Bi-allelic CSF1R Mutations Cause Skeletal Dysplasia of Dysosteosclerosis-Pyle Disease Spectrum and Degenerative Encephalopathy with Brain Malformation

Guo Long; Bertola Debora Romeo; Takanohashi Asako; Saito Asuka; Segawa Yuko; Yokota Takanori; Ishibashi Satoru; Nishida Yoichiro; Yamamoto Guilherme Lopes; da Silva Franco Jose Francisco; Honjo Rachel Sayuri; Kim Chong Ae; Musso Camila Manso; Timmons Margaret; Pizzino Amy; Taft Ryan J.; Lajoie Bryan; Knight Melanie A.; Fischbeck Kenneth H.; Singleton Andrew B.; Ferreira Carlos R.; Wang Zheng; Yan Li; Garbern James Y.; Simsek-Kiper Pelin O.; Ohashi Hirofumi; Robey Pamela G.; Boyde Alan; Matsumoto Naomichi; Miyake Noriko; Spranger Juergen; Schiffmann Raphael; Vanderver Adeline; Nishimura Gen; dos Santos Passos-Bueno Maria Rita; Simons Cas; Ishikawa Kinya; Ikegawa Shiro

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Bi-allelic CSF1R Mutations Cause Skeletal Dysplasia of Dysosteosclerosis-Pyle Disease Spectrum and Degenerative Encephalopathy with Brain Malformation

机译：双级等位基因CSF1R突变导致骨静脉粥样硬化 - PYLE病的骨骼发育不良和脑畸形的退化性脑病

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Colony stimulating factor 1 receptor (CSF1R) plays key roles in regulating development and function of the monocyte/macrophage lineage, including microglia and osteoclasts. Mono-allelic mutations of CSF1R are known to cause hereditary diffuse leukoencephalopathy with spheroids (HDLS), an adult-onset progressive neurodegenerative disorder. Here, we report seven affected individuals from three unrelated families who had bi-allelic CSF1R mutations. In addition to early-onset HDLS-like neurological disorders, they had brain malformations and skeletal dysplasia compatible to dysosteosclerosis (DOS) or Pyle disease. We identified five CSF1R mutations that were homozygous or compound heterozygous in these affected individuals. Two of them were deep intronic mutations resulting in abnormal inclusion of intron sequences in the mRNA. Compared with Csf1r-null mice, the skeletal and neural phenotypes of the affected individuals appeared milder and variable, suggesting that at least one of the mutations in each affected individual is hypomorphic. Our results characterized a unique human skeletal phenotype caused by CSF1R deficiency and implied that bi-allelic CSF1R mutations cause a spectrum of neurological and skeletal disorders, probably depending on the residual CSF1R function.

机译：殖民地刺激因子1受体（CSF1R）在调节单核细胞/巨噬细胞谱系的调节和功能方面发挥关键作用，包括小胶质细胞和骨核苷酸。已知CSF1R的单位等位基因突变与球状体（HDL），成人发作的渐进式神经变性疾病引起遗传弥漫性白细胞病。在这里，我们从有两种无关的家庭报告七个受影响的个体，他们有双位等位基因CSF1R突变。除了早熟的HDLS样神经系统疾病之外，它们还具有脑畸形和骨骼发育不良，与脱脓性静脉曲张（DOS）或PYLE病相容。我们确定了五种CSF1R突变，其在这些受影响的个体中是纯合的或化合物的杂合。其中两个是深入内肾衰减，导致MRNA中的内含子序列异常包容。与CSF1R-NULL小鼠相比，受影响的个体的骨骼和神经表型出现了更温和的变量和变量，表明每种受影响的个体中的至少一个突变是低晶的。我们的结果表征了由CSF1R缺乏引起的独特的人类骨骼表型，并暗示双位等位基因CSF1R突变导致神经系统和骨骼疾病的光谱，可能取决于残留的CSF1R功能。

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来源
《The American Journal of Human Genetics》 |2019年第5期|共11页
作者
Guo Long; Bertola Debora Romeo; Takanohashi Asako; Saito Asuka; Segawa Yuko; Yokota Takanori; Ishibashi Satoru; Nishida Yoichiro; Yamamoto Guilherme Lopes; da Silva Franco Jose Francisco; Honjo Rachel Sayuri; Kim Chong Ae; Musso Camila Manso; Timmons Margaret; Pizzino Amy; Taft Ryan J.; Lajoie Bryan; Knight Melanie A.; Fischbeck Kenneth H.; Singleton Andrew B.; Ferreira Carlos R.; Wang Zheng; Yan Li; Garbern James Y.; Simsek-Kiper Pelin O.; Ohashi Hirofumi; Robey Pamela G.; Boyde Alan; Matsumoto Naomichi; Miyake Noriko; Spranger Juergen; Schiffmann Raphael; Vanderver Adeline; Nishimura Gen; dos Santos Passos-Bueno Maria Rita; Simons Cas; Ishikawa Kinya; Ikegawa Shiro;
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作者单位

RIKEN Ctr Integrat Med Sci Lab Bone &

Joint Dis Tokyo 1088639 Japan;

Univ Sao Paulo Unidade Genet Clin Inst Crianca Hosp Clin Fac Med BR-05403000 Sao Paulo Brazil;

Univ Penn Div Neurol Childrens Hosp Philadelphia Philadelphia PA 19104 USA;

Tokyo Med &

Dent Univ Dept Neurol &

Neurol Sci Grad Sch Tokyo 1138519 Japan;

Tokyo Med &

Dent Univ Dept Orthoped Surg Grad Sch Tokyo 1138519 Japan;

Tokyo Med &

Dent Univ Dept Neurol &

Neurol Sci Grad Sch Tokyo 1138519 Japan;

Tokyo Med &

Dent Univ Dept Neurol &

Neurol Sci Grad Sch Tokyo 1138519 Japan;

Tokyo Med &

Dent Univ Dept Neurol &

Neurol Sci Grad Sch Tokyo 1138519 Japan;

Univ Sao Paulo Unidade Genet Clin Inst Crianca Hosp Clin Fac Med BR-05403000 Sao Paulo Brazil;

Univ Sao Paulo Unidade Genet Clin Inst Crianca Hosp Clin Fac Med BR-05403000 Sao Paulo Brazil;

Univ Sao Paulo Unidade Genet Clin Inst Crianca Hosp Clin Fac Med BR-05403000 Sao Paulo Brazil;

Univ Sao Paulo Unidade Genet Clin Inst Crianca Hosp Clin Fac Med BR-05403000 Sao Paulo Brazil;

Univ Sao Paulo Inst Biociencias BR-05508090 Sao Paulo Brazil;

NINDS Dev &

Metab Neurol Branch NIH Bethesda MD 20892 USA;

Univ Penn Div Neurol Childrens Hosp Philadelphia Philadelphia PA 19104 USA;

Illumina Inc 5200 Illumina Way San Diego CA 92122 USA;

Illumina Inc 5200 Illumina Way San Diego CA 92122 USA;

NINDS Neurogenet Branch NIH Bethesda MD 20892 USA;

NINDS Neurogenet Branch NIH Bethesda MD 20892 USA;

NIA Lab Neurogenet NIH Bethesda MD 20892 USA;

NHGRI Med Genet Branch NIH Bethesda MD 20892 USA;

RIKEN Ctr Integrat Med Sci Lab Bone &

Joint Dis Tokyo 1088639 Japan;

China Japan Friendship Hosp Dept Neurol Beijing 100029 Peoples R China;

Wayne State Univ Ctr Mol Med &

Genet Detroit MI 48201 USA;

Hacettepe Univ Med Fac Dept Pediat TR-06100 Ankara Turkey;

Saitama Childrens Med Ctr Div Med Genet Saitama 3308777 Japan;

Natl Inst Dent &

Craniofacial Res Skeletal Biol Sect NIH Bethesda MD 20892 USA;

Queen Mary Univ London Biophys Oral Growth &

Dev Dent Inst Barts &

London Sch Med &

Dent London;

Yokohama City Univ Grad Sch Med Dept Human Genet Yokohama Kanagawa 2360004 Japan;

Yokohama City Univ Grad Sch Med Dept Human Genet Yokohama Kanagawa 2360004 Japan;

Cent German Competence Ctr Rare Dis MKSE D-39120 Magdeburg Germany;

Baylor Scott &

White Res Inst Dallas TX 75204 USA;

Univ Penn Div Neurol Childrens Hosp Philadelphia Philadelphia PA 19104 USA;

Saitama Univ Hosp Intractable Dis Ctr Moroyama 3500495 Japan;

Univ Sao Paulo Inst Biociencias BR-05508090 Sao Paulo Brazil;

Royal Childrens Hosp Murdoch Childrens Res Inst Translat Bioinformat Grp Melbourne Vic 3052;

Tokyo Med &

Dent Univ Dept Neurol &

Neurol Sci Grad Sch Tokyo 1138519 Japan;

RIKEN Ctr Integrat Med Sci Lab Bone &

Joint Dis Tokyo 1088639 Japan;

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正文语种 eng
中图分类医学遗传学;
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1. Bi-allelic CSF1R Mutations Cause Skeletal Dysplasia of Dysosteosclerosis-Pyle Disease Spectrum and Degenerative Encephalopathy with Brain Malformation [J] . Guo Long, Bertola Debora Romeo, Takanohashi Asako, The American Journal of Human Genetics . 2019,第5期

机译：双级等位基因CSF1R突变导致骨静脉粥样硬化 - PYLE病的骨骼发育不良和脑畸形的退化性脑病
2. Bi-allelic Variants in TONSL Cause SPONASTRIME Dysplasia and a Spectrum of Skeletal Dysplasia Phenotypes [J] . Burrage Lindsay C., Reynolds John J., Baratang Nissan Vida, The American Journal of Human Genetics . 2019,第3期

机译：Tonsl中的双位式变体导致弹性发育不良和骨骼发育不良表型的光谱
3. PI3K/AKT pathway mutations cause a spectrum of brain malformations from megalencephaly to focal cortical dysplasia [J] . Jansen Laura A., Mirzaa Ghayda M., Ishak Gisele E., Brain: A journal of neurology . 2015,第6期

机译：PI3K / AKT途径突变会引起从巨脑到局灶性皮质发育异常的一系列脑畸形
4. A Preliminary Study of Medical Image Distributed Intelligent Access Integrated with Electronic Medical Records System for Brain Degenerative Disease [C] . Su, Mei-Ju, Chen, . 2007

机译：集成电子病历系统的医学图像分布式智能访问对脑退行性疾病的初步研究
5. NEUROPSYCHOLOGICAL FUNCTIONING OF THE ELDERLY WITH DEGENERATIVE BRAIN DISEASE AND DEPRESSIVE DISORDER [D] . SINHA, ASHA. 1987

机译：退行性脑疾病和抑郁性疾病的老年人的神经心理学功能
6. Bi-allelic CSF1R Mutations Cause Skeletal Dysplasia of Dysosteosclerosis-Pyle Disease Spectrum and Degenerative Encephalopathy with Brain Malformation [O] . Long Guo, Débora Romeo Bertola, Asako Takanohashi, 2019

机译：双等位基因CSF1R突变导致骨骼发育异常的骨硬化-派尔病谱和变性脑病伴脑畸形
7. Bi-allelic CSF1R Mutations Cause Skeletal Dysplasia of Dysosteosclerosis-Pyle Disease Spectrum and Degenerative Encephalopathy with Brain Malformation [O] . Long Guo, Débora Romeo Bertola, Asako Takanohashi, 2019

机译：双位等位基因CSF1R突变导致骨静脉病 - PYLE病光谱和脑畸形的退化性脑病的骨骼发育不良

Bi-allelic CSF1R Mutations Cause Skeletal Dysplasia of Dysosteosclerosis-Pyle Disease Spectrum and Degenerative Encephalopathy with Brain Malformation

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