NANS-mediated synthesis of sialic acid is required for brain and skeletal development

Clara D. M. van Karnebeek; Luisa Bonafé; Xiao-Yan Wen; Maja Tarailo-Graovac; Sara Balzano; Beryl Royer-Bertrand; Angel Ashikov; Livia Garavelli; Isabella Mammi; Licia Turolla; Catherine Breen; Dian Donnai; Valerie Cormier; Delphine Heron; Gen Nishimura; Shinichi Uchikawa; Belinda Campos-Xavier; Antonio Rossi; Thierry Hennet; Koroboshka Brand-Arzamendi; Jacob Rozmus; Keith Harshman; Brian J. Stevenson; Enrico Girardi; Giulio Superti-Furga; Tammie Dewan; Alissa Collingridge; Jessie Halparin; Colin J. Ross; Margot I. van Allen; Andrea Rossi; Udo F. Engelke; Leo A. J. Kluijtmans; Ed van der Heeft; Herma Renkema; Arjan de Brouwer; Karin Huijben; Fokje Zijlstra; Thorben Heisse; Thomas Boltje; Wyeth W. Wasserman; Carlo Rivolta; Sheila Unger; Dirk J. Lefeber; Ron A. Wevers; Andrea Superti-Furga

doi:https://doi.org/10.1038/ng.3578

NANS-mediated synthesis of sialic acid is required for brain and skeletal development

Clara D. M. van Karnebeek, Luisa Bonafé, Xiao-Yan Wen, Maja Tarailo-Graovac, Sara Balzano, Beryl Royer-Bertrand, Angel Ashikov, Livia Garavelli, Isabella Mammi, Licia Turolla, Catherine Breen, Dian Donnai, Valerie Cormier, Delphine Heron, Gen Nishimura, Shinichi Uchikawa, Belinda Campos-Xavier, Antonio Rossi, Thierry Hennet, Koroboshka Brand-ArzamendiJacob Rozmus, Keith Harshman, Brian J. Stevenson, Enrico Girardi, Giulio Superti-Furga, Tammie Dewan, Alissa Collingridge, Jessie Halparin, Colin J. Ross, Margot I. van Allen, Andrea Rossi, Udo F. Engelke, Leo A. J. Kluijtmans, Ed van der Heeft, Herma Renkema, Arjan de Brouwer, Karin Huijben, Fokje Zijlstra, Thorben Heisse, Thomas Boltje, Wyeth W. Wasserman, Carlo Rivolta, Sheila Unger, Dirk J. Lefeber, Ron A. Wevers, Andrea Superti-Furga

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

116 Citations (Scopus)

Abstract

We identified biallelic mutations in NANS, the gene encoding the synthase for N-acetylneuraminic acid (NeuNAc; sialic acid), in nine individuals with infantile-onset severe developmental delay and skeletal dysplasia. Patient body fluids showed an elevation in N-acetyl-d-mannosamine levels, and patient-derived fibroblasts had reduced NANS activity and were unable to incorporate sialic acid precursors into sialylated glycoproteins. Knockdown of nansa in zebrafish embryos resulted in abnormal skeletal development, and exogenously added sialic acid partially rescued the skeletal phenotype. Thus, NANS-mediated synthesis of sialic acid is required for early brain development and skeletal growth. Normal sialylation of plasma proteins was observed in spite of NANS deficiency. Exploration of endogenous synthesis, nutritional absorption, and rescue pathways for sialic acid in different tissues and developmental phases is warranted to design therapeutic strategies to counteract NANS deficiency and to shed light on sialic acid metabolism and its implications for human nutrition

Original language	English
Pages (from-to)	777-+
Journal	Nature Genetics
Volume	48
Issue number	7
DOIs	https://doi.org/10.1038/ng.3578
Publication status	Published - 2016

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https://doi.org/10.1038/ng.3578

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van Karnebeek, C. D. M., Bonafé, L., Wen, X.-Y., Tarailo-Graovac, M., Balzano, S., Royer-Bertrand, B., Ashikov, A., Garavelli, L., Mammi, I., Turolla, L., Breen, C., Donnai, D., Cormier, V., Heron, D., Nishimura, G., Uchikawa, S., Campos-Xavier, B., Rossi, A., Hennet, T., ... Superti-Furga, A. (2016). NANS-mediated synthesis of sialic acid is required for brain and skeletal development. Nature Genetics, 48(7), 777-+. https://doi.org/10.1038/ng.3578

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title = "NANS-mediated synthesis of sialic acid is required for brain and skeletal development",

abstract = "We identified biallelic mutations in NANS, the gene encoding the synthase for N-acetylneuraminic acid (NeuNAc; sialic acid), in nine individuals with infantile-onset severe developmental delay and skeletal dysplasia. Patient body fluids showed an elevation in N-acetyl-d-mannosamine levels, and patient-derived fibroblasts had reduced NANS activity and were unable to incorporate sialic acid precursors into sialylated glycoproteins. Knockdown of nansa in zebrafish embryos resulted in abnormal skeletal development, and exogenously added sialic acid partially rescued the skeletal phenotype. Thus, NANS-mediated synthesis of sialic acid is required for early brain development and skeletal growth. Normal sialylation of plasma proteins was observed in spite of NANS deficiency. Exploration of endogenous synthesis, nutritional absorption, and rescue pathways for sialic acid in different tissues and developmental phases is warranted to design therapeutic strategies to counteract NANS deficiency and to shed light on sialic acid metabolism and its implications for human nutrition",

author = "{van Karnebeek}, {Clara D. M.} and Luisa Bonaf{\'e} and Xiao-Yan Wen and Maja Tarailo-Graovac and Sara Balzano and Beryl Royer-Bertrand and Angel Ashikov and Livia Garavelli and Isabella Mammi and Licia Turolla and Catherine Breen and Dian Donnai and Valerie Cormier and Delphine Heron and Gen Nishimura and Shinichi Uchikawa and Belinda Campos-Xavier and Antonio Rossi and Thierry Hennet and Koroboshka Brand-Arzamendi and Jacob Rozmus and Keith Harshman and Stevenson, {Brian J.} and Enrico Girardi and Giulio Superti-Furga and Tammie Dewan and Alissa Collingridge and Jessie Halparin and Ross, {Colin J.} and {van Allen}, {Margot I.} and Andrea Rossi and Engelke, {Udo F.} and Kluijtmans, {Leo A. J.} and {van der Heeft}, Ed and Herma Renkema and {de Brouwer}, Arjan and Karin Huijben and Fokje Zijlstra and Thorben Heisse and Thomas Boltje and Wasserman, {Wyeth W.} and Carlo Rivolta and Sheila Unger and Lefeber, {Dirk J.} and Wevers, {Ron A.} and Andrea Superti-Furga",

year = "2016",

doi = "https://doi.org/10.1038/ng.3578",

language = "English",

volume = "48",

pages = "777--+",

journal = "Nature Genetics",

issn = "1061-4036",

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van Karnebeek, CDM, Bonafé, L, Wen, X-Y, Tarailo-Graovac, M, Balzano, S, Royer-Bertrand, B, Ashikov, A, Garavelli, L, Mammi, I, Turolla, L, Breen, C, Donnai, D, Cormier, V, Heron, D, Nishimura, G, Uchikawa, S, Campos-Xavier, B, Rossi, A, Hennet, T, Brand-Arzamendi, K, Rozmus, J, Harshman, K, Stevenson, BJ, Girardi, E, Superti-Furga, G, Dewan, T, Collingridge, A, Halparin, J, Ross, CJ, van Allen, MI, Rossi, A, Engelke, UF, Kluijtmans, LAJ, van der Heeft, E, Renkema, H, de Brouwer, A, Huijben, K, Zijlstra, F, Heisse, T, Boltje, T, Wasserman, WW, Rivolta, C, Unger, S, Lefeber, DJ, Wevers, RA & Superti-Furga, A 2016, 'NANS-mediated synthesis of sialic acid is required for brain and skeletal development', Nature Genetics, vol. 48, no. 7, pp. 777-+. https://doi.org/10.1038/ng.3578

TY - JOUR

T1 - NANS-mediated synthesis of sialic acid is required for brain and skeletal development

AU - van Karnebeek, Clara D. M.

AU - Bonafé, Luisa

AU - Wen, Xiao-Yan

AU - Tarailo-Graovac, Maja

AU - Balzano, Sara

AU - Royer-Bertrand, Beryl

AU - Ashikov, Angel

AU - Garavelli, Livia

AU - Mammi, Isabella

AU - Turolla, Licia

AU - Breen, Catherine

AU - Donnai, Dian

AU - Cormier, Valerie

AU - Heron, Delphine

AU - Nishimura, Gen

AU - Uchikawa, Shinichi

AU - Campos-Xavier, Belinda

AU - Rossi, Antonio

AU - Hennet, Thierry

AU - Brand-Arzamendi, Koroboshka

AU - Rozmus, Jacob

AU - Harshman, Keith

AU - Stevenson, Brian J.

AU - Girardi, Enrico

AU - Superti-Furga, Giulio

AU - Dewan, Tammie

AU - Collingridge, Alissa

AU - Halparin, Jessie

AU - Ross, Colin J.

AU - van Allen, Margot I.

AU - Rossi, Andrea

AU - Engelke, Udo F.

AU - Kluijtmans, Leo A. J.

AU - van der Heeft, Ed

AU - Renkema, Herma

AU - de Brouwer, Arjan

AU - Huijben, Karin

AU - Zijlstra, Fokje

AU - Heisse, Thorben

AU - Boltje, Thomas

AU - Wasserman, Wyeth W.

AU - Rivolta, Carlo

AU - Unger, Sheila

AU - Lefeber, Dirk J.

AU - Wevers, Ron A.

AU - Superti-Furga, Andrea

PY - 2016

Y1 - 2016

N2 - We identified biallelic mutations in NANS, the gene encoding the synthase for N-acetylneuraminic acid (NeuNAc; sialic acid), in nine individuals with infantile-onset severe developmental delay and skeletal dysplasia. Patient body fluids showed an elevation in N-acetyl-d-mannosamine levels, and patient-derived fibroblasts had reduced NANS activity and were unable to incorporate sialic acid precursors into sialylated glycoproteins. Knockdown of nansa in zebrafish embryos resulted in abnormal skeletal development, and exogenously added sialic acid partially rescued the skeletal phenotype. Thus, NANS-mediated synthesis of sialic acid is required for early brain development and skeletal growth. Normal sialylation of plasma proteins was observed in spite of NANS deficiency. Exploration of endogenous synthesis, nutritional absorption, and rescue pathways for sialic acid in different tissues and developmental phases is warranted to design therapeutic strategies to counteract NANS deficiency and to shed light on sialic acid metabolism and its implications for human nutrition

AB - We identified biallelic mutations in NANS, the gene encoding the synthase for N-acetylneuraminic acid (NeuNAc; sialic acid), in nine individuals with infantile-onset severe developmental delay and skeletal dysplasia. Patient body fluids showed an elevation in N-acetyl-d-mannosamine levels, and patient-derived fibroblasts had reduced NANS activity and were unable to incorporate sialic acid precursors into sialylated glycoproteins. Knockdown of nansa in zebrafish embryos resulted in abnormal skeletal development, and exogenously added sialic acid partially rescued the skeletal phenotype. Thus, NANS-mediated synthesis of sialic acid is required for early brain development and skeletal growth. Normal sialylation of plasma proteins was observed in spite of NANS deficiency. Exploration of endogenous synthesis, nutritional absorption, and rescue pathways for sialic acid in different tissues and developmental phases is warranted to design therapeutic strategies to counteract NANS deficiency and to shed light on sialic acid metabolism and its implications for human nutrition

U2 - https://doi.org/10.1038/ng.3578

DO - https://doi.org/10.1038/ng.3578

M3 - Article

C2 - 27213289

SN - 1061-4036

VL - 48

SP - 777-+

JO - Nature Genetics

JF - Nature Genetics

IS - 7

ER -