The leukodystrophy protein FAM126A (hyccin) regulates PtdIns(4)P synthesis at the plasma membrane

Jeremy M. Baskin; Xudong Wu; Romain Christiano; Michael S. Oh; Curtis M. Schauder; Elisabetta Gazzerro; Mirko Messa; Simona Baldassari; Stefania Assereto; Roberta Biancheri; Federico Zara; Carlo Minetti; Andrea Raimondi; Mikael Simons; Tobias C. Walther; Karin M. Reinisch; Pietro De Camilli

doi:10.1038/ncb3271

The leukodystrophy protein FAM126A (hyccin) regulates PtdIns(4)P synthesis at the plasma membrane

Jeremy M. Baskin, Xudong Wu, Romain Christiano, Michael S. Oh, Curtis M. Schauder, Elisabetta Gazzerro, Mirko Messa, Simona Baldassari, Stefania Assereto, Roberta Biancheri, Federico Zara, Carlo Minetti, Andrea Raimondi, Mikael Simons, Tobias C. Walther, Karin M. Reinisch, Pietro De Camilli

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Abstract

Genetic defects in myelin formation and maintenance cause leukodystrophies, a group of white matter diseases whose mechanistic underpinnings are poorly understood. Hypomyelination and congenital cataract (HCC), one of these disorders, is caused by mutations in FAM126A, a gene of unknown function. We show that FAM126A, also known as hyccin, regulates the synthesis of phosphatidylinositol 4-phosphate (PtdIns(4)P), a determinant of plasma membrane identity. HCC patient fibroblasts exhibit reduced PtdIns(4)P levels. FAM126A is an intrinsic component of the plasma membrane phosphatidylinositol 4-kinase complex that comprises PI4KIIIα and its adaptors TTC7 and EFR3 (refs,). A FAM126A-TTC7 co-crystal structure reveals an all-α-helical heterodimer with a large protein-protein interface and a conserved surface that may mediate binding to PI4KIIIα. Absence of FAM126A, the predominant FAM126 isoform in oligodendrocytes, destabilizes the PI4KIIIα complex in mouse brain and patient fibroblasts. We propose that HCC pathogenesis involves defects in PtdIns(4)P production in oligodendrocytes, whose specialized function requires massive plasma membrane expansion and thus generation of PtdIns(4)P and downstream phosphoinositides. Our results point to a role for FAM126A in supporting myelination, an important process in development and also following acute exacerbations in multiple sclerosis.

Original language	English
Pages (from-to)	132-138
Number of pages	7
Journal	Nature Cell Biology
Volume	18
Issue number	1
DOIs	https://doi.org/10.1038/ncb3271
State	Published - 1 Jan 2016
Externally published	Yes

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Baskin, J. M., Wu, X., Christiano, R., Oh, M. S., Schauder, C. M., Gazzerro, E., Messa, M., Baldassari, S., Assereto, S., Biancheri, R., Zara, F., Minetti, C., Raimondi, A., Simons, M., Walther, T. C., Reinisch, K. M., & De Camilli, P. (2016). The leukodystrophy protein FAM126A (hyccin) regulates PtdIns(4)P synthesis at the plasma membrane. Nature Cell Biology, 18(1), 132-138. https://doi.org/10.1038/ncb3271

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title = "The leukodystrophy protein FAM126A (hyccin) regulates PtdIns(4)P synthesis at the plasma membrane",

abstract = "Genetic defects in myelin formation and maintenance cause leukodystrophies, a group of white matter diseases whose mechanistic underpinnings are poorly understood. Hypomyelination and congenital cataract (HCC), one of these disorders, is caused by mutations in FAM126A, a gene of unknown function. We show that FAM126A, also known as hyccin, regulates the synthesis of phosphatidylinositol 4-phosphate (PtdIns(4)P), a determinant of plasma membrane identity. HCC patient fibroblasts exhibit reduced PtdIns(4)P levels. FAM126A is an intrinsic component of the plasma membrane phosphatidylinositol 4-kinase complex that comprises PI4KIIIα and its adaptors TTC7 and EFR3 (refs,). A FAM126A-TTC7 co-crystal structure reveals an all-α-helical heterodimer with a large protein-protein interface and a conserved surface that may mediate binding to PI4KIIIα. Absence of FAM126A, the predominant FAM126 isoform in oligodendrocytes, destabilizes the PI4KIIIα complex in mouse brain and patient fibroblasts. We propose that HCC pathogenesis involves defects in PtdIns(4)P production in oligodendrocytes, whose specialized function requires massive plasma membrane expansion and thus generation of PtdIns(4)P and downstream phosphoinositides. Our results point to a role for FAM126A in supporting myelination, an important process in development and also following acute exacerbations in multiple sclerosis.",

author = "Baskin, {Jeremy M.} and Xudong Wu and Romain Christiano and Oh, {Michael S.} and Schauder, {Curtis M.} and Elisabetta Gazzerro and Mirko Messa and Simona Baldassari and Stefania Assereto and Roberta Biancheri and Federico Zara and Carlo Minetti and Andrea Raimondi and Mikael Simons and Walther, {Tobias C.} and Reinisch, {Karin M.} and {De Camilli}, Pietro",

note = "Funding Information: We thank F. Nakatsu for helpful discussions and J. Chung, H. Czapla, L. Lucast and F. Wilson for technical assistance. HCC patient and control fibroblasts were kindly provided by the Cell Line and DNA Biobank from Patients Affected by Genetic Diseases (Giannina Gaslini Institute), part of the Telethon Network of Genetic Biobanks (project no. GTB12001). Primate brain samples were generously provided by N. Sestan and A. Sousa (Yale University). This work was supported by the National Institutes of Health (R37NS036251, R01DK082700, P30DK45735 and P30DA018343 to P.D.C., R01GM080616 to K.M.R., R01GM095982 to T.C.W., and K99GM110121 to J.M.B.), the Simons Foundation (to P.D.C.), Telethon (GP2007250 to C.M.), the Mariani Foundation (C.M.), the San Paolo Foundation (to C.M.), Funding Information: and the European Leukodystrophy Association Foundation (to C.M.). J.M.B. was a recipient of a Jane Coffin Childs Memorial Fund fellowship, and C.M.S. was a recipient of a National Science Foundation Graduate Research Fellowship (DGE-1122492).",

year = "2016",

month = jan,

day = "1",

doi = "10.1038/ncb3271",

language = "English",

volume = "18",

pages = "132--138",

journal = "Nature Cell Biology",

issn = "1465-7392",

publisher = "Nature Research",

number = "1",

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Baskin, JM, Wu, X, Christiano, R, Oh, MS, Schauder, CM, Gazzerro, E, Messa, M, Baldassari, S, Assereto, S, Biancheri, R, Zara, F, Minetti, C, Raimondi, A, Simons, M, Walther, TC, Reinisch, KM & De Camilli, P 2016, 'The leukodystrophy protein FAM126A (hyccin) regulates PtdIns(4)P synthesis at the plasma membrane', Nature Cell Biology, vol. 18, no. 1, pp. 132-138. https://doi.org/10.1038/ncb3271

TY - JOUR

T1 - The leukodystrophy protein FAM126A (hyccin) regulates PtdIns(4)P synthesis at the plasma membrane

AU - Baskin, Jeremy M.

AU - Wu, Xudong

AU - Christiano, Romain

AU - Oh, Michael S.

AU - Schauder, Curtis M.

AU - Gazzerro, Elisabetta

AU - Messa, Mirko

AU - Baldassari, Simona

AU - Assereto, Stefania

AU - Biancheri, Roberta

AU - Zara, Federico

AU - Minetti, Carlo

AU - Raimondi, Andrea

AU - Simons, Mikael

AU - Walther, Tobias C.

AU - Reinisch, Karin M.

AU - De Camilli, Pietro

N1 - Funding Information: We thank F. Nakatsu for helpful discussions and J. Chung, H. Czapla, L. Lucast and F. Wilson for technical assistance. HCC patient and control fibroblasts were kindly provided by the Cell Line and DNA Biobank from Patients Affected by Genetic Diseases (Giannina Gaslini Institute), part of the Telethon Network of Genetic Biobanks (project no. GTB12001). Primate brain samples were generously provided by N. Sestan and A. Sousa (Yale University). This work was supported by the National Institutes of Health (R37NS036251, R01DK082700, P30DK45735 and P30DA018343 to P.D.C., R01GM080616 to K.M.R., R01GM095982 to T.C.W., and K99GM110121 to J.M.B.), the Simons Foundation (to P.D.C.), Telethon (GP2007250 to C.M.), the Mariani Foundation (C.M.), the San Paolo Foundation (to C.M.), Funding Information: and the European Leukodystrophy Association Foundation (to C.M.). J.M.B. was a recipient of a Jane Coffin Childs Memorial Fund fellowship, and C.M.S. was a recipient of a National Science Foundation Graduate Research Fellowship (DGE-1122492).

PY - 2016/1/1

Y1 - 2016/1/1

N2 - Genetic defects in myelin formation and maintenance cause leukodystrophies, a group of white matter diseases whose mechanistic underpinnings are poorly understood. Hypomyelination and congenital cataract (HCC), one of these disorders, is caused by mutations in FAM126A, a gene of unknown function. We show that FAM126A, also known as hyccin, regulates the synthesis of phosphatidylinositol 4-phosphate (PtdIns(4)P), a determinant of plasma membrane identity. HCC patient fibroblasts exhibit reduced PtdIns(4)P levels. FAM126A is an intrinsic component of the plasma membrane phosphatidylinositol 4-kinase complex that comprises PI4KIIIα and its adaptors TTC7 and EFR3 (refs,). A FAM126A-TTC7 co-crystal structure reveals an all-α-helical heterodimer with a large protein-protein interface and a conserved surface that may mediate binding to PI4KIIIα. Absence of FAM126A, the predominant FAM126 isoform in oligodendrocytes, destabilizes the PI4KIIIα complex in mouse brain and patient fibroblasts. We propose that HCC pathogenesis involves defects in PtdIns(4)P production in oligodendrocytes, whose specialized function requires massive plasma membrane expansion and thus generation of PtdIns(4)P and downstream phosphoinositides. Our results point to a role for FAM126A in supporting myelination, an important process in development and also following acute exacerbations in multiple sclerosis.

AB - Genetic defects in myelin formation and maintenance cause leukodystrophies, a group of white matter diseases whose mechanistic underpinnings are poorly understood. Hypomyelination and congenital cataract (HCC), one of these disorders, is caused by mutations in FAM126A, a gene of unknown function. We show that FAM126A, also known as hyccin, regulates the synthesis of phosphatidylinositol 4-phosphate (PtdIns(4)P), a determinant of plasma membrane identity. HCC patient fibroblasts exhibit reduced PtdIns(4)P levels. FAM126A is an intrinsic component of the plasma membrane phosphatidylinositol 4-kinase complex that comprises PI4KIIIα and its adaptors TTC7 and EFR3 (refs,). A FAM126A-TTC7 co-crystal structure reveals an all-α-helical heterodimer with a large protein-protein interface and a conserved surface that may mediate binding to PI4KIIIα. Absence of FAM126A, the predominant FAM126 isoform in oligodendrocytes, destabilizes the PI4KIIIα complex in mouse brain and patient fibroblasts. We propose that HCC pathogenesis involves defects in PtdIns(4)P production in oligodendrocytes, whose specialized function requires massive plasma membrane expansion and thus generation of PtdIns(4)P and downstream phosphoinositides. Our results point to a role for FAM126A in supporting myelination, an important process in development and also following acute exacerbations in multiple sclerosis.

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U2 - 10.1038/ncb3271

DO - 10.1038/ncb3271

M3 - Article

C2 - 26571211

AN - SCOPUS:84952638705

SN - 1465-7392

VL - 18

SP - 132

EP - 138

JO - Nature Cell Biology

JF - Nature Cell Biology

IS - 1

ER -

The leukodystrophy protein FAM126A (hyccin) regulates PtdIns(4)P synthesis at the plasma membrane

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