Dysregulation of RAS proteostasis by autosomal-dominant LZTR1 mutation induces Noonan syndrome–like phenotypes in mice
Taiki Abe, Kaho Morisaki, Tetsuya Niihori, Miho Terao, Shuji Takada, Yoko Aoki
Taiki Abe, Kaho Morisaki, Tetsuya Niihori, Miho Terao, Shuji Takada, Yoko Aoki
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Research Article Development Genetics

Dysregulation of RAS proteostasis by autosomal-dominant LZTR1 mutation induces Noonan syndrome–like phenotypes in mice

Abstract

Leucine-zipper–like posttranslational regulator 1 (LZTR1) is a member of the BTB-Kelch superfamily, which regulates the RAS proteostasis. Autosomal dominant (AD) mutations in LZTR1 have been identified in patients with Noonan syndrome (NS), a congenital anomaly syndrome. However, it remains unclear whether LZTR1 AD mutations regulate the proteostasis of the RAS subfamily molecules or cause NS-like phenotypes in vivo. To elucidate the pathogenesis of LZTR1 mutations, we generated 2 LZTR1 mutation knock-in mice (Lztr1G245R/+ and Lztr1R409C/+), which correspond to the human p.G248R and p.R412C mutations, respectively. LZTR1-mutant male mice exhibit low birth weight, distinctive facial features, and cardiac hypertrophy. Cardiomyocyte size and the expression of RAS subfamily members, including MRAS and RIT1, were significantly increased in the left ventricles (LVs) of mutant male mice. LZTR1 AD mutants did not interact with RIT1 and functioned as dominant-negative forms of WT LZTR1. Multi-omics analysis revealed that the mitogen-activated protein kinase (MAPK) signaling pathway was activated in the LVs of mutant mice. Treatment with the MEK inhibitor trametinib ameliorated cardiac hypertrophy in mutant male mice. These results suggest that the MEK/ERK pathway is a therapeutic target for the NS-like phenotype resulting from dysfunction of RAS proteostasis by LZTR1 AD mutations.

Authors

Taiki Abe, Kaho Morisaki, Tetsuya Niihori, Miho Terao, Shuji Takada, Yoko Aoki

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Figure 2

Autosomal dominant LZTR1 mutants act as dominant-negative forms of the WT LZTR1.

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Autosomal dominant LZTR1 mutants act as dominant-negative forms of the W...
(A) Mouse embryonic fibroblasts (MEFs) from Lztr1+/+, Lztr1R409C/+, and Lztr1R409C/R409C embryos at E13.5 were analyzed using the indicated antibodies. (B) HEK293-KO cells were transfected with plasmids encoding WT or autosomal dominant (AD) mutants. After 48 hours, whole-cell lysates were evaluated via immunoblot analysis using each anti-RAS subfamily antibody. (C) HEK293-KO cells were transfected with the pFR-luc transreporter, pFA2-ELK1, pGL4.74-hRluc-TK, and the indicated expression plasmids. The Elk1-mediated transcriptional activities were evaluated under 10% serum conditions and displayed as relative values, with the empty group as a control. Values are presented as mean ± SD (n = 4). ***P ≤ 0.001 (versus the empty group, using Dunnett’s test). (D) In vitro–translated FLAG-LZTR1 WT or the indicated mutants and HEK293-KO cell lysates were incubated with FLAG-M2 magnetic beads for 12 hours, and immunoprecipitants were evaluated by immunoblotting. (E) In vitro translated FLAG-, MYC-, and HA-tagged LZTR1 WT or AD mutant proteins were incubated with FLAG-M2 magnetic beads for 6 hours, and the influence of HA-tagged LZTR1 proteins on the homodimerization between FLAG-LZTR1 WT and MYC-LZTR1 WT was evaluated by immunoblotting. (F) HEK-293KO cells were transfected with the indicated plasmids, and then the Elk1-mediated transcriptional activities were analyzed as shown in C. Values are presented as mean ± SD (n = 3). *P ≤ 0.05, **P ≤ 0.01, ***P ≤ 0.001 vs. the CUL3/LZTR1-WT group, using Dunnett’s test. (G) Schematic of LZTR1 dimerization and its effect on RAS degradation.