Absence of the ER Cation Channel TMEM38B/TRIC-B Disrupts Intracellular Calcium Homeostasis and Dysregulates Collagen Synthesis in Recessive Osteogenesis Imperfecta

Wayne A Cabral; Masaki Ishikawa; Matthias Garten; Elena N Makareeva; Brandi M Sargent; MaryAnn Weis; Aileen M Barnes; Emma Webb; Nicholas J Shaw; Leena Ala-Kokko; Felicitas L Lacbawan; Wolfgang Hoegler; Sergey Leikin; Paul S Blank; Joshua Zimmerberg; David R Eyre; Yoshihiko Yamada; Joan C Marini

doi:10.1371/journal.pgen.1006156

Absence of the ER Cation Channel TMEM38B/TRIC-B Disrupts Intracellular Calcium Homeostasis and Dysregulates Collagen Synthesis in Recessive Osteogenesis Imperfecta

Wayne A Cabral, Masaki Ishikawa, Matthias Garten, Elena N Makareeva, Brandi M Sargent, MaryAnn Weis, Aileen M Barnes, Emma Webb, Nicholas J Shaw, Leena Ala-Kokko, Felicitas L Lacbawan, Wolfgang Hoegler, Sergey Leikin, Paul S Blank, Joshua Zimmerberg, David R Eyre, Yoshihiko Yamada, Joan C Marini

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Abstract

Recessive osteogenesis imperfecta (OI) is caused by defects in proteins involved in post-translational interactions with type I collagen. Recently, a novel form of moderately severe OI caused by null mutations in TMEM38B was identified. TMEM38B encodes the ER membrane monovalent cation channel, TRIC-B, proposed to counterbalance IP3R-mediated Ca2+ release from intracellular stores. The molecular mechanisms by which TMEM38B mutations cause OI are unknown. We identified 3 probands with recessive defects in TMEM38B. TRIC-B protein is undetectable in proband fibroblasts and osteoblasts, although reduced TMEM38B transcripts are present. TRIC-B deficiency causes impaired release of ER luminal Ca2+, associated with deficient store-operated calcium entry, although SERCA and IP3R have normal stability. Notably, steady state ER Ca2+ is unchanged in TRIC-B deficiency, supporting a role for TRIC-B in the kinetics of ER calcium depletion and recovery. The disturbed Ca2+ flux causes ER stress and increased BiP, and dysregulates synthesis of proband type I collagen at multiple steps. Collagen helical lysine hydroxylation is reduced, while telopeptide hydroxylation is increased, despite increased LH1 and decreased Ca2+-dependent FKBP65, respectively. Although PDI levels are maintained, procollagen chain assembly is delayed in proband cells. The resulting misfolded collagen is substantially retained in TRIC-B null cells, consistent with a 50-70% reduction in secreted collagen. Lower-stability forms of collagen that elude proteasomal degradation are not incorporated into extracellular matrix, which contains only normal stability collagen, resulting in matrix insufficiency. These data support a role for TRIC-B in intracellular Ca2+ homeostasis, and demonstrate that absence of TMEM38B causes OI by dysregulation of calcium flux kinetics in the ER, impacting multiple collagen-specific chaperones and modifying enzymes.

Original language	English
Journal	PLoS Genetics
Volume	12
Issue number	7
DOIs	https://doi.org/10.1371/journal.pgen.1006156
Publication status	Published - Jul 2016

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10.1371/journal.pgen.1006156Licence: Creative Commons: Public Domain Dedication

ABsence of ERcation channel.pgen.1006156
Checked for eligibility: 03/11/2016. Copyright: This is an open access article, free of all copyright, and may be freely reproduced, distributed, transmitted, modified, built upon, or otherwise used by anyone for any lawful purpose. The work is made available under the Creative Commons CC0 public domain dedication. Citation: Cabral WA, Ishikawa M, Garten M, Makareeva EN, Sargent BM, Weis M, et al. (2016) Absence of the ER Cation Channel TMEM38B/TRICB Disrupts Intracellular Calcium Homeostasis and Dysregulates Collagen Synthesis in Recessive Osteogenesis Imperfecta. PLoS Genet 12(7): e1006156. doi:10.1371/journal.pgen.1006156
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Cabral, W. A., Ishikawa, M., Garten, M., Makareeva, E. N., Sargent, B. M., Weis, M., Barnes, A. M., Webb, E., Shaw, N. J., Ala-Kokko, L., Lacbawan, F. L., Hoegler, W., Leikin, S., Blank, P. S., Zimmerberg, J., Eyre, D. R., Yamada, Y., & Marini, J. C. (2016). Absence of the ER Cation Channel TMEM38B/TRIC-B Disrupts Intracellular Calcium Homeostasis and Dysregulates Collagen Synthesis in Recessive Osteogenesis Imperfecta. PLoS Genetics, 12(7). https://doi.org/10.1371/journal.pgen.1006156

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title = "Absence of the ER Cation Channel TMEM38B/TRIC-B Disrupts Intracellular Calcium Homeostasis and Dysregulates Collagen Synthesis in Recessive Osteogenesis Imperfecta",

abstract = "Recessive osteogenesis imperfecta (OI) is caused by defects in proteins involved in post-translational interactions with type I collagen. Recently, a novel form of moderately severe OI caused by null mutations in TMEM38B was identified. TMEM38B encodes the ER membrane monovalent cation channel, TRIC-B, proposed to counterbalance IP3R-mediated Ca2+ release from intracellular stores. The molecular mechanisms by which TMEM38B mutations cause OI are unknown. We identified 3 probands with recessive defects in TMEM38B. TRIC-B protein is undetectable in proband fibroblasts and osteoblasts, although reduced TMEM38B transcripts are present. TRIC-B deficiency causes impaired release of ER luminal Ca2+, associated with deficient store-operated calcium entry, although SERCA and IP3R have normal stability. Notably, steady state ER Ca2+ is unchanged in TRIC-B deficiency, supporting a role for TRIC-B in the kinetics of ER calcium depletion and recovery. The disturbed Ca2+ flux causes ER stress and increased BiP, and dysregulates synthesis of proband type I collagen at multiple steps. Collagen helical lysine hydroxylation is reduced, while telopeptide hydroxylation is increased, despite increased LH1 and decreased Ca2+-dependent FKBP65, respectively. Although PDI levels are maintained, procollagen chain assembly is delayed in proband cells. The resulting misfolded collagen is substantially retained in TRIC-B null cells, consistent with a 50-70% reduction in secreted collagen. Lower-stability forms of collagen that elude proteasomal degradation are not incorporated into extracellular matrix, which contains only normal stability collagen, resulting in matrix insufficiency. These data support a role for TRIC-B in intracellular Ca2+ homeostasis, and demonstrate that absence of TMEM38B causes OI by dysregulation of calcium flux kinetics in the ER, impacting multiple collagen-specific chaperones and modifying enzymes.",

author = "Cabral, {Wayne A} and Masaki Ishikawa and Matthias Garten and Makareeva, {Elena N} and Sargent, {Brandi M} and MaryAnn Weis and Barnes, {Aileen M} and Emma Webb and Shaw, {Nicholas J} and Leena Ala-Kokko and Lacbawan, {Felicitas L} and Wolfgang Hoegler and Sergey Leikin and Blank, {Paul S} and Joshua Zimmerberg and Eyre, {David R} and Yoshihiko Yamada and Marini, {Joan C}",

year = "2016",

month = jul,

doi = "10.1371/journal.pgen.1006156",

language = "English",

volume = "12",

journal = "PLoS Genetics",

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number = "7",

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Cabral, WA, Ishikawa, M, Garten, M, Makareeva, EN, Sargent, BM, Weis, M, Barnes, AM, Webb, E, Shaw, NJ, Ala-Kokko, L, Lacbawan, FL, Hoegler, W, Leikin, S, Blank, PS, Zimmerberg, J, Eyre, DR, Yamada, Y & Marini, JC 2016, 'Absence of the ER Cation Channel TMEM38B/TRIC-B Disrupts Intracellular Calcium Homeostasis and Dysregulates Collagen Synthesis in Recessive Osteogenesis Imperfecta', PLoS Genetics, vol. 12, no. 7. https://doi.org/10.1371/journal.pgen.1006156

TY - JOUR

T1 - Absence of the ER Cation Channel TMEM38B/TRIC-B Disrupts Intracellular Calcium Homeostasis and Dysregulates Collagen Synthesis in Recessive Osteogenesis Imperfecta

AU - Cabral, Wayne A

AU - Ishikawa, Masaki

AU - Garten, Matthias

AU - Makareeva, Elena N

AU - Sargent, Brandi M

AU - Weis, MaryAnn

AU - Barnes, Aileen M

AU - Webb, Emma

AU - Shaw, Nicholas J

AU - Ala-Kokko, Leena

AU - Lacbawan, Felicitas L

AU - Hoegler, Wolfgang

AU - Leikin, Sergey

AU - Blank, Paul S

AU - Zimmerberg, Joshua

AU - Eyre, David R

AU - Yamada, Yoshihiko

AU - Marini, Joan C

PY - 2016/7

Y1 - 2016/7

N2 - Recessive osteogenesis imperfecta (OI) is caused by defects in proteins involved in post-translational interactions with type I collagen. Recently, a novel form of moderately severe OI caused by null mutations in TMEM38B was identified. TMEM38B encodes the ER membrane monovalent cation channel, TRIC-B, proposed to counterbalance IP3R-mediated Ca2+ release from intracellular stores. The molecular mechanisms by which TMEM38B mutations cause OI are unknown. We identified 3 probands with recessive defects in TMEM38B. TRIC-B protein is undetectable in proband fibroblasts and osteoblasts, although reduced TMEM38B transcripts are present. TRIC-B deficiency causes impaired release of ER luminal Ca2+, associated with deficient store-operated calcium entry, although SERCA and IP3R have normal stability. Notably, steady state ER Ca2+ is unchanged in TRIC-B deficiency, supporting a role for TRIC-B in the kinetics of ER calcium depletion and recovery. The disturbed Ca2+ flux causes ER stress and increased BiP, and dysregulates synthesis of proband type I collagen at multiple steps. Collagen helical lysine hydroxylation is reduced, while telopeptide hydroxylation is increased, despite increased LH1 and decreased Ca2+-dependent FKBP65, respectively. Although PDI levels are maintained, procollagen chain assembly is delayed in proband cells. The resulting misfolded collagen is substantially retained in TRIC-B null cells, consistent with a 50-70% reduction in secreted collagen. Lower-stability forms of collagen that elude proteasomal degradation are not incorporated into extracellular matrix, which contains only normal stability collagen, resulting in matrix insufficiency. These data support a role for TRIC-B in intracellular Ca2+ homeostasis, and demonstrate that absence of TMEM38B causes OI by dysregulation of calcium flux kinetics in the ER, impacting multiple collagen-specific chaperones and modifying enzymes.

AB - Recessive osteogenesis imperfecta (OI) is caused by defects in proteins involved in post-translational interactions with type I collagen. Recently, a novel form of moderately severe OI caused by null mutations in TMEM38B was identified. TMEM38B encodes the ER membrane monovalent cation channel, TRIC-B, proposed to counterbalance IP3R-mediated Ca2+ release from intracellular stores. The molecular mechanisms by which TMEM38B mutations cause OI are unknown. We identified 3 probands with recessive defects in TMEM38B. TRIC-B protein is undetectable in proband fibroblasts and osteoblasts, although reduced TMEM38B transcripts are present. TRIC-B deficiency causes impaired release of ER luminal Ca2+, associated with deficient store-operated calcium entry, although SERCA and IP3R have normal stability. Notably, steady state ER Ca2+ is unchanged in TRIC-B deficiency, supporting a role for TRIC-B in the kinetics of ER calcium depletion and recovery. The disturbed Ca2+ flux causes ER stress and increased BiP, and dysregulates synthesis of proband type I collagen at multiple steps. Collagen helical lysine hydroxylation is reduced, while telopeptide hydroxylation is increased, despite increased LH1 and decreased Ca2+-dependent FKBP65, respectively. Although PDI levels are maintained, procollagen chain assembly is delayed in proband cells. The resulting misfolded collagen is substantially retained in TRIC-B null cells, consistent with a 50-70% reduction in secreted collagen. Lower-stability forms of collagen that elude proteasomal degradation are not incorporated into extracellular matrix, which contains only normal stability collagen, resulting in matrix insufficiency. These data support a role for TRIC-B in intracellular Ca2+ homeostasis, and demonstrate that absence of TMEM38B causes OI by dysregulation of calcium flux kinetics in the ER, impacting multiple collagen-specific chaperones and modifying enzymes.

U2 - 10.1371/journal.pgen.1006156

DO - 10.1371/journal.pgen.1006156

M3 - Article

C2 - 27441836

SN - 1553-7390

VL - 12

JO - PLoS Genetics

JF - PLoS Genetics

IS - 7

ER -

Absence of the ER Cation Channel TMEM38B/TRIC-B Disrupts Intracellular Calcium Homeostasis and Dysregulates Collagen Synthesis in Recessive Osteogenesis Imperfecta

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