TY - JOUR
T1 - Germline-Activating RRAS2 Mutations Cause Noonan Syndrome
AU - Niihori, Tetsuya
AU - Nagai, Koki
AU - Fujita, Atsushi
AU - Ohashi, Hirofumi
AU - Okamoto, Nobuhiko
AU - Okada, Satoshi
AU - Harada, Atsuko
AU - Kihara, Hirotaka
AU - Arbogast, Thomas
AU - Funayama, Ryo
AU - Shirota, Matsuyuki
AU - Nakayama, Keiko
AU - Abe, Taiki
AU - Inoue, Shin ichi
AU - Tsai, I. Chun
AU - Matsumoto, Naomichi
AU - Davis, Erica E.
AU - Katsanis, Nicholas
AU - Aoki, Yoko
N1 - Funding Information:
The authors thank the individuals who participated in this study and their families. We also thank Drs. Kenji Kurosawa, Seiji Mizuno, Hiroshi Kawame, Tsutomu Ogata, Yoichi Matsubara, and other physicians for sending samples of patients, and Ikumi Umeki, Yoko Tateda, Kumi Kato, Miyuki Tsuda, Mami Kikuchi, Makiko Nakagawa, and Kiyotaka Kuroda for their technical assistance. We also acknowledge the technical support of the Biomedical Research Core of Tohoku University Graduate School of Medicine. This work was supported by US National Institutes of Health grant MH106826 to E.E.D., AMED under grants to Y.A. ( JP18ek0109241 and JP18ek0109278 ) and N.M. ( JP18ek0109280 , JP18dm0107090 , JP18ek0109301 , JP18ek0109348 , and JP18kk020501 ), and Japan Society for the Promotion of Science (JSPS) KAKENHI Grant Numbers JP16K15522 to Y.A., JP17H01539 to N.M., JP17H06994 to A.F., and JP15KK0293 to T.N.
Publisher Copyright:
© 2019 American Society of Human Genetics
PY - 2019/6/6
Y1 - 2019/6/6
N2 - Noonan syndrome (NS) is characterized by distinctive craniofacial appearance, short stature, and congenital heart disease. Approximately 80% of individuals with NS harbor mutations in genes whose products are involved in the RAS/mitogen-activating protein kinase (MAPK) pathway. However, the underlying genetic causes in nearly 20% of individuals with NS phenotype remain unexplained. Here, we report four de novo RRAS2 variants in three individuals with NS. RRAS2 is a member of the RAS subfamily and is ubiquitously expressed. Three variants, c.70_78dup (p.Gly24_Gly26dup), c.216A>T (p.Gln72His), and c.215A>T (p.Gln72Leu), have been found in cancers; our functional analyses showed that these three changes induced elevated association of RAF1 and that they activated ERK1/2 and ELK1. Notably, prominent activation of ERK1/2 and ELK1 by p.Gln72Leu associates with the severe phenotype of the individual harboring this change. To examine variant pathogenicity in vivo, we generated zebrafish models. Larvae overexpressing c.70_78dup (p.Gly24_Gly26dup) or c.216A>T (p.Gln72His) variants, but not wild-type RRAS2 RNAs, showed craniofacial defects and macrocephaly. The same dose injection of mRNA encoding c.215A>T (p.Gln72Leu) caused severe developmental impairments and low dose overexpression of this variant induced craniofacial defects. In contrast, the RRAS2 c.224T>G (p.Phe75Cys) change, located on the same allele with p.Gln72His in an individual with NS, resulted in no aberrant in vitro or in vivo phenotypes by itself. Together, our findings suggest that activating RRAS2 mutations can cause NS and expand the involvement of RRAS2 proto-oncogene to rare germline disorders.
AB - Noonan syndrome (NS) is characterized by distinctive craniofacial appearance, short stature, and congenital heart disease. Approximately 80% of individuals with NS harbor mutations in genes whose products are involved in the RAS/mitogen-activating protein kinase (MAPK) pathway. However, the underlying genetic causes in nearly 20% of individuals with NS phenotype remain unexplained. Here, we report four de novo RRAS2 variants in three individuals with NS. RRAS2 is a member of the RAS subfamily and is ubiquitously expressed. Three variants, c.70_78dup (p.Gly24_Gly26dup), c.216A>T (p.Gln72His), and c.215A>T (p.Gln72Leu), have been found in cancers; our functional analyses showed that these three changes induced elevated association of RAF1 and that they activated ERK1/2 and ELK1. Notably, prominent activation of ERK1/2 and ELK1 by p.Gln72Leu associates with the severe phenotype of the individual harboring this change. To examine variant pathogenicity in vivo, we generated zebrafish models. Larvae overexpressing c.70_78dup (p.Gly24_Gly26dup) or c.216A>T (p.Gln72His) variants, but not wild-type RRAS2 RNAs, showed craniofacial defects and macrocephaly. The same dose injection of mRNA encoding c.215A>T (p.Gln72Leu) caused severe developmental impairments and low dose overexpression of this variant induced craniofacial defects. In contrast, the RRAS2 c.224T>G (p.Phe75Cys) change, located on the same allele with p.Gln72His in an individual with NS, resulted in no aberrant in vitro or in vivo phenotypes by itself. Together, our findings suggest that activating RRAS2 mutations can cause NS and expand the involvement of RRAS2 proto-oncogene to rare germline disorders.
KW - Noonan syndrome
KW - RAS/MAPK
KW - RASopathies
KW - RRAS2
KW - exome sequencing
KW - functional profiling
KW - macrocephaly
KW - zebrafish
UR - http://www.scopus.com/inward/record.url?scp=85066454164&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=85066454164&partnerID=8YFLogxK
U2 - 10.1016/j.ajhg.2019.04.014
DO - 10.1016/j.ajhg.2019.04.014
M3 - Article
C2 - 31130285
AN - SCOPUS:85066454164
SN - 0002-9297
VL - 104
SP - 1233
EP - 1240
JO - American Journal of Human Genetics
JF - American Journal of Human Genetics
IS - 6
ER -
