Functional Characterization of a GGPPS Variant Identified in Atypical Femoral Fracture Patients and Delineation of the Role of GGPPS in Bone‐Relevant Cell Types

ABSTRACT Atypical femoral fractures (AFFs) are a rare but potentially devastating event, often but not always linked to bisphosphonate (BP) therapy. The pathogenic mechanisms underlying AFFs remain obscure, and there are no tests available that might assist in identifying those at high risk of AFF....

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Published in:Journal of bone and mineral research 2018-12, Vol.33 (12), p.2091-2098
Main Authors: Roca‐Ayats, Neus, Ng, Pei Ying, Garcia‐Giralt, Natàlia, Falcó‐Mascaró, Maite, Cozar, Mónica, Abril, Josep Francesc, Quesada Gómez, José Manuel, Prieto‐Alhambra, Daniel, Nogués, Xavier, Dunford, James E, Russell, R Graham, Baron, Roland, Grinberg, Daniel, Balcells, Susana, Díez‐Pérez, Adolfo
Format: Article
Language:English
Subjects:
17β-Estradiol
ATYPICAL FEMORAL FRACTURES
BISPHOSPHONATES
Bone resorption
Cytochrome P450
Enzymatic activity
Enzymes
Estrone
Femur
Fractures
GGPS1
Hydroxylation
Mevalonate pathway
Mevalonic acid
Mineralization
Mutation
Oligomerization
Osteoblasts
Osteocalcin
Osteoclasts
Patients
Risk assessment
RNA-mediated interference
TRANCE protein
Vitamin D
WES
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cited_by cdi_FETCH-LOGICAL-c4140-7ab100a7b9f2be48fea2d3a1d5588cc2e8d8bcc3277d80add536d12e5a590fe23
cites cdi_FETCH-LOGICAL-c4140-7ab100a7b9f2be48fea2d3a1d5588cc2e8d8bcc3277d80add536d12e5a590fe23
container_end_page 2098
container_issue 12
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container_title Journal of bone and mineral research
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creator Roca‐Ayats, Neus
Ng, Pei Ying
Garcia‐Giralt, Natàlia
Falcó‐Mascaró, Maite
Cozar, Mónica
Abril, Josep Francesc
Quesada Gómez, José Manuel
Prieto‐Alhambra, Daniel
Nogués, Xavier
Dunford, James E
Russell, R Graham
Baron, Roland
Grinberg, Daniel
Balcells, Susana
Díez‐Pérez, Adolfo
description ABSTRACT Atypical femoral fractures (AFFs) are a rare but potentially devastating event, often but not always linked to bisphosphonate (BP) therapy. The pathogenic mechanisms underlying AFFs remain obscure, and there are no tests available that might assist in identifying those at high risk of AFF. We previously used exome sequencing to explore the genetic background of three sisters with AFFs and three additional unrelated AFF cases, all previously treated with BPs. We detected 37 rare mutations (in 34 genes) shared by the three sisters. Notably, we found a p.Asp188Tyr mutation in the enzyme geranylgeranyl pyrophosphate synthase, a component of the mevalonate pathway, which is critical to osteoclast function and is inhibited by N‐BPs. In addition, the CYP1A1 gene, responsible for the hydroxylation of 17β‐estradiol, estrone, and vitamin D, was also mutated in all three sisters and one unrelated patient. Here we present a detailed list of the variants found and report functional analyses of the GGPS1 p.Asp188Tyr mutation, which showed a severe reduction in enzyme activity together with oligomerization defects. Unlike BP treatment, this genetic mutation will affect all cells in the carriers. RNAi knockdown of GGPS1 in osteoblasts produced a strong mineralization reduction and a reduced expression of osteocalcin, osterix, and RANKL, whereas in osteoclasts, it led to a lower resorption activity. Taken together, the impact of the mutated GGPPS and the relevance of the downstream effects in bone cells make it a strong candidate for AFF susceptibility. We speculate that other genes such as CYP1A1 might be involved in AFF pathogenesis, which remains to be functionally proved. The identification of the genetic background for AFFs provides new insights for future development of novel risk assessment tools. © 2018 American Society for Bone and Mineral Research.
doi_str_mv 10.1002/jbmr.3580
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The pathogenic mechanisms underlying AFFs remain obscure, and there are no tests available that might assist in identifying those at high risk of AFF. We previously used exome sequencing to explore the genetic background of three sisters with AFFs and three additional unrelated AFF cases, all previously treated with BPs. We detected 37 rare mutations (in 34 genes) shared by the three sisters. Notably, we found a p.Asp188Tyr mutation in the enzyme geranylgeranyl pyrophosphate synthase, a component of the mevalonate pathway, which is critical to osteoclast function and is inhibited by N‐BPs. In addition, the CYP1A1 gene, responsible for the hydroxylation of 17β‐estradiol, estrone, and vitamin D, was also mutated in all three sisters and one unrelated patient. Here we present a detailed list of the variants found and report functional analyses of the GGPS1 p.Asp188Tyr mutation, which showed a severe reduction in enzyme activity together with oligomerization defects. Unlike BP treatment, this genetic mutation will affect all cells in the carriers. RNAi knockdown of GGPS1 in osteoblasts produced a strong mineralization reduction and a reduced expression of osteocalcin, osterix, and RANKL, whereas in osteoclasts, it led to a lower resorption activity. Taken together, the impact of the mutated GGPPS and the relevance of the downstream effects in bone cells make it a strong candidate for AFF susceptibility. We speculate that other genes such as CYP1A1 might be involved in AFF pathogenesis, which remains to be functionally proved. 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ispartof Journal of bone and mineral research, 2018-12, Vol.33 (12), p.2091-2098
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subjects 17β-Estradiol
ATYPICAL FEMORAL FRACTURES
BISPHOSPHONATES
Bone resorption
Cytochrome P450
Enzymatic activity
Enzymes
Estrone
Femur
Fractures
GGPS1
Hydroxylation
Mevalonate pathway
Mevalonic acid
Mineralization
Mutation
Oligomerization
Osteoblasts
Osteocalcin
Osteoclasts
Patients
Risk assessment
RNA-mediated interference
TRANCE protein
Vitamin D
WES
title Functional Characterization of a GGPPS Variant Identified in Atypical Femoral Fracture Patients and Delineation of the Role of GGPPS in Bone‐Relevant Cell Types
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