De novo variant in RING finger protein 213 causes systemic vasculopathy
Ayako Kashimada, Tomoko Mizuno, Eriko Tanaka, Susumu Hosokawa, Tomohiro Udagawa, Yuichi Hiraoka, Keisuke Uchida, Tomohiro Morio, Kenjiro Kosaki, Masatoshi Takagi
Ayako Kashimada, Tomoko Mizuno, Eriko Tanaka, Susumu Hosokawa, Tomohiro Udagawa, Yuichi Hiraoka, Keisuke Uchida, Tomohiro Morio, Kenjiro Kosaki, Masatoshi Takagi
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Research Article Development Vascular biology

De novo variant in RING finger protein 213 causes systemic vasculopathy

Abstract

Systemic arterial stenosis, including moyamoya disease (MMD) and middle aortic syndrome (MAS), is a rare condition of unclear etiology. MMD is a cerebral angiopathy, and MAS affects the abdominal and thoracic aorta. Although some genetic associations with MAS have been identified, the causes remain elusive. In this study, de novo heterozygous missense variants of RING finger protein 213 (RNF213) (p.His4058Pro and p.Thr4155Pro) in 2 unrelated families with MAS and MMD were studied by whole-exome sequencing. To elucidate the significance of these variants, we produced knockin mice carrying the Rnf213 p.His4058Pro variant. Homozygous knockin mice exhibited perinatal lethality because of respiratory failure and lung dysplasia, suggesting that this variant is pathogenic. Lung dysplasia in homozygous knockin mice was associated with upregulated innate immunity and inflammatory responses and downregulated cell proliferation. These findings suggested that in mice, the RNF213 p.His4058Pro variant plays critical roles in regulation of innate immunity and inflammation that affect lung development, revealing the complexity of RNF213 function in various tissues and species. In conclusion, this study provides insights into the genetic basis of MAS and MMD, highlights the potential involvement of RNF213 variants in systemic vasculopathy, and identifies unexpected associations with lung development and immune processes.

Authors

Ayako Kashimada, Tomoko Mizuno, Eriko Tanaka, Susumu Hosokawa, Tomohiro Udagawa, Yuichi Hiraoka, Keisuke Uchida, Tomohiro Morio, Kenjiro Kosaki, Masatoshi Takagi

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Figure 3

Phenotypic comparison of Rnf213WT/WT and Rnf213WT/H4008P and Rnf213H4008P/H4008P littermates on P0.

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Phenotypic comparison of Rnf213WT/WT and Rnf213WT/H4008P and Rnf213H4008...
(A) Kaplan-Meier survival curves of Rnf213WT/H4008P littermate mice. The littermates were fostered by surrogate mothers (WT/WT, n = 12; WT/KI, n = 12; and KI/KI, n = 4). (B) External appearance of P0 Rnf213WT/H4008P and Rnf213H4008P/H4008P mice. scale bar: 1 mm. (C) Comparison of body weight between genotypes (WT/WT, n = 7; WT/KI, n = 24; and KI/KI, n = 4). (D) Comparison of heart weight between genotypes (WT/WT, n = 6; WT/KI, n = 18; and KI/KI, n = 4). (E) Comparison of brain weight between genotypes (WT/WT, n = 7; WT/KI, n = 15; and KI/KI, n = 4). (F) Comparison of lung weight between genotypes (WT/WT, n = 7; WT/KI, n = 19; and KI/KI, n = 4). (G) Whole lungs were placed in PBS at P0. The lungs of WT/WT mice floated, and those of KI/KI mice sank at the bottom of the PBS. Data are presented as mean ± SD. Box plots show the interquartile range, median (line), and minimum and maximum (whiskers). *P < 0.05. WT/WT, Rnf213WT/WT mice; WT/KI, Rnf213WT/H4008P mice; KI/KI, Rnf213H4008P/H4008P mice.