Mutation of a nuclear receptor gene, NR2E3, causes enhanced S cone syndrome, a disorder of retinal cell fate

Neena B. Haider; Samuel G. Jacobson; Artur V. Cideciyan; Ruth Swiderski; Luan M. Streb; Charles Searby; Gretel Beck; Robin Hockey; David B. Hanna; Susan Gorman; David Duhl; Rivka Carmi; Jean Bennett; Richard G. Weleber; Gerald A. Fishman; Alan F. Wright; Edwin M. Stone; Val C. Sheffield

doi:10.1038/72777

Mutation of a nuclear receptor gene, NR2E3, causes enhanced S cone syndrome, a disorder of retinal cell fate

Neena B. Haider, Samuel G. Jacobson, Artur V. Cideciyan, Ruth Swiderski, Luan M. Streb, Charles Searby, Gretel Beck, Robin Hockey, David B. Hanna, Susan Gorman, David Duhl, Rivka Carmi, Jean Bennett, Richard G. Weleber, Gerald A. Fishman, Alan F. Wright, Edwin M. Stone, Val C. Sheffield

Ophthalmology

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

408 Scopus citations

Abstract

Hereditary human retinal degenerative diseases usually affect the mature photoreceptor topography by reducing the number of cells through apoptosis, resulting in loss of visual function. Only one inherited retinal disease, the enhanced S-cone syndrome (ESCS), manifests a gain in function of photoreceptors. ESCS is an autosomal recessive retinopathy in which patients have an increased sensitivity to blue light; perception of blue light is mediated by what is normally the least populous cone photoreceptor subtype, the S (short wavelength, blue) cones. People with ESCS also suffer visual loss, with night blindness occurring from early in life, varying degrees of L (long, red)- and M (middle, green)-cone vision, and retinal degeneration. The altered ratio of S- to L/M-cone photoreceptor sensitivity in ESCS may be due to abnormal cone cell fate determination during retinal development. In 94% of a cohort of ESCS probands we found mutations in NR2E3 (also known as PNR), which encodes a retinal nuclear receptor recently discovered to be a ligand- dependent transcription factor. Expression of NR2E3 was limited to the outer nuclear layer of the human retina. Our results suggest that NR2E3 has a role in determining photoreceptor phenotype during human retinogenesis.

Original language	English (US)
Pages (from-to)	127-131
Number of pages	5
Journal	Nature genetics
Volume	24
Issue number	2
DOIs	https://doi.org/10.1038/72777
State	Published - Feb 2000

ASJC Scopus subject areas

Genetics

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Haider, N. B., Jacobson, S. G., Cideciyan, A. V., Swiderski, R., Streb, L. M., Searby, C., Beck, G., Hockey, R., Hanna, D. B., Gorman, S., Duhl, D., Carmi, R., Bennett, J., Weleber, R. G., Fishman, G. A., Wright, A. F., Stone, E. M., & Sheffield, V. C. (2000). Mutation of a nuclear receptor gene, NR2E3, causes enhanced S cone syndrome, a disorder of retinal cell fate. Nature genetics, 24(2), 127-131. https://doi.org/10.1038/72777

Haider, NB, Jacobson, SG, Cideciyan, AV, Swiderski, R, Streb, LM, Searby, C, Beck, G, Hockey, R, Hanna, DB, Gorman, S, Duhl, D, Carmi, R, Bennett, J, Weleber, RG, Fishman, GA, Wright, AF, Stone, EM & Sheffield, VC 2000, 'Mutation of a nuclear receptor gene, NR2E3, causes enhanced S cone syndrome, a disorder of retinal cell fate', Nature genetics, vol. 24, no. 2, pp. 127-131. https://doi.org/10.1038/72777

@article{ec034f00d18b45ddb6c3ead478c1c986,

title = "Mutation of a nuclear receptor gene, NR2E3, causes enhanced S cone syndrome, a disorder of retinal cell fate",

abstract = "Hereditary human retinal degenerative diseases usually affect the mature photoreceptor topography by reducing the number of cells through apoptosis, resulting in loss of visual function. Only one inherited retinal disease, the enhanced S-cone syndrome (ESCS), manifests a gain in function of photoreceptors. ESCS is an autosomal recessive retinopathy in which patients have an increased sensitivity to blue light; perception of blue light is mediated by what is normally the least populous cone photoreceptor subtype, the S (short wavelength, blue) cones. People with ESCS also suffer visual loss, with night blindness occurring from early in life, varying degrees of L (long, red)- and M (middle, green)-cone vision, and retinal degeneration. The altered ratio of S- to L/M-cone photoreceptor sensitivity in ESCS may be due to abnormal cone cell fate determination during retinal development. In 94% of a cohort of ESCS probands we found mutations in NR2E3 (also known as PNR), which encodes a retinal nuclear receptor recently discovered to be a ligand- dependent transcription factor. Expression of NR2E3 was limited to the outer nuclear layer of the human retina. Our results suggest that NR2E3 has a role in determining photoreceptor phenotype during human retinogenesis.",

author = "Haider, {Neena B.} and Jacobson, {Samuel G.} and Cideciyan, {Artur V.} and Ruth Swiderski and Streb, {Luan M.} and Charles Searby and Gretel Beck and Robin Hockey and Hanna, {David B.} and Susan Gorman and David Duhl and Rivka Carmi and Jean Bennett and Weleber, {Richard G.} and Fishman, {Gerald A.} and Wright, {Alan F.} and Stone, {Edwin M.} and Sheffield, {Val C.}",

note = "Funding Information: We thank D. Nishimura for critical suggestions; G. Hageman and the Lions Eye Bank for the kind gift of the human tissue; A. Kanis and J. Fingert for ocular tissue collection and dissection, J.J.-C. Lin and R. Reiter for use of the in situ hybridization facility; the Blodi Ocular Pathology Laboratory for tissue processing and embedding; J. Ross for technical assistance with tissue sectioning, photography and computer imaging; and E. De Castro, J. Huang, D. Marks and T. Aleman for help with all the patient-related aspects of the study. V.C.S. is an associate investigator of the Howard Hughes Medical Institute. This work was supported in part by Public Health Service research grants (EY11298, EY05627, EY10539, EY10564 and EY10900), the Foundation Fighting Blindness, the Grousbeck Family Foundation, the Carver Charitable Trusts and the Horvitz Family Foundation.",

year = "2000",

month = feb,

doi = "10.1038/72777",

language = "English (US)",

volume = "24",

pages = "127--131",

journal = "Nature genetics",

issn = "1061-4036",

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T1 - Mutation of a nuclear receptor gene, NR2E3, causes enhanced S cone syndrome, a disorder of retinal cell fate

AU - Haider, Neena B.

AU - Jacobson, Samuel G.

AU - Cideciyan, Artur V.

AU - Swiderski, Ruth

AU - Streb, Luan M.

AU - Searby, Charles

AU - Beck, Gretel

AU - Hockey, Robin

AU - Hanna, David B.

AU - Gorman, Susan

AU - Duhl, David

AU - Carmi, Rivka

AU - Bennett, Jean

AU - Weleber, Richard G.

AU - Fishman, Gerald A.

AU - Wright, Alan F.

AU - Stone, Edwin M.

AU - Sheffield, Val C.

N1 - Funding Information: We thank D. Nishimura for critical suggestions; G. Hageman and the Lions Eye Bank for the kind gift of the human tissue; A. Kanis and J. Fingert for ocular tissue collection and dissection, J.J.-C. Lin and R. Reiter for use of the in situ hybridization facility; the Blodi Ocular Pathology Laboratory for tissue processing and embedding; J. Ross for technical assistance with tissue sectioning, photography and computer imaging; and E. De Castro, J. Huang, D. Marks and T. Aleman for help with all the patient-related aspects of the study. V.C.S. is an associate investigator of the Howard Hughes Medical Institute. This work was supported in part by Public Health Service research grants (EY11298, EY05627, EY10539, EY10564 and EY10900), the Foundation Fighting Blindness, the Grousbeck Family Foundation, the Carver Charitable Trusts and the Horvitz Family Foundation.

PY - 2000/2

Y1 - 2000/2

N2 - Hereditary human retinal degenerative diseases usually affect the mature photoreceptor topography by reducing the number of cells through apoptosis, resulting in loss of visual function. Only one inherited retinal disease, the enhanced S-cone syndrome (ESCS), manifests a gain in function of photoreceptors. ESCS is an autosomal recessive retinopathy in which patients have an increased sensitivity to blue light; perception of blue light is mediated by what is normally the least populous cone photoreceptor subtype, the S (short wavelength, blue) cones. People with ESCS also suffer visual loss, with night blindness occurring from early in life, varying degrees of L (long, red)- and M (middle, green)-cone vision, and retinal degeneration. The altered ratio of S- to L/M-cone photoreceptor sensitivity in ESCS may be due to abnormal cone cell fate determination during retinal development. In 94% of a cohort of ESCS probands we found mutations in NR2E3 (also known as PNR), which encodes a retinal nuclear receptor recently discovered to be a ligand- dependent transcription factor. Expression of NR2E3 was limited to the outer nuclear layer of the human retina. Our results suggest that NR2E3 has a role in determining photoreceptor phenotype during human retinogenesis.

AB - Hereditary human retinal degenerative diseases usually affect the mature photoreceptor topography by reducing the number of cells through apoptosis, resulting in loss of visual function. Only one inherited retinal disease, the enhanced S-cone syndrome (ESCS), manifests a gain in function of photoreceptors. ESCS is an autosomal recessive retinopathy in which patients have an increased sensitivity to blue light; perception of blue light is mediated by what is normally the least populous cone photoreceptor subtype, the S (short wavelength, blue) cones. People with ESCS also suffer visual loss, with night blindness occurring from early in life, varying degrees of L (long, red)- and M (middle, green)-cone vision, and retinal degeneration. The altered ratio of S- to L/M-cone photoreceptor sensitivity in ESCS may be due to abnormal cone cell fate determination during retinal development. In 94% of a cohort of ESCS probands we found mutations in NR2E3 (also known as PNR), which encodes a retinal nuclear receptor recently discovered to be a ligand- dependent transcription factor. Expression of NR2E3 was limited to the outer nuclear layer of the human retina. Our results suggest that NR2E3 has a role in determining photoreceptor phenotype during human retinogenesis.

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Mutation of a nuclear receptor gene, NR2E3, causes enhanced S cone syndrome, a disorder of retinal cell fate

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