N-acetylaspartate availability is essential for juvenile survival on fat-free diet and determines metabolic health

Dina C Hofer; Gabriel Zirkovits; Helmut J Pelzmann; Katharina Huber; Ariane R Pessentheiner; Wenmin Xia; Kyosuke Uno; Toh Miyazaki; Kanta Kon; Hiroshi Tsuneki; Tobias Pendl; Wael Al Zoughbi; Corina T Madreiter-Sokolowski; Gert Trausinger; Mahmoud Abdellatif; Gabriele Schoiswohl; Renate Schreiber; Tobias Eisenberg; Christoph Magnes; Simon Sedej; Matthias Eckhardt; Masakiyo Sasahara; Toshiyasu Sasaoka; Atsumi Nitta; Gerald Hoefler; Wolfgang F Graier; Dagmar Kratky; Johan Auwerx; Juliane G Bogner-Strauss

doi:10.1096/fj.201801323R

N-acetylaspartate availability is essential for juvenile survival on fat-free diet and determines metabolic health

Dina C Hofer, Gabriel Zirkovits, Helmut J Pelzmann, Katharina Huber, Ariane R Pessentheiner, Wenmin Xia, Kyosuke Uno, Toh Miyazaki, Kanta Kon, Hiroshi Tsuneki, Tobias Pendl, Wael Al Zoughbi, Corina T Madreiter-Sokolowski, Gert Trausinger, Mahmoud Abdellatif, Gabriele Schoiswohl, Renate Schreiber, Tobias Eisenberg, Christoph Magnes, Simon SedejMatthias Eckhardt, Masakiyo Sasahara, Toshiyasu Sasaoka, Atsumi Nitta, Gerald Hoefler, Wolfgang F Graier, Dagmar Kratky, Johan Auwerx, Juliane G Bogner-Strauss

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

Abstract

N-acetylaspartate (NAA) is synthesized by aspartate N-acetyltransferase (gene: Nat8l) from acetyl-coenzyme A and aspartate. In the brain, NAA is considered an important energy metabolite for lipid synthesis. However, the role of NAA in peripheral tissues remained elusive. Therefore, we characterized the metabolic phenotype of knockout (ko) and adipose tissue-specific (ako) Nat8l-ko mice as well as NAA-supplemented mice on various diets. We identified an important role of NAA availability in the brain during adolescence, as 75% of Nat8l-ko mice died on fat-free diet (FFD) after weaning but could be rescued by NAA supplementation. In adult life, NAA deficiency promotes a beneficial metabolic phenotype, as Nat8l-ko and Nat8l-ako mice showed reduced body weight, increased energy expenditure, and improved glucose tolerance on chow, high-fat, and FFDs. Furthermore, Nat8l-deficient adipocytes exhibited increased mitochondrial respiration, ATP synthesis, and an induction of browning. Conversely, NAA-treated wild-type mice showed reduced adipocyte respiration and lipolysis and increased de novo lipogenesis, culminating in reduced energy expenditure, glucose tolerance, and insulin sensitivity. Mechanistically, our data point to a possible role of NAA as modulator of pancreatic insulin secretion and suggest NAA as a critical energy metabolite for adipocyte and whole-body energy homeostasis.-Hofer, D. C., Zirkovits, G., Pelzmann, H. J., Huber, K., Pessentheiner, A. R., Xia, W., Uno, K., Miyazaki, T., Kon, K., Tsuneki, H., Pendl, T., Al Zoughbi, W., Madreiter-Sokolowski, C. T., Trausinger, G., Abdellatif, M., Schoiswohl, G., Schreiber, R., Eisenberg, T., Magnes, C., Sedej, S., Eckhardt, M., Sasahara, M., Sasaoka, T., Nitta, A., Hoefler, G., Graier, W. F., Kratky, D., Auwerx, J., Bogner-Strauss, J. G. N-acetylaspartate availability is essential for juvenile survival on fat-free diet and determines metabolic health.

Original language	English
Pages (from-to)	13808-13824
Number of pages	17
Journal	The FASEB journal
Volume	33
Issue number	12
DOIs	https://doi.org/10.1096/fj.201801323R
Publication status	Published - Dec 2019

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Hofer, D. C., Zirkovits, G., Pelzmann, H. J., Huber, K., Pessentheiner, A. R., Xia, W., Uno, K., Miyazaki, T., Kon, K., Tsuneki, H., Pendl, T., Al Zoughbi, W., Madreiter-Sokolowski, C. T., Trausinger, G., Abdellatif, M., Schoiswohl, G., Schreiber, R., Eisenberg, T., Magnes, C., ... Bogner-Strauss, J. G. (2019). N-acetylaspartate availability is essential for juvenile survival on fat-free diet and determines metabolic health. The FASEB journal, 33(12), 13808-13824. https://doi.org/10.1096/fj.201801323R

Hofer, DC, Zirkovits, G, Pelzmann, HJ, Huber, K, Pessentheiner, AR, Xia, W, Uno, K, Miyazaki, T, Kon, K, Tsuneki, H, Pendl, T, Al Zoughbi, W, Madreiter-Sokolowski, CT, Trausinger, G, Abdellatif, M, Schoiswohl, G, Schreiber, R, Eisenberg, T, Magnes, C, Sedej, S, Eckhardt, M, Sasahara, M, Sasaoka, T, Nitta, A, Hoefler, G, Graier, WF , Kratky, D, Auwerx, J & Bogner-Strauss, JG 2019, 'N-acetylaspartate availability is essential for juvenile survival on fat-free diet and determines metabolic health', The FASEB journal, vol. 33, no. 12, pp. 13808-13824. https://doi.org/10.1096/fj.201801323R

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title = "N-acetylaspartate availability is essential for juvenile survival on fat-free diet and determines metabolic health",

abstract = "N-acetylaspartate (NAA) is synthesized by aspartate N-acetyltransferase (gene: Nat8l) from acetyl-coenzyme A and aspartate. In the brain, NAA is considered an important energy metabolite for lipid synthesis. However, the role of NAA in peripheral tissues remained elusive. Therefore, we characterized the metabolic phenotype of knockout (ko) and adipose tissue-specific (ako) Nat8l-ko mice as well as NAA-supplemented mice on various diets. We identified an important role of NAA availability in the brain during adolescence, as 75% of Nat8l-ko mice died on fat-free diet (FFD) after weaning but could be rescued by NAA supplementation. In adult life, NAA deficiency promotes a beneficial metabolic phenotype, as Nat8l-ko and Nat8l-ako mice showed reduced body weight, increased energy expenditure, and improved glucose tolerance on chow, high-fat, and FFDs. Furthermore, Nat8l-deficient adipocytes exhibited increased mitochondrial respiration, ATP synthesis, and an induction of browning. Conversely, NAA-treated wild-type mice showed reduced adipocyte respiration and lipolysis and increased de novo lipogenesis, culminating in reduced energy expenditure, glucose tolerance, and insulin sensitivity. Mechanistically, our data point to a possible role of NAA as modulator of pancreatic insulin secretion and suggest NAA as a critical energy metabolite for adipocyte and whole-body energy homeostasis.-Hofer, D. C., Zirkovits, G., Pelzmann, H. J., Huber, K., Pessentheiner, A. R., Xia, W., Uno, K., Miyazaki, T., Kon, K., Tsuneki, H., Pendl, T., Al Zoughbi, W., Madreiter-Sokolowski, C. T., Trausinger, G., Abdellatif, M., Schoiswohl, G., Schreiber, R., Eisenberg, T., Magnes, C., Sedej, S., Eckhardt, M., Sasahara, M., Sasaoka, T., Nitta, A., Hoefler, G., Graier, W. F., Kratky, D., Auwerx, J., Bogner-Strauss, J. G. N-acetylaspartate availability is essential for juvenile survival on fat-free diet and determines metabolic health.",

author = "Hofer, {Dina C} and Gabriel Zirkovits and Pelzmann, {Helmut J} and Katharina Huber and Pessentheiner, {Ariane R} and Wenmin Xia and Kyosuke Uno and Toh Miyazaki and Kanta Kon and Hiroshi Tsuneki and Tobias Pendl and {Al Zoughbi}, Wael and Madreiter-Sokolowski, {Corina T} and Gert Trausinger and Mahmoud Abdellatif and Gabriele Schoiswohl and Renate Schreiber and Tobias Eisenberg and Christoph Magnes and Simon Sedej and Matthias Eckhardt and Masakiyo Sasahara and Toshiyasu Sasaoka and Atsumi Nitta and Gerald Hoefler and Graier, {Wolfgang F} and Dagmar Kratky and Johan Auwerx and Bogner-Strauss, {Juliane G}",

year = "2019",

month = dec,

doi = "10.1096/fj.201801323R",

language = "English",

volume = "33",

pages = "13808--13824",

journal = "The FASEB journal",

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TY - JOUR

T1 - N-acetylaspartate availability is essential for juvenile survival on fat-free diet and determines metabolic health

AU - Hofer, Dina C

AU - Zirkovits, Gabriel

AU - Pelzmann, Helmut J

AU - Huber, Katharina

AU - Pessentheiner, Ariane R

AU - Xia, Wenmin

AU - Uno, Kyosuke

AU - Miyazaki, Toh

AU - Kon, Kanta

AU - Tsuneki, Hiroshi

AU - Pendl, Tobias

AU - Al Zoughbi, Wael

AU - Madreiter-Sokolowski, Corina T

AU - Trausinger, Gert

AU - Abdellatif, Mahmoud

AU - Schoiswohl, Gabriele

AU - Schreiber, Renate

AU - Eisenberg, Tobias

AU - Magnes, Christoph

AU - Sedej, Simon

AU - Eckhardt, Matthias

AU - Sasahara, Masakiyo

AU - Sasaoka, Toshiyasu

AU - Nitta, Atsumi

AU - Hoefler, Gerald

AU - Graier, Wolfgang F

AU - Kratky, Dagmar

AU - Auwerx, Johan

AU - Bogner-Strauss, Juliane G

PY - 2019/12

Y1 - 2019/12

N2 - N-acetylaspartate (NAA) is synthesized by aspartate N-acetyltransferase (gene: Nat8l) from acetyl-coenzyme A and aspartate. In the brain, NAA is considered an important energy metabolite for lipid synthesis. However, the role of NAA in peripheral tissues remained elusive. Therefore, we characterized the metabolic phenotype of knockout (ko) and adipose tissue-specific (ako) Nat8l-ko mice as well as NAA-supplemented mice on various diets. We identified an important role of NAA availability in the brain during adolescence, as 75% of Nat8l-ko mice died on fat-free diet (FFD) after weaning but could be rescued by NAA supplementation. In adult life, NAA deficiency promotes a beneficial metabolic phenotype, as Nat8l-ko and Nat8l-ako mice showed reduced body weight, increased energy expenditure, and improved glucose tolerance on chow, high-fat, and FFDs. Furthermore, Nat8l-deficient adipocytes exhibited increased mitochondrial respiration, ATP synthesis, and an induction of browning. Conversely, NAA-treated wild-type mice showed reduced adipocyte respiration and lipolysis and increased de novo lipogenesis, culminating in reduced energy expenditure, glucose tolerance, and insulin sensitivity. Mechanistically, our data point to a possible role of NAA as modulator of pancreatic insulin secretion and suggest NAA as a critical energy metabolite for adipocyte and whole-body energy homeostasis.-Hofer, D. C., Zirkovits, G., Pelzmann, H. J., Huber, K., Pessentheiner, A. R., Xia, W., Uno, K., Miyazaki, T., Kon, K., Tsuneki, H., Pendl, T., Al Zoughbi, W., Madreiter-Sokolowski, C. T., Trausinger, G., Abdellatif, M., Schoiswohl, G., Schreiber, R., Eisenberg, T., Magnes, C., Sedej, S., Eckhardt, M., Sasahara, M., Sasaoka, T., Nitta, A., Hoefler, G., Graier, W. F., Kratky, D., Auwerx, J., Bogner-Strauss, J. G. N-acetylaspartate availability is essential for juvenile survival on fat-free diet and determines metabolic health.

AB - N-acetylaspartate (NAA) is synthesized by aspartate N-acetyltransferase (gene: Nat8l) from acetyl-coenzyme A and aspartate. In the brain, NAA is considered an important energy metabolite for lipid synthesis. However, the role of NAA in peripheral tissues remained elusive. Therefore, we characterized the metabolic phenotype of knockout (ko) and adipose tissue-specific (ako) Nat8l-ko mice as well as NAA-supplemented mice on various diets. We identified an important role of NAA availability in the brain during adolescence, as 75% of Nat8l-ko mice died on fat-free diet (FFD) after weaning but could be rescued by NAA supplementation. In adult life, NAA deficiency promotes a beneficial metabolic phenotype, as Nat8l-ko and Nat8l-ako mice showed reduced body weight, increased energy expenditure, and improved glucose tolerance on chow, high-fat, and FFDs. Furthermore, Nat8l-deficient adipocytes exhibited increased mitochondrial respiration, ATP synthesis, and an induction of browning. Conversely, NAA-treated wild-type mice showed reduced adipocyte respiration and lipolysis and increased de novo lipogenesis, culminating in reduced energy expenditure, glucose tolerance, and insulin sensitivity. Mechanistically, our data point to a possible role of NAA as modulator of pancreatic insulin secretion and suggest NAA as a critical energy metabolite for adipocyte and whole-body energy homeostasis.-Hofer, D. C., Zirkovits, G., Pelzmann, H. J., Huber, K., Pessentheiner, A. R., Xia, W., Uno, K., Miyazaki, T., Kon, K., Tsuneki, H., Pendl, T., Al Zoughbi, W., Madreiter-Sokolowski, C. T., Trausinger, G., Abdellatif, M., Schoiswohl, G., Schreiber, R., Eisenberg, T., Magnes, C., Sedej, S., Eckhardt, M., Sasahara, M., Sasaoka, T., Nitta, A., Hoefler, G., Graier, W. F., Kratky, D., Auwerx, J., Bogner-Strauss, J. G. N-acetylaspartate availability is essential for juvenile survival on fat-free diet and determines metabolic health.

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DO - 10.1096/fj.201801323R

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SP - 13808

EP - 13824

JO - The FASEB journal

JF - The FASEB journal

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