Low catalytic activity is insufficient to induce disease pathology in triosephosphate isomerase deficiency

Joanna Segal; Michael Mülleder; Antje Krüger; Thure Adler; Manuela Scholze-Wittler; Lore Becker; Julia Calzada-Wack; Lillian Garrett; Sabine M. Hölter; Birgit Rathkolb; Jan Rozman; Ildiko Racz; Ralf Fischer; Dirk H. Busch; Frauke Neff; Martin Klingenspor; Thomas Klopstock; Nana Maria Grüning; Steve Michel; Beata Lukaszewska-McGreal; Ingo Voigt; Ludger Hartmann; Bernd Timmermann; Hans Lehrach; Eckhard Wolf; Wolfgang Wurst; Valérie Gailus-Durner; Helmut Fuchs; Martin H. de Angelis; Heinrich Schrewe; Mariia Yuneva; Markus Ralser

doi:10.1002/jimd.12105

Low catalytic activity is insufficient to induce disease pathology in triosephosphate isomerase deficiency

Joanna Segal, Michael Mülleder, Antje Krüger, Thure Adler, Manuela Scholze-Wittler, Lore Becker, Julia Calzada-Wack, Lillian Garrett, Sabine M. Hölter, Birgit Rathkolb, Jan Rozman, Ildiko Racz, Ralf Fischer, Dirk H. Busch, Frauke Neff, Martin Klingenspor, Thomas Klopstock, Nana Maria Grüning, Steve Michel, Beata Lukaszewska-McGrealIngo Voigt, Ludger Hartmann, Bernd Timmermann, Hans Lehrach, Eckhard Wolf, Wolfgang Wurst, Valérie Gailus-Durner, Helmut Fuchs, Martin H. de Angelis, Heinrich Schrewe, Mariia Yuneva, Markus Ralser

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11 Scopus citations

Abstract

Triosephosphate isomerase (TPI) deficiency is a fatal genetic disorder characterized by hemolytic anemia and neurological dysfunction. Although the enzyme defect in TPI was discovered in the 1960s, the exact etiology of the disease is still debated. Some aspects indicate the disease could be caused by insufficient enzyme activity, whereas other observations indicate it could be a protein misfolding disease with tissue-specific differences in TPI activity. We generated a mouse model in which exchange of a conserved catalytic amino acid residue (isoleucine to valine, Ile170Val) reduces TPI specific activity without affecting the stability of the protein dimer. TPI^{Ile170Val/Ile170Val} mice exhibit an approximately 85% reduction in TPI activity consistently across all examined tissues, which is a stronger average, but more consistent, activity decline than observed in patients or symptomatic mouse models that carry structural defect mutant alleles. While monitoring protein expression levels revealed no evidence for protein instability, metabolite quantification indicated that glycolysis is affected by the active site mutation. TPI^{Ile170Val/Ile170Val} mice develop normally and show none of the disease symptoms associated with TPI deficiency. Therefore, without the stability defect that affects TPI activity in a tissue-specific manner, a strong decline in TPI catalytic activity is not sufficient to explain the pathological onset of TPI deficiency.

Original language	English
Pages (from-to)	839-849
Number of pages	11
Journal	Journal of Inherited Metabolic Disease
Volume	42
Issue number	5
DOIs	https://doi.org/10.1002/jimd.12105
State	Published - 1 Sep 2019

Keywords

active site mutation
glycolytic enzymopathy
hemolytic anemia
protein stability disorder
site-directed mutagenesis
triosephosphate isomerase deficiency

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10.1002/jimd.12105

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Segal, J., Mülleder, M., Krüger, A., Adler, T., Scholze-Wittler, M., Becker, L., Calzada-Wack, J., Garrett, L., Hölter, S. M., Rathkolb, B., Rozman, J., Racz, I., Fischer, R., Busch, D. H., Neff, F., Klingenspor, M., Klopstock, T., Grüning, N. M., Michel, S., ... Ralser, M. (2019). Low catalytic activity is insufficient to induce disease pathology in triosephosphate isomerase deficiency. Journal of Inherited Metabolic Disease, 42(5), 839-849. https://doi.org/10.1002/jimd.12105

@article{b5fabde0cec0434fbc94221b08d6cfa0,

title = "Low catalytic activity is insufficient to induce disease pathology in triosephosphate isomerase deficiency",

abstract = "Triosephosphate isomerase (TPI) deficiency is a fatal genetic disorder characterized by hemolytic anemia and neurological dysfunction. Although the enzyme defect in TPI was discovered in the 1960s, the exact etiology of the disease is still debated. Some aspects indicate the disease could be caused by insufficient enzyme activity, whereas other observations indicate it could be a protein misfolding disease with tissue-specific differences in TPI activity. We generated a mouse model in which exchange of a conserved catalytic amino acid residue (isoleucine to valine, Ile170Val) reduces TPI specific activity without affecting the stability of the protein dimer. TPIIle170Val/Ile170Val mice exhibit an approximately 85% reduction in TPI activity consistently across all examined tissues, which is a stronger average, but more consistent, activity decline than observed in patients or symptomatic mouse models that carry structural defect mutant alleles. While monitoring protein expression levels revealed no evidence for protein instability, metabolite quantification indicated that glycolysis is affected by the active site mutation. TPIIle170Val/Ile170Val mice develop normally and show none of the disease symptoms associated with TPI deficiency. Therefore, without the stability defect that affects TPI activity in a tissue-specific manner, a strong decline in TPI catalytic activity is not sufficient to explain the pathological onset of TPI deficiency.",

keywords = "active site mutation, glycolytic enzymopathy, hemolytic anemia, protein stability disorder, site-directed mutagenesis, triosephosphate isomerase deficiency",

author = "Joanna Segal and Michael M{\"u}lleder and Antje Kr{\"u}ger and Thure Adler and Manuela Scholze-Wittler and Lore Becker and Julia Calzada-Wack and Lillian Garrett and H{\"o}lter, {Sabine M.} and Birgit Rathkolb and Jan Rozman and Ildiko Racz and Ralf Fischer and Busch, {Dirk H.} and Frauke Neff and Martin Klingenspor and Thomas Klopstock and Gr{\"u}ning, {Nana Maria} and Steve Michel and Beata Lukaszewska-McGreal and Ingo Voigt and Ludger Hartmann and Bernd Timmermann and Hans Lehrach and Eckhard Wolf and Wolfgang Wurst and Val{\'e}rie Gailus-Durner and Helmut Fuchs and {H. de Angelis}, Martin and Heinrich Schrewe and Mariia Yuneva and Markus Ralser",

note = "Publisher Copyright: {\textcopyright} 2019 The Authors. Journal of Inherited Metabolic Disease published by John Wiley & Sons Ltd on behalf of SSIEM",

year = "2019",

month = sep,

day = "1",

doi = "10.1002/jimd.12105",

language = "English",

volume = "42",

pages = "839--849",

journal = "Journal of Inherited Metabolic Disease",

issn = "0141-8955",

publisher = "Springer Netherlands",

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Segal, J, Mülleder, M, Krüger, A, Adler, T, Scholze-Wittler, M, Becker, L, Calzada-Wack, J, Garrett, L, Hölter, SM, Rathkolb, B, Rozman, J, Racz, I, Fischer, R, Busch, DH, Neff, F, Klingenspor, M, Klopstock, T, Grüning, NM, Michel, S, Lukaszewska-McGreal, B, Voigt, I, Hartmann, L, Timmermann, B, Lehrach, H, Wolf, E, Wurst, W, Gailus-Durner, V, Fuchs, H, H. de Angelis, M, Schrewe, H, Yuneva, M & Ralser, M 2019, 'Low catalytic activity is insufficient to induce disease pathology in triosephosphate isomerase deficiency', Journal of Inherited Metabolic Disease, vol. 42, no. 5, pp. 839-849. https://doi.org/10.1002/jimd.12105

TY - JOUR

T1 - Low catalytic activity is insufficient to induce disease pathology in triosephosphate isomerase deficiency

AU - Segal, Joanna

AU - Mülleder, Michael

AU - Krüger, Antje

AU - Adler, Thure

AU - Scholze-Wittler, Manuela

AU - Becker, Lore

AU - Calzada-Wack, Julia

AU - Garrett, Lillian

AU - Hölter, Sabine M.

AU - Rathkolb, Birgit

AU - Rozman, Jan

AU - Racz, Ildiko

AU - Fischer, Ralf

AU - Busch, Dirk H.

AU - Neff, Frauke

AU - Klingenspor, Martin

AU - Klopstock, Thomas

AU - Grüning, Nana Maria

AU - Michel, Steve

AU - Lukaszewska-McGreal, Beata

AU - Voigt, Ingo

AU - Hartmann, Ludger

AU - Timmermann, Bernd

AU - Lehrach, Hans

AU - Wolf, Eckhard

AU - Wurst, Wolfgang

AU - Gailus-Durner, Valérie

AU - Fuchs, Helmut

AU - H. de Angelis, Martin

AU - Schrewe, Heinrich

AU - Yuneva, Mariia

AU - Ralser, Markus

PY - 2019/9/1

Y1 - 2019/9/1

N2 - Triosephosphate isomerase (TPI) deficiency is a fatal genetic disorder characterized by hemolytic anemia and neurological dysfunction. Although the enzyme defect in TPI was discovered in the 1960s, the exact etiology of the disease is still debated. Some aspects indicate the disease could be caused by insufficient enzyme activity, whereas other observations indicate it could be a protein misfolding disease with tissue-specific differences in TPI activity. We generated a mouse model in which exchange of a conserved catalytic amino acid residue (isoleucine to valine, Ile170Val) reduces TPI specific activity without affecting the stability of the protein dimer. TPIIle170Val/Ile170Val mice exhibit an approximately 85% reduction in TPI activity consistently across all examined tissues, which is a stronger average, but more consistent, activity decline than observed in patients or symptomatic mouse models that carry structural defect mutant alleles. While monitoring protein expression levels revealed no evidence for protein instability, metabolite quantification indicated that glycolysis is affected by the active site mutation. TPIIle170Val/Ile170Val mice develop normally and show none of the disease symptoms associated with TPI deficiency. Therefore, without the stability defect that affects TPI activity in a tissue-specific manner, a strong decline in TPI catalytic activity is not sufficient to explain the pathological onset of TPI deficiency.

AB - Triosephosphate isomerase (TPI) deficiency is a fatal genetic disorder characterized by hemolytic anemia and neurological dysfunction. Although the enzyme defect in TPI was discovered in the 1960s, the exact etiology of the disease is still debated. Some aspects indicate the disease could be caused by insufficient enzyme activity, whereas other observations indicate it could be a protein misfolding disease with tissue-specific differences in TPI activity. We generated a mouse model in which exchange of a conserved catalytic amino acid residue (isoleucine to valine, Ile170Val) reduces TPI specific activity without affecting the stability of the protein dimer. TPIIle170Val/Ile170Val mice exhibit an approximately 85% reduction in TPI activity consistently across all examined tissues, which is a stronger average, but more consistent, activity decline than observed in patients or symptomatic mouse models that carry structural defect mutant alleles. While monitoring protein expression levels revealed no evidence for protein instability, metabolite quantification indicated that glycolysis is affected by the active site mutation. TPIIle170Val/Ile170Val mice develop normally and show none of the disease symptoms associated with TPI deficiency. Therefore, without the stability defect that affects TPI activity in a tissue-specific manner, a strong decline in TPI catalytic activity is not sufficient to explain the pathological onset of TPI deficiency.

KW - active site mutation

KW - glycolytic enzymopathy

KW - hemolytic anemia

KW - protein stability disorder

KW - site-directed mutagenesis

KW - triosephosphate isomerase deficiency

UR - http://www.scopus.com/inward/record.url?scp=85067347075&partnerID=8YFLogxK

U2 - 10.1002/jimd.12105

DO - 10.1002/jimd.12105

M3 - Article

C2 - 31111503

AN - SCOPUS:85067347075

SN - 0141-8955

VL - 42

SP - 839

EP - 849

JO - Journal of Inherited Metabolic Disease

JF - Journal of Inherited Metabolic Disease

IS - 5

ER -

Low catalytic activity is insufficient to induce disease pathology in triosephosphate isomerase deficiency

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