Biallelic Mutation of BEST1 Causes a Distinct Retinopathy in Humans

Rosemary Burgess; Ian D. Millar; Bart P. Leroy; Jill E. Urquhart; Ian M. Fearon; Elfrida De Baere; Peter D. Brown; Anthony G. Robson; Genevieve A. Wright; Philippe Kestelyn; Graham E. Holder; Andrew R. Webster; Forbes D C Manson; Graeme C M Black

doi:10.1016/j.ajhg.2007.08.004

Biallelic Mutation of BEST1 Causes a Distinct Retinopathy in Humans

Rosemary Burgess, Ian D. Millar, Bart P. Leroy, Jill E. Urquhart, Ian M. Fearon, Elfrida De Baere, Peter D. Brown, Anthony G. Robson, Genevieve A. Wright, Philippe Kestelyn, Graham E. Holder, Andrew R. Webster, Forbes D C Manson, Graeme C M Black

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

Abstract

We describe a distinct retinal disorder, autosomal-recessive bestrophinopathy (ARB), that is consequent upon biallelic mutation in BEST1 and is associated with central visual loss, a characteristic retinopathy, an absent electro-oculogram light rise, and a reduced electroretinogram. Heterozygous mutations in BEST1 have previously been found to cause the two dominantly inherited disorders, Best macular dystrophy and autosomal-dominant vitreoretinochoroidopathy. The transmembrane protein bestrophin-1, encoded by BEST1, is located at the basolateral membrane of the retinal pigment epithelium in which it probably functions as a Cl- channel. We sequenced BEST1 in five families, identifying DNA variants in each of ten alleles. These encoded six different missense variants and one nonsense variant. The alleles segregated appropriately for a recessive disorder in each family. No clinical or electrophysiological abnormalities were identified in any heterozygotes. We conducted whole-cell patch-clamping of HEK293 cells transfected with bestrophin-1 to measure the Cl- current. Two ARB missense isoforms severely reduced channel activity. However, unlike two other alleles previously associated with Best disease, cotransfection with wild-type bestrophin-1 did not impair the formation of active wild-type bestrophin-1 channels, consistent with the recessive nature of the condition. We propose that ARB is the null phenotype of bestrophin-1 in humans. © 2008 The American Society of Human Genetics.

Original language	English
Pages (from-to)	19-31
Number of pages	12
Journal	American Journal of Human Genetics
Volume	82
Issue number	1
DOIs	https://doi.org/10.1016/j.ajhg.2007.08.004
Publication status	Published - 10 Jan 2008

Keywords

Adolescent
Adult
Amino Acid Sequence
Cell Line
Child
Child, Preschool
chemistry: Chloride Channels
Codon, Nonsense
chemistry: Eye Proteins
Female
Genes, Recessive
Humans
Male
Molecular Sequence Data
Mutation, Missense
genetics: Retinal Diseases
Transfection

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Burgess, R., Millar, I. D., Leroy, B. P., Urquhart, J. E., Fearon, I. M., De Baere, E., Brown, P. D., Robson, A. G., Wright, G. A., Kestelyn, P., Holder, G. E., Webster, A. R., Manson, F. D. C., & Black, G. C. M. (2008). Biallelic Mutation of BEST1 Causes a Distinct Retinopathy in Humans. American Journal of Human Genetics, 82(1), 19-31. https://doi.org/10.1016/j.ajhg.2007.08.004

@article{7e8f11c705b740eaa8d96fd1b4cb832f,

title = "Biallelic Mutation of BEST1 Causes a Distinct Retinopathy in Humans",

abstract = "We describe a distinct retinal disorder, autosomal-recessive bestrophinopathy (ARB), that is consequent upon biallelic mutation in BEST1 and is associated with central visual loss, a characteristic retinopathy, an absent electro-oculogram light rise, and a reduced electroretinogram. Heterozygous mutations in BEST1 have previously been found to cause the two dominantly inherited disorders, Best macular dystrophy and autosomal-dominant vitreoretinochoroidopathy. The transmembrane protein bestrophin-1, encoded by BEST1, is located at the basolateral membrane of the retinal pigment epithelium in which it probably functions as a Cl- channel. We sequenced BEST1 in five families, identifying DNA variants in each of ten alleles. These encoded six different missense variants and one nonsense variant. The alleles segregated appropriately for a recessive disorder in each family. No clinical or electrophysiological abnormalities were identified in any heterozygotes. We conducted whole-cell patch-clamping of HEK293 cells transfected with bestrophin-1 to measure the Cl- current. Two ARB missense isoforms severely reduced channel activity. However, unlike two other alleles previously associated with Best disease, cotransfection with wild-type bestrophin-1 did not impair the formation of active wild-type bestrophin-1 channels, consistent with the recessive nature of the condition. We propose that ARB is the null phenotype of bestrophin-1 in humans. {\textcopyright} 2008 The American Society of Human Genetics.",

keywords = "Adolescent, Adult, Amino Acid Sequence, Cell Line, Child, Child, Preschool, chemistry: Chloride Channels, Codon, Nonsense, chemistry: Eye Proteins, Female, Genes, Recessive, Humans, Male, Molecular Sequence Data, Mutation, Missense, genetics: Retinal Diseases, Transfection",

author = "Rosemary Burgess and Millar, {Ian D.} and Leroy, {Bart P.} and Urquhart, {Jill E.} and Fearon, {Ian M.} and Elfrida De Baere and Brown, {Peter D.} and Robson, {Anthony G.} and Wright, {Genevieve A.} and Philippe Kestelyn and Holder, {Graham E.} and Webster, {Andrew R.} and Manson, {Forbes D C} and Black, {Graeme C M}",

year = "2008",

month = jan,

day = "10",

doi = "10.1016/j.ajhg.2007.08.004",

language = "English",

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journal = "American Journal of Human Genetics",

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T1 - Biallelic Mutation of BEST1 Causes a Distinct Retinopathy in Humans

AU - Burgess, Rosemary

AU - Millar, Ian D.

AU - Leroy, Bart P.

AU - Urquhart, Jill E.

AU - Fearon, Ian M.

AU - De Baere, Elfrida

AU - Brown, Peter D.

AU - Robson, Anthony G.

AU - Wright, Genevieve A.

AU - Kestelyn, Philippe

AU - Holder, Graham E.

AU - Webster, Andrew R.

AU - Manson, Forbes D C

AU - Black, Graeme C M

PY - 2008/1/10

Y1 - 2008/1/10

N2 - We describe a distinct retinal disorder, autosomal-recessive bestrophinopathy (ARB), that is consequent upon biallelic mutation in BEST1 and is associated with central visual loss, a characteristic retinopathy, an absent electro-oculogram light rise, and a reduced electroretinogram. Heterozygous mutations in BEST1 have previously been found to cause the two dominantly inherited disorders, Best macular dystrophy and autosomal-dominant vitreoretinochoroidopathy. The transmembrane protein bestrophin-1, encoded by BEST1, is located at the basolateral membrane of the retinal pigment epithelium in which it probably functions as a Cl- channel. We sequenced BEST1 in five families, identifying DNA variants in each of ten alleles. These encoded six different missense variants and one nonsense variant. The alleles segregated appropriately for a recessive disorder in each family. No clinical or electrophysiological abnormalities were identified in any heterozygotes. We conducted whole-cell patch-clamping of HEK293 cells transfected with bestrophin-1 to measure the Cl- current. Two ARB missense isoforms severely reduced channel activity. However, unlike two other alleles previously associated with Best disease, cotransfection with wild-type bestrophin-1 did not impair the formation of active wild-type bestrophin-1 channels, consistent with the recessive nature of the condition. We propose that ARB is the null phenotype of bestrophin-1 in humans. © 2008 The American Society of Human Genetics.

AB - We describe a distinct retinal disorder, autosomal-recessive bestrophinopathy (ARB), that is consequent upon biallelic mutation in BEST1 and is associated with central visual loss, a characteristic retinopathy, an absent electro-oculogram light rise, and a reduced electroretinogram. Heterozygous mutations in BEST1 have previously been found to cause the two dominantly inherited disorders, Best macular dystrophy and autosomal-dominant vitreoretinochoroidopathy. The transmembrane protein bestrophin-1, encoded by BEST1, is located at the basolateral membrane of the retinal pigment epithelium in which it probably functions as a Cl- channel. We sequenced BEST1 in five families, identifying DNA variants in each of ten alleles. These encoded six different missense variants and one nonsense variant. The alleles segregated appropriately for a recessive disorder in each family. No clinical or electrophysiological abnormalities were identified in any heterozygotes. We conducted whole-cell patch-clamping of HEK293 cells transfected with bestrophin-1 to measure the Cl- current. Two ARB missense isoforms severely reduced channel activity. However, unlike two other alleles previously associated with Best disease, cotransfection with wild-type bestrophin-1 did not impair the formation of active wild-type bestrophin-1 channels, consistent with the recessive nature of the condition. We propose that ARB is the null phenotype of bestrophin-1 in humans. © 2008 The American Society of Human Genetics.

KW - Adolescent

KW - Adult

KW - Amino Acid Sequence

KW - Cell Line

KW - Child

KW - Child, Preschool

KW - chemistry: Chloride Channels

KW - Codon, Nonsense

KW - chemistry: Eye Proteins

KW - Female

KW - Genes, Recessive

KW - Humans

KW - Male

KW - Molecular Sequence Data

KW - Mutation, Missense

KW - genetics: Retinal Diseases

KW - Transfection

U2 - 10.1016/j.ajhg.2007.08.004

DO - 10.1016/j.ajhg.2007.08.004

M3 - Article

C2 - 18179881

SN - 0002-9297

VL - 82

SP - 19

EP - 31

JO - American Journal of Human Genetics

JF - American Journal of Human Genetics

IS - 1

ER -

Biallelic Mutation of BEST1 Causes a Distinct Retinopathy in Humans

Abstract

Keywords

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