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Endocrine
Published in: Endocrine 1/2021

01-01-2021 | Crohn's Disease | Original Article

A mutation in NOTCH2 gene first associated with Hajdu–Cheney syndrome in a Greek family: diversity in phenotype and response to treatment

Authors: Zoe A. Efstathiadou, Charilaos Kostoulas, Stergios A. Polyzos, Fotini Adamidou, Ioannis Georgiou, Marina Kita

Published in: Endocrine | Issue 1/2021

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Abstract

Introduction

Hajdu–Cheney Syndrome (HCS) is a rare genetic autosomal dominant disorder, characterized by distinctive facial features, acroosteolysis, and severe osteoporosis. Very rarely HCS is associated with polycystic kidney disease, splenomegaly or Crohn’s disease (CD). It is caused by gain-of-function mutations in NOTCH2 gene. Treatment with bisphosphonates or denosumab is reported to result in BMD increase.

Objective

We report a mutation in exon 34 of NOTCH2 gene, in a Greek pedigree, with diverse phenotypes among members.

Description of the pedigree

The 48-year-old mother had a history of a T12 vertebral fracture, postpartum at the age of 21 and two subsequent uneventful full-term pregnancies and never received treatment. Her 29-year-old son, presented with severe osteoporosis and multiple morphological vertebral fractures. Her 21-year-old daughter had recurrent vertebral fractures starting at 10 years of age. At 17 years, she developed severe CD, resistant to treatment with biologic agents, and functional hypothalamic hypogonadism. One male pedigree died of cystic fibrosis. All subjects bore the typical facial characteristics and acroosteolysis, while none had splenomegaly or renal defects. Zoledronate infusion led to BMD increase.

Genetic testing

Mutation in c.6758 G > A (NM_008163.1), leading to a Trp2253Ter replacement. This mutation has been reported as possibly pathogenic (SCV000620308), but not in association with HCS.

Conclusions

Bone involvement can present with diverse severity in the same pedigree, ranging from low BMD to multiple fragility fractures. Antiresorptive therapy improves BMD, but its anti-fracture efficacy remains to be shown. The presence of CD might indicate the significant role of NOTCH2 signaling in different tissues.
Literature
1.
E. Canalis, Clinical and experimental aspects of notch receptor signaling: Hajdu-Cheney syndrome and related disorders. Metab. Clin. Exp. 80, 48–56 (2018).CrossRef
2.
J. Reichrath, S. Reichrath, Notch Pathway and Inherited Diseases: Challenge and Promise. Adv. Exp. Med. Biol 1218, 159–187 (2020).CrossRef
3.
Y. Narumi, B.J. Min, K. Shimizu, I. Kazukawa, K. Sameshima, K. Nakamura, T. Kosho, Y. Rhee, Y.S. Chung, O.H. Kim, Y. Fukushima, W.Y. Park, G. Nishimura, Clinical consequences in truncating mutations in exon 34 of NOTCH2: Report of six patients with Hajdu-Cheney syndrome and a patient with serpentine fibula polycystic kidney syndrome. Am. J. Med. Genet., Part A 161, 518–526 (2013).CrossRef
4.
E. Canalis, S. Zanotti, Hajdu-Cheney Syndrome, a Disease Associated with NOTCH2 Mutations. Curr. Osteoporos. Rep. 14, 126–131 (2016).CrossRef
5.
G. Adami, M. Rossini, D. Gatti, G. Orsolini, L. Idolazzi, O. Viapiana, A. Scarpa, E. Canalis, Hajdu Cheney Syndrome; report of a novel NOTCH2 mutation and treatment with denosumab. Bone. 92, 150–156 (2016).CrossRef
6.
F.E. McKiernan, Integrated anti-remodeling and anabolic therapy for the osteoporosis of Hajdu-Cheney syndrome. Osteoporos. Int. 18, 245–249 (2007).CrossRef
7.
H. Fukushima, A. Nakao, F. Okamoto, M. Shin, H. Kajiya, S. Sakano, A. Bigas, E. Jimi, K. Okabe, The Association of Notch2 and NF- B Accelerates RANKL-Induced Osteoclastogenesis. Mol. Cell. Biol. 28, 6402–6412 (2008).CrossRef
8.
J. Yu, E. Canalis, The Hajdu Cheney mutation sensitizes mice to the osteolytic actions of tumor necrosis factor α. J. Biol. Chem. 294, 14203–14214 (2019).CrossRef
9.
10.
M.J. Hilton, X. Tu, X. Wu, S. Bai, H. Zhao, T. Kobayashi, H.M. Kronenberg, S.L. Teitelbaum, F.P. Ross, R. Kopan, F. Long, Notch signaling maintains bone marrow mesenchymal progenitors by suppressing osteoblast differentiation. Nat. Med. 14, 306–314 (2008).CrossRef
11.
M. Descartes, K. Rojnueangnit, L. Cole, A. Sutton, S.L. Morgan, L. Patry, M.E. Samuels, Hajdu-Cheney syndrome: Phenotypical progression with de-novo NOTCH2 mutation. Clin. Dysmorphol. 23, 88–94 (2014).CrossRef
12.
W.M. Drake, M.P. Hiorns, D.L. Kendler, Hadju-Cheney syndrome: Response to therapy with bisphosphonates in two patients. J. Bone Miner. Res. 18, 131–133 (2003).CrossRef
13.
S. Hwang, D.Y. Shin, S.H. Moon, E.J. Lee, S.K. Lim, O.H. Kim, Y. Rhee, Effect of Zoledronic Acid on Acro-Osteolysis and Osteoporosis in a Patient with Hajdu-Cheney Syndrome. Yonsei Med. J. 52, 543–546 (2011).CrossRef
14.
J.F.H. Pittaway, C. Harrison, Y. Rhee, M. Holder-Espinasse, A.E. Fryer, T. Cundy, W.M. Drake, M.D. Irving, Bisphosphonate therapy for spinal osteoporosis in Hajdu-Cheney syndrome - New data and literature review. Orphanet J. Rare Dis. 13, 47 (2018).
15.
F.E. McKiernan, Integrated anti-remodeling and anabolic therapy for the osteoporosis of Hajdu-Cheney syndrome: 2-Year follow-up. Osteoporos. Int. 19, 379–380 (2008).CrossRef
16.
A. Galli-Tsinopoulou, I. Kyrgios, S. Giza, E.Z. Giannopoulou, I. Maggana, N. Laliotis, Two-year cyclic infusion of pamidronate improves bone mass density and eliminates risk of fractures in a girl with osteoporosis due to Hajdu-Cheney syndrome. Minerva Endocrinologica. 37, 283–289 (2012).PubMed
17.
18.
L. Graversen, M.M. Handrup, M. Irving, H. Hove, B.R. Diness, L. Risom, D. Svaneby, M.M. Aagaard, I. Vogel, H. Gjørup, M. Davidsen, M.B. Hellfritzsch, E. Lauridsen, P.A. Gregersen, Phenotypic presentations of Hajdu-Cheney syndrome according to age – 5 distinct clinical presentations. Eur. J. Med. Genet. 63, 103650 (2020).
19.
J. Jirečková, M. Magner, L. Lambert, A. Baxová, A. Leiská, L. Kopečková, L. Fajkusová, J. Zeman, The Age Dependent Progression of Hajdu-Cheney Syndrome in Two Families. Prague Med. Rep. 119, 156–164 (2018).CrossRef
20.
M.J. Gray, C.A. Kim, D.R. Bertola, P.R. Arantes, H. Stewart, M.A. Simpson, M.D. Irving, S.P. Robertson, Serpentine fibula polycystic kidney syndrome is part of the phenotypic spectrum of Hajdu-Cheney syndrome. Eur. J. Hum. Genet. 20, 122–124 (2012).CrossRef
21.
J. Chacko, J. Akhter, Hajdu-Cheney Syndrome Presenting with Extensive Lung Disease with Alveolar Cholesterol Granulomas. Ann. Clin. Pathol. 6, 1140 (2018).
22.
D. Ortiz-Masiá, J. Cosín-Roger, S. Calatayud, C. Hernández, R. Alós, J. Hinojosa, J.V. Esplugues, M.D. Barrachina, M1 macrophages activate notch signalling in epithelial cells: Relevance in Crohn’s disease. J. Crohn’s Colitis. 10, 582–592 (2016).
23.
E. Canalis, A. Sanjay, J. Yu, S. Zanotti, An antibody to Notch2 reverses the osteopenic phenotype of hajdu-cheney mutant male mice. Endocrinology. 158, 730–742 (2017).CrossRef
24.
S. Sakka, R.I. Gafni, J.H. Davies, B. Clarke, P. Tebben, M. Samuels, V. Saraff, K. Klaushofer, N. Fratzl-Zelman, P. Roschger, F. Rauch, W. Högler, Bone structural characteristics and response to bisphosphonate treatment in children with hajdu-cheney syndrome. J. Clin. Endocrinol. Metab. 102, 4163–4172 (2017).CrossRef
25.
S.Y. Lee, F. Long, Notch signaling suppresses glucose metabolism in mesenchymal progenitors to restrict osteoblast differentiation. J. Clin. Invest. 128, 5573–5586 (2018).
26.
J. Tao, M.M. Jiang, L. Jiang, J.S. Salvo, H.C. Zeng, B. Dawson, T.K. Bertin, P.H. Rao, R. Chen, L.A. Donehower, F. Gannon, B.H. Lee, Notch Activation as a Driver of Osteogenic Sarcoma. Cancer Cell. 26, 390–401 (2014).
Metadata
Title
A mutation in NOTCH2 gene first associated with Hajdu–Cheney syndrome in a Greek family: diversity in phenotype and response to treatment
Authors
Zoe A. Efstathiadou
Charilaos Kostoulas
Stergios A. Polyzos
Fotini Adamidou
Ioannis Georgiou
Marina Kita
Publication date
01-01-2021
Publisher
Springer US
Published in
Endocrine / Issue 1/2021
Print ISSN: 1355-008X
Electronic ISSN: 1559-0100
DOI
https://doi.org/10.1007/s12020-020-02446-7

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