Biallelic mutations in SORD cause a common and potentially treatable hereditary neuropathy with implications for diabetes

A. Cortese; Y. Zhu; A.P. Rebelo; S. Negri; S. Courel; L. Abreu; C.J. Bacon; Y. Bai; D.M. Bis-Brewer; E. Bugiardini; E. Buglo; M.C. Danzi; S.M.E. Feely; A. Athanasiou-Fragkouli; N.A. Haridy; A. Rodriguez; A. Bacha; A. Kosikowski; B. Wood; B. McCray; B. Blume; C. Siskind; C. Sumner; D. Calabrese; D. Walk; D. Vujovic; E. Park; F. Muntoni; G. Donlevy; G. Acsadi; J. Day; J. Burns; J. Li; K. Krajewski; K. Eichinger; K. Cornett; K. Mullen; P.Q. Laura; L. Gutmann; M. Barrett; M. Saporta; M. Skorupinska; N. Grant; P. Bray; R. Seyedsadjadi; R. Zuccarino; R. Finkel; R. Lewis; S. Yum; S. Hilbert; S. Thomas; S. Behrens-Spraggins; T. Jones; T. Lloyd; T. Grider; T. Estilow; V. Fridman; R. Isasi; A. Khan; M. Laurà; S. Magri; M. Pipis; C. Pisciotta; E. Powell; A.M. Rossor; P. Saveri; J.E. Sowden; S. Tozza; J. Vandrovcova; J. Dallman; E. Grignani; E. Marchioni; S.S. Scherer; B. Tang; Z. Lin; A. Al-Ajmi; R. Schüle; M. Synofzik; T. Maisonobe; T. Stojkovic; M. Auer-Grumbach; M.A. Abdelhamed; S.A. Hamed; R. Zhang; F. Manganelli; L. Santoro; F. Taroni; D. Pareyson; H. Houlden; D.N. Herrmann; M.M. Reilly; M.E. Shy; R.G. Zhai; S. Zuchner; Inherited Neuropathy Consortium

doi:10.1038/s41588-020-0615-4

Biallelic mutations in SORD cause a common and potentially treatable hereditary neuropathy with implications for diabetes

A. Cortese, Y. Zhu, A.P. Rebelo, S. Negri, S. Courel, L. Abreu, C.J. Bacon, Y. Bai, D.M. Bis-Brewer, E. Bugiardini, E. Buglo, M.C. Danzi, S.M.E. Feely, A. Athanasiou-Fragkouli, N.A. Haridy, A. Rodriguez, A. Bacha, A. Kosikowski, B. Wood, B. McCrayB. Blume, C. Siskind, C. Sumner, D. Calabrese, D. Walk, D. Vujovic, E. Park, F. Muntoni, G. Donlevy, G. Acsadi, J. Day, J. Burns, J. Li, K. Krajewski, K. Eichinger, K. Cornett, K. Mullen, P.Q. Laura, L. Gutmann, M. Barrett, M. Saporta, M. Skorupinska, N. Grant, P. Bray, R. Seyedsadjadi, R. Zuccarino, R. Finkel, R. Lewis, S. Yum, S. Hilbert, S. Thomas, S. Behrens-Spraggins, T. Jones, T. Lloyd, T. Grider, T. Estilow, V. Fridman, R. Isasi, A. Khan, M. Laurà, S. Magri, M. Pipis, C. Pisciotta, E. Powell, A.M. Rossor, P. Saveri, J.E. Sowden, S. Tozza, J. Vandrovcova, J. Dallman, E. Grignani, E. Marchioni, S.S. Scherer, B. Tang, Z. Lin, A. Al-Ajmi, R. Schüle, M. Synofzik, T. Maisonobe, T. Stojkovic, M. Auer-Grumbach, M.A. Abdelhamed, S.A. Hamed, R. Zhang, F. Manganelli, L. Santoro, F. Taroni, D. Pareyson, H. Houlden, D.N. Herrmann, M.M. Reilly, M.E. Shy, R.G. Zhai, S. Zuchner, Inherited Neuropathy Consortium

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

Abstract

Here we report biallelic mutations in the sorbitol dehydrogenase gene (SORD) as the most frequent recessive form of hereditary neuropathy. We identified 45 individuals from 38 families across multiple ancestries carrying the nonsense c.757delG (p.Ala253GlnfsTer27) variant in SORD, in either a homozygous or compound heterozygous state. SORD is an enzyme that converts sorbitol into fructose in the two-step polyol pathway previously implicated in diabetic neuropathy. In patient-derived fibroblasts, we found a complete loss of SORD protein and increased intracellular sorbitol. Furthermore, the serum fasting sorbitol levels in patients were dramatically increased. In Drosophila, loss of SORD orthologs caused synaptic degeneration and progressive motor impairment. Reducing the polyol influx by treatment with aldose reductase inhibitors normalized intracellular sorbitol levels in patient-derived fibroblasts and in Drosophila, and also dramatically ameliorated motor and eye phenotypes. Together, these findings establish a novel and potentially treatable cause of neuropathy and may contribute to a better understanding of the pathophysiology of diabetes. © 2020, The Author(s), under exclusive licence to Springer Nature America, Inc.

Original language	English
Pages (from-to)	473-481
Number of pages	9
Journal	Nature Genetics
Volume	52
Issue number	5
DOIs	https://doi.org/10.1038/s41588-020-0615-4
Publication status	Published - 2020

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10.1038/s41588-020-0615-4

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85084379361&doi=10.1038%2fs41588-020-0615-4&partnerID=40&md5=1217e04de5cead69774f2f958b566413

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Cortese, A., Zhu, Y., Rebelo, A. P., Negri, S., Courel, S., Abreu, L., Bacon, C. J., Bai, Y., Bis-Brewer, D. M., Bugiardini, E., Buglo, E., Danzi, M. C., Feely, S. M. E., Athanasiou-Fragkouli, A., Haridy, N. A., Rodriguez, A., Bacha, A., Kosikowski, A., Wood, B., ... Consortium, I. N. (2020). Biallelic mutations in SORD cause a common and potentially treatable hereditary neuropathy with implications for diabetes. Nature Genetics, 52(5), 473-481. https://doi.org/10.1038/s41588-020-0615-4

Biallelic mutations in SORD cause a common and potentially treatable hereditary neuropathy with implications for diabetes. / Cortese, A.; Zhu, Y.; Rebelo, A.P.; Negri, S.; Courel, S.; Abreu, L.; Bacon, C.J.; Bai, Y.; Bis-Brewer, D.M.; Bugiardini, E.; Buglo, E.; Danzi, M.C.; Feely, S.M.E.; Athanasiou-Fragkouli, A.; Haridy, N.A.; Rodriguez, A.; Bacha, A.; Kosikowski, A.; Wood, B.; McCray, B.; Blume, B.; Siskind, C.; Sumner, C.; Calabrese, D.; Walk, D.; Vujovic, D.; Park, E.; Muntoni, F.; Donlevy, G.; Acsadi, G.; Day, J.; Burns, J.; Li, J.; Krajewski, K.; Eichinger, K.; Cornett, K.; Mullen, K.; Laura, P.Q.; Gutmann, L.; Barrett, M.; Saporta, M.; Skorupinska, M.; Grant, N.; Bray, P.; Seyedsadjadi, R.; Zuccarino, R.; Finkel, R.; Lewis, R.; Yum, S.; Hilbert, S.; Thomas, S.; Behrens-Spraggins, S.; Jones, T.; Lloyd, T.; Grider, T.; Estilow, T.; Fridman, V.; Isasi, R.; Khan, A.; Laurà, M.; Magri, S.; Pipis, M.; Pisciotta, C.; Powell, E.; Rossor, A.M.; Saveri, P.; Sowden, J.E.; Tozza, S.; Vandrovcova, J.; Dallman, J.; Grignani, E.; Marchioni, E.; Scherer, S.S.; Tang, B.; Lin, Z.; Al-Ajmi, A.; Schüle, R.; Synofzik, M.; Maisonobe, T.; Stojkovic, T.; Auer-Grumbach, M.; Abdelhamed, M.A.; Hamed, S.A.; Zhang, R.; Manganelli, F.; Santoro, L.; Taroni, F.; Pareyson, D.; Houlden, H.; Herrmann, D.N.; Reilly, M.M.; Shy, M.E.; Zhai, R.G.; Zuchner, S.; Consortium, Inherited Neuropathy.

In: Nature Genetics, Vol. 52, No. 5, 2020, p. 473-481.

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

Cortese, A, Zhu, Y, Rebelo, AP, Negri, S, Courel, S, Abreu, L, Bacon, CJ, Bai, Y, Bis-Brewer, DM, Bugiardini, E, Buglo, E, Danzi, MC, Feely, SME, Athanasiou-Fragkouli, A, Haridy, NA, Rodriguez, A, Bacha, A, Kosikowski, A, Wood, B, McCray, B, Blume, B, Siskind, C, Sumner, C, Calabrese, D, Walk, D, Vujovic, D, Park, E, Muntoni, F, Donlevy, G, Acsadi, G, Day, J, Burns, J, Li, J, Krajewski, K, Eichinger, K, Cornett, K, Mullen, K, Laura, PQ, Gutmann, L, Barrett, M, Saporta, M, Skorupinska, M, Grant, N, Bray, P, Seyedsadjadi, R, Zuccarino, R, Finkel, R, Lewis, R, Yum, S, Hilbert, S, Thomas, S, Behrens-Spraggins, S, Jones, T, Lloyd, T, Grider, T, Estilow, T, Fridman, V, Isasi, R, Khan, A, Laurà, M, Magri, S, Pipis, M, Pisciotta, C, Powell, E, Rossor, AM, Saveri, P, Sowden, JE, Tozza, S, Vandrovcova, J, Dallman, J, Grignani, E , Marchioni, E, Scherer, SS, Tang, B, Lin, Z, Al-Ajmi, A, Schüle, R, Synofzik, M, Maisonobe, T, Stojkovic, T, Auer-Grumbach, M, Abdelhamed, MA, Hamed, SA, Zhang, R, Manganelli, F, Santoro, L, Taroni, F , Pareyson, D, Houlden, H, Herrmann, DN, Reilly, MM, Shy, ME, Zhai, RG, Zuchner, S & Consortium, IN 2020, 'Biallelic mutations in SORD cause a common and potentially treatable hereditary neuropathy with implications for diabetes', Nature Genetics, vol. 52, no. 5, pp. 473-481. https://doi.org/10.1038/s41588-020-0615-4

Cortese, A. ; Zhu, Y. ; Rebelo, A.P. ; Negri, S. ; Courel, S. ; Abreu, L. ; Bacon, C.J. ; Bai, Y. ; Bis-Brewer, D.M. ; Bugiardini, E. ; Buglo, E. ; Danzi, M.C. ; Feely, S.M.E. ; Athanasiou-Fragkouli, A. ; Haridy, N.A. ; Rodriguez, A. ; Bacha, A. ; Kosikowski, A. ; Wood, B. ; McCray, B. ; Blume, B. ; Siskind, C. ; Sumner, C. ; Calabrese, D. ; Walk, D. ; Vujovic, D. ; Park, E. ; Muntoni, F. ; Donlevy, G. ; Acsadi, G. ; Day, J. ; Burns, J. ; Li, J. ; Krajewski, K. ; Eichinger, K. ; Cornett, K. ; Mullen, K. ; Laura, P.Q. ; Gutmann, L. ; Barrett, M. ; Saporta, M. ; Skorupinska, M. ; Grant, N. ; Bray, P. ; Seyedsadjadi, R. ; Zuccarino, R. ; Finkel, R. ; Lewis, R. ; Yum, S. ; Hilbert, S. ; Thomas, S. ; Behrens-Spraggins, S. ; Jones, T. ; Lloyd, T. ; Grider, T. ; Estilow, T. ; Fridman, V. ; Isasi, R. ; Khan, A. ; Laurà, M. ; Magri, S. ; Pipis, M. ; Pisciotta, C. ; Powell, E. ; Rossor, A.M. ; Saveri, P. ; Sowden, J.E. ; Tozza, S. ; Vandrovcova, J. ; Dallman, J. ; Grignani, E. ; Marchioni, E. ; Scherer, S.S. ; Tang, B. ; Lin, Z. ; Al-Ajmi, A. ; Schüle, R. ; Synofzik, M. ; Maisonobe, T. ; Stojkovic, T. ; Auer-Grumbach, M. ; Abdelhamed, M.A. ; Hamed, S.A. ; Zhang, R. ; Manganelli, F. ; Santoro, L. ; Taroni, F. ; Pareyson, D. ; Houlden, H. ; Herrmann, D.N. ; Reilly, M.M. ; Shy, M.E. ; Zhai, R.G. ; Zuchner, S. ; Consortium, Inherited Neuropathy. / Biallelic mutations in SORD cause a common and potentially treatable hereditary neuropathy with implications for diabetes. In: Nature Genetics. 2020 ; Vol. 52, No. 5. pp. 473-481.

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title = "Biallelic mutations in SORD cause a common and potentially treatable hereditary neuropathy with implications for diabetes",

abstract = "Here we report biallelic mutations in the sorbitol dehydrogenase gene (SORD) as the most frequent recessive form of hereditary neuropathy. We identified 45 individuals from 38 families across multiple ancestries carrying the nonsense c.757delG (p.Ala253GlnfsTer27) variant in SORD, in either a homozygous or compound heterozygous state. SORD is an enzyme that converts sorbitol into fructose in the two-step polyol pathway previously implicated in diabetic neuropathy. In patient-derived fibroblasts, we found a complete loss of SORD protein and increased intracellular sorbitol. Furthermore, the serum fasting sorbitol levels in patients were dramatically increased. In Drosophila, loss of SORD orthologs caused synaptic degeneration and progressive motor impairment. Reducing the polyol influx by treatment with aldose reductase inhibitors normalized intracellular sorbitol levels in patient-derived fibroblasts and in Drosophila, and also dramatically ameliorated motor and eye phenotypes. Together, these findings establish a novel and potentially treatable cause of neuropathy and may contribute to a better understanding of the pathophysiology of diabetes. {\textcopyright} 2020, The Author(s), under exclusive licence to Springer Nature America, Inc.",

author = "A. Cortese and Y. Zhu and A.P. Rebelo and S. Negri and S. Courel and L. Abreu and C.J. Bacon and Y. Bai and D.M. Bis-Brewer and E. Bugiardini and E. Buglo and M.C. Danzi and S.M.E. Feely and A. Athanasiou-Fragkouli and N.A. Haridy and A. Rodriguez and A. Bacha and A. Kosikowski and B. Wood and B. McCray and B. Blume and C. Siskind and C. Sumner and D. Calabrese and D. Walk and D. Vujovic and E. Park and F. Muntoni and G. Donlevy and G. Acsadi and J. Day and J. Burns and J. Li and K. Krajewski and K. Eichinger and K. Cornett and K. Mullen and P.Q. Laura and L. Gutmann and M. Barrett and M. Saporta and M. Skorupinska and N. Grant and P. Bray and R. Seyedsadjadi and R. Zuccarino and R. Finkel and R. Lewis and S. Yum and S. Hilbert and S. Thomas and S. Behrens-Spraggins and T. Jones and T. Lloyd and T. Grider and T. Estilow and V. Fridman and R. Isasi and A. Khan and M. Laur{\`a} and S. Magri and M. Pipis and C. Pisciotta and E. Powell and A.M. Rossor and P. Saveri and J.E. Sowden and S. Tozza and J. Vandrovcova and J. Dallman and E. Grignani and E. Marchioni and S.S. Scherer and B. Tang and Z. Lin and A. Al-Ajmi and R. Sch{\"u}le and M. Synofzik and T. Maisonobe and T. Stojkovic and M. Auer-Grumbach and M.A. Abdelhamed and S.A. Hamed and R. Zhang and F. Manganelli and L. Santoro and F. Taroni and D. Pareyson and H. Houlden and D.N. Herrmann and M.M. Reilly and M.E. Shy and R.G. Zhai and S. Zuchner and Consortium, {Inherited Neuropathy}",

note = "Cited By :11 Export Date: 28 December 2020",

year = "2020",

doi = "10.1038/s41588-020-0615-4",

language = "English",

volume = "52",

pages = "473--481",

journal = "Nature Genetics",

issn = "1061-4036",

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TY - JOUR

T1 - Biallelic mutations in SORD cause a common and potentially treatable hereditary neuropathy with implications for diabetes

AU - Cortese, A.

AU - Zhu, Y.

AU - Rebelo, A.P.

AU - Negri, S.

AU - Courel, S.

AU - Abreu, L.

AU - Bacon, C.J.

AU - Bai, Y.

AU - Bis-Brewer, D.M.

AU - Bugiardini, E.

AU - Buglo, E.

AU - Danzi, M.C.

AU - Feely, S.M.E.

AU - Athanasiou-Fragkouli, A.

AU - Haridy, N.A.

AU - Rodriguez, A.

AU - Bacha, A.

AU - Kosikowski, A.

AU - Wood, B.

AU - McCray, B.

AU - Blume, B.

AU - Siskind, C.

AU - Sumner, C.

AU - Calabrese, D.

AU - Walk, D.

AU - Vujovic, D.

AU - Park, E.

AU - Muntoni, F.

AU - Donlevy, G.

AU - Acsadi, G.

AU - Day, J.

AU - Burns, J.

AU - Li, J.

AU - Krajewski, K.

AU - Eichinger, K.

AU - Cornett, K.

AU - Mullen, K.

AU - Laura, P.Q.

AU - Gutmann, L.

AU - Barrett, M.

AU - Saporta, M.

AU - Skorupinska, M.

AU - Grant, N.

AU - Bray, P.

AU - Seyedsadjadi, R.

AU - Zuccarino, R.

AU - Finkel, R.

AU - Lewis, R.

AU - Yum, S.

AU - Hilbert, S.

AU - Thomas, S.

AU - Behrens-Spraggins, S.

AU - Jones, T.

AU - Lloyd, T.

AU - Grider, T.

AU - Estilow, T.

AU - Fridman, V.

AU - Isasi, R.

AU - Khan, A.

AU - Laurà, M.

AU - Magri, S.

AU - Pipis, M.

AU - Pisciotta, C.

AU - Powell, E.

AU - Rossor, A.M.

AU - Saveri, P.

AU - Sowden, J.E.

AU - Tozza, S.

AU - Vandrovcova, J.

AU - Dallman, J.

AU - Grignani, E.

AU - Marchioni, E.

AU - Scherer, S.S.

AU - Tang, B.

AU - Lin, Z.

AU - Al-Ajmi, A.

AU - Schüle, R.

AU - Synofzik, M.

AU - Maisonobe, T.

AU - Stojkovic, T.

AU - Auer-Grumbach, M.

AU - Abdelhamed, M.A.

AU - Hamed, S.A.

AU - Zhang, R.

AU - Manganelli, F.

AU - Santoro, L.

AU - Taroni, F.

AU - Pareyson, D.

AU - Houlden, H.

AU - Herrmann, D.N.

AU - Reilly, M.M.

AU - Shy, M.E.

AU - Zhai, R.G.

AU - Zuchner, S.

AU - Consortium, Inherited Neuropathy

N1 - Cited By :11 Export Date: 28 December 2020

PY - 2020

Y1 - 2020

N2 - Here we report biallelic mutations in the sorbitol dehydrogenase gene (SORD) as the most frequent recessive form of hereditary neuropathy. We identified 45 individuals from 38 families across multiple ancestries carrying the nonsense c.757delG (p.Ala253GlnfsTer27) variant in SORD, in either a homozygous or compound heterozygous state. SORD is an enzyme that converts sorbitol into fructose in the two-step polyol pathway previously implicated in diabetic neuropathy. In patient-derived fibroblasts, we found a complete loss of SORD protein and increased intracellular sorbitol. Furthermore, the serum fasting sorbitol levels in patients were dramatically increased. In Drosophila, loss of SORD orthologs caused synaptic degeneration and progressive motor impairment. Reducing the polyol influx by treatment with aldose reductase inhibitors normalized intracellular sorbitol levels in patient-derived fibroblasts and in Drosophila, and also dramatically ameliorated motor and eye phenotypes. Together, these findings establish a novel and potentially treatable cause of neuropathy and may contribute to a better understanding of the pathophysiology of diabetes. © 2020, The Author(s), under exclusive licence to Springer Nature America, Inc.

AB - Here we report biallelic mutations in the sorbitol dehydrogenase gene (SORD) as the most frequent recessive form of hereditary neuropathy. We identified 45 individuals from 38 families across multiple ancestries carrying the nonsense c.757delG (p.Ala253GlnfsTer27) variant in SORD, in either a homozygous or compound heterozygous state. SORD is an enzyme that converts sorbitol into fructose in the two-step polyol pathway previously implicated in diabetic neuropathy. In patient-derived fibroblasts, we found a complete loss of SORD protein and increased intracellular sorbitol. Furthermore, the serum fasting sorbitol levels in patients were dramatically increased. In Drosophila, loss of SORD orthologs caused synaptic degeneration and progressive motor impairment. Reducing the polyol influx by treatment with aldose reductase inhibitors normalized intracellular sorbitol levels in patient-derived fibroblasts and in Drosophila, and also dramatically ameliorated motor and eye phenotypes. Together, these findings establish a novel and potentially treatable cause of neuropathy and may contribute to a better understanding of the pathophysiology of diabetes. © 2020, The Author(s), under exclusive licence to Springer Nature America, Inc.

U2 - 10.1038/s41588-020-0615-4

DO - 10.1038/s41588-020-0615-4

M3 - Article

VL - 52

SP - 473

EP - 481

JO - Nature Genetics

JF - Nature Genetics

SN - 1061-4036

IS - 5

ER -

Biallelic mutations in SORD cause a common and potentially treatable hereditary neuropathy with implications for diabetes

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