Redefining the Etiologic Landscape of Cerebellar Malformations

Aldinger Kimberly A.; Timms Andrew E.; Thomson Zachary; Mirzaa Ghayda M.; Bennett James T.; Rosenberg Alexander B.; Roco Charles M.; Hirano Matthew; Abidi Fatima; Haldipur Parthiv; Cheng Chi V; Collins Sarah; Park Kaylee; Zeiger Jordan; Overmann Lynne M.; Alkuraya Fowzan S.; Biesecker Leslie G.; Braddock Stephen R.; Cathey Sara; Cho Megan T.; Chung Brian H. Y.; Everman David B.; Zarate Yuri A.; Jones Julie R.; Schwartz Charles E.; Goldstein Amy; Hopkin Robert J.; Krantz Ian D.; Ladda Roger L.; Leppig Kathleen A.; McGillivray Barbara C.; Sell Susan; Wusik Katherine; Gleeson Joseph G.; Nickerson Deborah A.; Bamshad Michael J.; Gerrelli Dianne; Lisgo Steven N.; Seelig Georg; Ishak Gisele E.; Barkovich A. James; Curry Cynthia J.; Glass Ian A.; Millen Kathleen J.; Doherty Dan; Dobyns William B.

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Redefining the Etiologic Landscape of Cerebellar Malformations

机译：重新定义小脑畸形的病因景观

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Cerebellar malformations are diverse congenital anomalies frequently associated with developmental disability. Although genetic and prenatal non-genetic causes have been described, no systematic analysis has been performed. Here, we present a large-exome sequencing study of Dandy-Walker malformation (DWM) and cerebellar hypoplasia (CBLH). We performed exome sequencing in 282 individuals from 100 families with DWM or CBLH, and we established a molecular diagnosis in 36 of 100 families, with a significantly higher yield for CBLH (51%) than for DWM (16%). The 41 variants impact 27 neurodevelopmental-disorder-associated genes, thus demonstrating that CBLH and DWM are often features of monogenic neurodevelopmental disorders. Though only seven monogenic causes (19%) were identified in more than one individual, neuroimaging review of 131 additional individuals confirmed cerebellar abnormalities in 23 of 27 genetic disorders (85%). Prenatal risk factors were frequently found among individuals without a genetic diagnosis (30 of 64 individuals [47%]). Single-cell RNA sequencing of prenatal human cerebellar tissue revealed gene enrichment in neuronal and vascular cell types; this suggests that defective vasculogenesis may disrupt cerebellar development. Further, de novo gain-of-function variants in PDGFRB, a tyrosine kinase receptor essential for vascular progenitor signaling, were associated with CBLH, and this discovery links genetic and non-genetic etiologies. Our results suggest that genetic defects impact specific cerebellar cell types and implicate abnormal vascular development as a mechanism for cerebellar malformations. We also confirmed a major contribution for non-genetic prenatal factors in individuals with cerebellar abnormalities, substantially influencing diagnostic evaluation and counseling regarding recurrence risk and prognosis.

机译：小脑畸形是经常与发育残疾相关的不同先天性异常。虽然已经描述了遗传和产前非遗传原因，但没有进行系统分析。在这里，我们提出了对令人携带的令人助长畸形（DWM）和小脑发育不全（CBLH）的大突出序列研究。我们在具有DWM或CBLH的100个家庭中的282个个体中进行了Exome测序，我们在100个家族中的36个家庭中建立了分子诊断，CBLH（51％）的产量明显高于DWM（16％）。 41个变体影响27个神经发育障碍相关的基因，从而证明CBLH和DWM通常是单一的神经发育障碍的特征。尽管在一个以上的个体中鉴定了七种单一的单一原因（19％），但为131名额外个体的神经影像测量审查确认了27例遗传疾病（85％）中的23例细胞异常。在没有遗传诊断的情况下，经常发现产前危险因素（64个中的30例[47％]）。产前人体小脑组织的单细胞RNA测序显示神经元和血管细胞类型的基因富集;这表明血管生成缺陷可能破坏小脑发育。此外，PDGFRB中的函数常态变体，一种血管祖先信号传导至关重要的酪氨酸激酶受体，与CBLH相关，并且该发现链接遗传和非遗传学病因。我们的研究结果表明，遗传缺陷会影响特定的小脑细胞类型，并将异常的血管开发局部视为小脑畸形的机制。我们还确认对患有小脑异常的个体的非遗传产前因素的主要贡献，大大影响了关于复发风险和预后的诊断评估和咨询。

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《The American Journal of Human Genetics》 |2019年第3期|共10页
作者
Aldinger Kimberly A.; Timms Andrew E.; Thomson Zachary; Mirzaa Ghayda M.; Bennett James T.; Rosenberg Alexander B.; Roco Charles M.; Hirano Matthew; Abidi Fatima; Haldipur Parthiv; Cheng Chi V; Collins Sarah; Park Kaylee; Zeiger Jordan; Overmann Lynne M.; Alkuraya Fowzan S.; Biesecker Leslie G.; Braddock Stephen R.; Cathey Sara; Cho Megan T.; Chung Brian H. Y.; Everman David B.; Zarate Yuri A.; Jones Julie R.; Schwartz Charles E.; Goldstein Amy; Hopkin Robert J.; Krantz Ian D.; Ladda Roger L.; Leppig Kathleen A.; McGillivray Barbara C.; Sell Susan; Wusik Katherine; Gleeson Joseph G.; Nickerson Deborah A.; Bamshad Michael J.; Gerrelli Dianne; Lisgo Steven N.; Seelig Georg; Ishak Gisele E.; Barkovich A. James; Curry Cynthia J.; Glass Ian A.; Millen Kathleen J.; Doherty Dan; Dobyns William B.;
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作者单位

Seattle Childrens Res Inst Ctr Integrat Brain Res Seattle WA 98101 USA;

Seattle Childrens Res Inst Ctr Dev Biol &

Regenerat Med Seattle WA 98101 USA;

Seattle Childrens Res Inst Ctr Integrat Brain Res Seattle WA 98101 USA;

Seattle Childrens Res Inst Ctr Integrat Brain Res Seattle WA 98101 USA;

Seattle Childrens Res Inst Ctr Dev Biol &

Regenerat Med Seattle WA 98101 USA;

Univ Washington Dept Elect Engn Seattle WA 98105 USA;

Univ Washington Dept Bioengn Seattle WA 98105 USA;

Univ Washington Dept Elect Engn Seattle WA 98105 USA;

Greenwood Genet Ctr Greenwood SC 29646 USA;

Seattle Childrens Res Inst Ctr Integrat Brain Res Seattle WA 98101 USA;

Seattle Childrens Res Inst Ctr Integrat Brain Res Seattle WA 98101 USA;

Seattle Childrens Res Inst Ctr Integrat Brain Res Seattle WA 98101 USA;

Seattle Childrens Res Inst Ctr Integrat Brain Res Seattle WA 98101 USA;

Seattle Childrens Res Inst Ctr Integrat Brain Res Seattle WA 98101 USA;

Newcastle Univ Int Ctr Life Inst Genet Med Cent Pkwy Newcastle Upon Tyne NE1 3BZ Tyne &

Wear;

King Faisal Specialist Hosp &

Res Ctr Dept Genet Res Ctr Riyadh 11211 Saudi Arabia;

Natl Human Genome Res Inst Med Genom &

Metab Genet Branch NIH Bethesda MD 20892 USA;

St Louis Univ Sch Med Dept Pediat St Louis MO 63104 USA;

Greenwood Genet Ctr Greenwood SC 29646 USA;

GeneDx Gaithersburg MD 20877 USA;

Univ Hong Kong Li Ka Shing Fac Med Dept Pediat &

Adolescent Med Hong Kong Peoples R China;

Greenwood Genet Ctr Greenwood SC 29646 USA;

Univ Arkansas Med Sci Sect Genet &

Metab Little Rock AR 72202 USA;

Greenwood Genet Ctr Greenwood SC 29646 USA;

Greenwood Genet Ctr Greenwood SC 29646 USA;

Childrens Hosp Philadelphia Dept Pediat Div Human Genet Mitochondrial Med Frontier Program;

Cincinnati Childrens Hosp Dept Pediat Div Human Genet Med Ctr Cincinnati OH 45229 USA;

Univ Penn Perelman Sch Med Dept Pediat Philadelphia PA 19104 USA;

King Faisal Specialist Hosp &

Res Ctr Dept Genet Res Ctr Riyadh 11211 Saudi Arabia;

Kaiser Permanente Washington Genet Serv Seattle WA 98112 USA;

Childrens &

Womens Hlth Ctr British Columbia Dept Med Genet Vancouver BC V6H 3N1 Canada;

Milton S Hershey Med Ctr Dept Pediat Hershey PA 17033 USA;

Cincinnati Childrens Hosp Med Ctr Dept Pediat Div Human Genet Cincinnati OH 45229 USA;

Univ Calif San Diego Howard Hughes Med Inst Dept Neurosci La Jolla CA 92093 USA;

Univ Washington Dept Genome Sci Seattle WA 98195 USA;

Univ Washington Dept Pediat Seattle WA 98105 USA;

UCL Inst Child Hlth London WC1N 1EH England;

Newcastle Univ Int Ctr Life Inst Genet Med Cent Pkwy Newcastle Upon Tyne NE1 3BZ Tyne &

Wear;

Univ Washington Dept Elect Engn Seattle WA 98105 USA;

Seattle Childrens Res Inst Ctr Integrat Brain Res Seattle WA 98101 USA;

Univ Calif San Francisco Dept Radiol San Francisco CA 94143 USA;

Univ Calif San Francisco Dept Pediat Genet Med Fresno CA 93701 USA;

Seattle Childrens Res Inst Ctr Integrat Brain Res Seattle WA 98101 USA;

Seattle Childrens Res Inst Ctr Integrat Brain Res Seattle WA 98101 USA;

Seattle Childrens Res Inst Ctr Integrat Brain Res Seattle WA 98101 USA;

Seattle Childrens Res Inst Ctr Integrat Brain Res Seattle WA 98101 USA;

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正文语种 eng
中图分类医学遗传学;
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1. Redefining the Etiologic Landscape of Cerebellar Malformations [J] . Aldinger Kimberly A., Timms Andrew E., Thomson Zachary, The American Journal of Human Genetics . 2019,第3期

机译：重新定义小脑畸形的病因景观
2. Redefining cerebellar ataxia in degenerative ataxias: lessons from recent research on cerebellar systems [J] . Tada Masayoshi, Nishizawa Masatoyo, Onodera Osamu Journal of Neurology, Neurosurgery and Psychiatry . 2015,第8期

机译：在退化性共济失调中重新定义小脑性共济失调：小脑系统最新研究的经验教训
3. Redefining identities, redefining landscapes: indigenous identity and land rights struggles in the Brazilian Amazon [J] . Omaira BolaÃ±osa* Journal of Cultural Geography . 2011,第1期

机译：重新定义身份，重新定义景观：巴西亚马逊地区的土著身份和土地权利斗争
4. Fractal dimension analysis of cerebellar grey matter in patients with Chiary Malformation type-I [C] . Engin Akar, Sadik Kara, Hidayet Akdemir, 2016 Medical Technologies National Congress . 2016

机译：Chiari畸形I型患者小脑灰质的分形维数分析
5. Identification of chromosome 6p25 genes involved in Dandy-Walker malformation: The role of FOXC1 in cerebellar development and implications for cerebellar genes in autism. [D] . Aldinger, Kimberly Anne. 2008

机译：鉴定涉及Dandy-Walker畸形的6p25染色体基因：FOXC1在小脑发育中的作用以及对自闭症中小脑基因的影响。
6. Redefining the Etiologic Landscape of Cerebellar Malformations [O] . Kimberly A. Aldinger, Andrew E. Timms, Zachary Thomson, 2019

机译：重新定义小脑畸形的病因景观
7. Redefining the Etiologic Landscape of Cerebellar Malformations [O] . Kimberly A. Aldinger, Andrew E. Timms, Zachary Thomson, 2019

机译：重新定义小脑畸形的病因景观
8. Background Radiation in the Etiology of Congenital Malformations [R] . Schuman, L. M., Gullen, W. H. 1967

机译：先天性畸形病因的背景辐射

Redefining the Etiologic Landscape of Cerebellar Malformations

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