH, without concomitant production of the D-2-HG, it represents a valuable tool to study the effects of IDH1-dysfunction on cellular metabolism in the absence of this oncometabolite.

AB - The majority of low-grade and secondary high-grade gliomas carry heterozygous hotspot mutations in cytosolic isocitrate dehydrogenase 1 (IDH1) or the mitochondrial variant IDH2. These mutations mostly involve Arg132 in IDH1, and Arg172 or Arg140 in IDH2. Whereas IDHs convert isocitrate to alpha-ketoglutarate (α-KG) with simultaneous reduction of NADP+ to NADPH, these IDH mutants reduce α-KG to D-2-hydroxyglutarate (D-2-HG) while oxidizing NADPH. D-2-HG is a proposed oncometabolite, acting via competitive inhibition of α-KG-dependent enzymes that are involved in metabolism and epigenetic regulation. However, much less is known about the implications of the metabolic stress, imposed by decreased α-KG and NADPH production, for tumor biology. We here present a novel heterozygous IDH1 mutation, IDH1R314C, which was identified by targeted next generation sequencing of a high grade glioma from which a mouse xenograft model and a cell line were generated. IDH1R314C lacks isocitrate-to-α-KG conversion activity due to reduced affinity for NADP+, and differs from the IDH1 R132 mutants in that it does not produce D-2-HG. Because IDH1R314C is defective in producing α-KG and NADPH, without concomitant production of the D-2-HG, it represents a valuable tool to study the effects of IDH1-dysfunction on cellular metabolism in the absence of this oncometabolite.

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ER -

Identification of a novel inactivating mutation in Isocitrate Dehydrogenase 1 (IDH1-R314C) in a high grade astrocytoma

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