Mutation in human selenocysteine transfer RNA selectively disrupts selenoprotein synthesis

Erik Schoenmakers; Bradley Carlson; Maura Agostini; Carla Moran; Odelia Rajanayagam; Elena Bochukova; Ryuta Tobe; Rachel Peat; Evelien Gevers; Francesco Muntoni; Pascale Guicheney; Nadia Schoenmakers; Sadaf Farooqi; Greta Lyons; Dolph Hatfield; Krishna Chatterjee

doi:10.1172/JCI84747

Mutation in human selenocysteine transfer RNA selectively disrupts selenoprotein synthesis

Erik Schoenmakers
, Bradley Carlson
, Maura Agostini
, Carla Moran
, Odelia Rajanayagam
, Elena Bochukova
, Ryuta Tobe
, Rachel Peat
, Evelien Gevers
, Francesco Muntoni
, Pascale Guicheney
, Nadia Schoenmakers
, Sadaf Farooqi
, Greta Lyons
, Dolph Hatfield
, Krishna Chatterjee^*

^*Corresponding author for this work

Metabolism and Systems Science

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

Abstract

Selenium is a trace element that is essential for human health and is incorporated into more than 25 human selenocysteinecontaining (Sec-containing) proteins via unique Sec-insertion machinery that includes a specific, nuclear genome-encoded, transfer RNA (tRNA[Ser]Sec). Here, we have identified a human tRNA[Ser]Sec mutation in a proband who presented with a variety of symptoms, incluDing abdominal pain, fatigue, muscle weakness, and low plasma levels of selenium. This mutation resulted in a marked reduction in expression of stress-related, but not housekeeping, selenoproteins. Evaluation of primary cells from the homozygous proband and a heterozygous parent indicated that the observed deficit in stress-related selenoprotein production is likely mediated by reduced expression and diminished 2-O-methylribosylation at uridine 34 in mutant tRNA[Ser]Sec. Moreover, this methylribosylation defect was restored by cellular complementation with normal tRNA[Ser]Sec. This study identifies a tRNA mutation that selectively impairs synthesis of stress-related selenoproteins and demonstrates the importance of tRNA modification for normal selenoprotein synthesis.

Original language	English
Pages (from-to)	992-996
Number of pages	5
Journal	Journal of Clinical Investigation
Volume	126
Issue number	3
DOIs	https://doi.org/10.1172/JCI84747
Publication status	Published - 1 Mar 2016

ASJC Scopus subject areas

General Medicine

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This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1172/JCI84747

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Schoenmakers, E., Carlson, B., Agostini, M., Moran, C., Rajanayagam, O., Bochukova, E., Tobe, R., Peat, R., Gevers, E., Muntoni, F., Guicheney, P., Schoenmakers, N., Farooqi, S., Lyons, G., Hatfield, D., & Chatterjee, K. (2016). Mutation in human selenocysteine transfer RNA selectively disrupts selenoprotein synthesis. Journal of Clinical Investigation, 126(3), 992-996. https://doi.org/10.1172/JCI84747

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title = "Mutation in human selenocysteine transfer RNA selectively disrupts selenoprotein synthesis",

abstract = "Selenium is a trace element that is essential for human health and is incorporated into more than 25 human selenocysteinecontaining (Sec-containing) proteins via unique Sec-insertion machinery that includes a specific, nuclear genome-encoded, transfer RNA (tRNA[Ser]Sec). Here, we have identified a human tRNA[Ser]Sec mutation in a proband who presented with a variety of symptoms, incluDing abdominal pain, fatigue, muscle weakness, and low plasma levels of selenium. This mutation resulted in a marked reduction in expression of stress-related, but not housekeeping, selenoproteins. Evaluation of primary cells from the homozygous proband and a heterozygous parent indicated that the observed deficit in stress-related selenoprotein production is likely mediated by reduced expression and diminished 2-O-methylribosylation at uridine 34 in mutant tRNA[Ser]Sec. Moreover, this methylribosylation defect was restored by cellular complementation with normal tRNA[Ser]Sec. This study identifies a tRNA mutation that selectively impairs synthesis of stress-related selenoproteins and demonstrates the importance of tRNA modification for normal selenoprotein synthesis.",

author = "Erik Schoenmakers and Bradley Carlson and Maura Agostini and Carla Moran and Odelia Rajanayagam and Elena Bochukova and Ryuta Tobe and Rachel Peat and Evelien Gevers and Francesco Muntoni and Pascale Guicheney and Nadia Schoenmakers and Sadaf Farooqi and Greta Lyons and Dolph Hatfield and Krishna Chatterjee",

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Schoenmakers, E, Carlson, B, Agostini, M, Moran, C, Rajanayagam, O, Bochukova, E, Tobe, R, Peat, R, Gevers, E, Muntoni, F, Guicheney, P, Schoenmakers, N, Farooqi, S, Lyons, G, Hatfield, D & Chatterjee, K 2016, 'Mutation in human selenocysteine transfer RNA selectively disrupts selenoprotein synthesis', Journal of Clinical Investigation, vol. 126, no. 3, pp. 992-996. https://doi.org/10.1172/JCI84747

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T1 - Mutation in human selenocysteine transfer RNA selectively disrupts selenoprotein synthesis

AU - Schoenmakers, Erik

AU - Carlson, Bradley

AU - Agostini, Maura

AU - Moran, Carla

AU - Rajanayagam, Odelia

AU - Bochukova, Elena

AU - Tobe, Ryuta

AU - Peat, Rachel

AU - Gevers, Evelien

AU - Muntoni, Francesco

AU - Guicheney, Pascale

AU - Schoenmakers, Nadia

AU - Farooqi, Sadaf

AU - Lyons, Greta

AU - Hatfield, Dolph

AU - Chatterjee, Krishna

PY - 2016/3/1

Y1 - 2016/3/1

N2 - Selenium is a trace element that is essential for human health and is incorporated into more than 25 human selenocysteinecontaining (Sec-containing) proteins via unique Sec-insertion machinery that includes a specific, nuclear genome-encoded, transfer RNA (tRNA[Ser]Sec). Here, we have identified a human tRNA[Ser]Sec mutation in a proband who presented with a variety of symptoms, incluDing abdominal pain, fatigue, muscle weakness, and low plasma levels of selenium. This mutation resulted in a marked reduction in expression of stress-related, but not housekeeping, selenoproteins. Evaluation of primary cells from the homozygous proband and a heterozygous parent indicated that the observed deficit in stress-related selenoprotein production is likely mediated by reduced expression and diminished 2-O-methylribosylation at uridine 34 in mutant tRNA[Ser]Sec. Moreover, this methylribosylation defect was restored by cellular complementation with normal tRNA[Ser]Sec. This study identifies a tRNA mutation that selectively impairs synthesis of stress-related selenoproteins and demonstrates the importance of tRNA modification for normal selenoprotein synthesis.

AB - Selenium is a trace element that is essential for human health and is incorporated into more than 25 human selenocysteinecontaining (Sec-containing) proteins via unique Sec-insertion machinery that includes a specific, nuclear genome-encoded, transfer RNA (tRNA[Ser]Sec). Here, we have identified a human tRNA[Ser]Sec mutation in a proband who presented with a variety of symptoms, incluDing abdominal pain, fatigue, muscle weakness, and low plasma levels of selenium. This mutation resulted in a marked reduction in expression of stress-related, but not housekeeping, selenoproteins. Evaluation of primary cells from the homozygous proband and a heterozygous parent indicated that the observed deficit in stress-related selenoprotein production is likely mediated by reduced expression and diminished 2-O-methylribosylation at uridine 34 in mutant tRNA[Ser]Sec. Moreover, this methylribosylation defect was restored by cellular complementation with normal tRNA[Ser]Sec. This study identifies a tRNA mutation that selectively impairs synthesis of stress-related selenoproteins and demonstrates the importance of tRNA modification for normal selenoprotein synthesis.

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U2 - 10.1172/JCI84747

DO - 10.1172/JCI84747

M3 - Article

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AN - SCOPUS:84959893617

SN - 0021-9738

VL - 126

SP - 992

EP - 996

JO - Journal of Clinical Investigation

JF - Journal of Clinical Investigation

IS - 3

ER -

Mutation in human selenocysteine transfer RNA selectively disrupts selenoprotein synthesis

Abstract

ASJC Scopus subject areas

UN SDGs

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