Inhibiting MARSs reduces hyperhomocysteinemia‐associated neural tube and congenital heart defects

Hyperhomocysteinemia is a common metabolic disorder that imposes major adverse health consequences. Reducing homocysteine levels, however, is not always effective against hyperhomocysteinemia‐associated pathologies. Herein, we report the potential roles of methionyl‐tRNA synthetase (MARS)‐generated...

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Published in:EMBO molecular medicine 2020-03, Vol.12 (3), p.e9469-n/a
Main Authors: Mei, Xinyu, Qi, Dashi, Zhang, Ting, Zhao, Ying, Jin, Li, Hou, Junli, Wang, Jianhua, Lin, Yan, Xue, Yu, Zhu, Pingping, Liu, Zexian, Huang, Lei, Nie, Ji, Si, Wen, Ma, Jingyi, Ye, Jianhong, Finnell, Richard H, Saiyin, Hexige, Wang, Hongyan, Zhao, Jianyuan, Zhao, Shimin, Xu, Wei
Format: Article
Language:English
Subjects:
acetyl homocysteine thioether
Alzheimer's disease
Animal models
Animals
Apoptosis
Brain
Congenital diseases
Defects
EMBO27
Female
Heart
Heart Defects, Congenital - prevention & control
Homocysteine
Humans
Hyperhomocysteinemia
Hyperhomocysteinemia - genetics
Infant, Newborn
Lysine
Male
Metabolic disorders
Metabolism
Metabolites
Methionine-tRNA Ligase - antagonists & inhibitors
methionyl‐tRNA synthetase
Mice
Mice, Inbred C57BL
Neural tube defects
Neural Tube Defects - prevention & control
N‐homocysteinylation
Oxidative stress
Protein expression
Protein synthesis
Proteins
Rats
Rats, Sprague-Dawley
reactive oxygen species
Retinoic acid
Superoxide
Superoxide dismutase
tRNA
United States
Wnt protein
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Summary:Hyperhomocysteinemia is a common metabolic disorder that imposes major adverse health consequences. Reducing homocysteine levels, however, is not always effective against hyperhomocysteinemia‐associated pathologies. Herein, we report the potential roles of methionyl‐tRNA synthetase (MARS)‐generated homocysteine signals in neural tube defects (NTDs) and congenital heart defects (CHDs). Increased copy numbers of MARS and/or MARS2 were detected in NTD and CHD patients. MARSs sense homocysteine and transmit its signal by inducing protein lysine (N)‐homocysteinylation. Here, we identified hundreds of novel N‐homocysteinylated proteins. N‐homocysteinylation of superoxide dismutases (SOD1/2) provided new mechanistic insights for homocysteine‐induced oxidative stress, apoptosis and Wnt signalling deregulation. Elevated MARS expression in developing and proliferating cells sensitizes them to the effects of homocysteine. Targeting MARSs using the homocysteine analogue acetyl homocysteine thioether (AHT) reversed MARS efficacy. AHT lowered NTD and CHD onsets in retinoic acid‐induced and hyperhomocysteinemia‐induced animal models without affecting homocysteine levels. We provide genetic and biochemical evidence to show that MARSs are previously overlooked genetic determinants and key pathological factors of hyperhomocysteinemia, and suggest that MARS inhibition represents an important medicinal approach for controlling hyperhomocysteinemia‐associated diseases. Synopsis Reducing homocysteine levels is not always effective against hyperhomocysteinemia‐associated pathologies such as neural tube and congenital heart defects (NTD/CHD). Here, increased MARS/MARS2 copy numbers were associated with NTD and CHD onsets, and targeting MARSs reduced Hcy signals and NTD/CHD. Increased copy numbers of MARS/MARS2‐encoding genes were associated with the onset of CHDs and NTDs MARS over‐expression potentiated Hcy‐induced ROS accumulation, apoptosis, and Wnt signalling deregulation, via regulation of the activity of HTL, N‐Hcy, and SOD1/2. Inhibiting MARSs decreased the onset of NTDs and CHDs in hyperhomocysteinemia related models. Graphical Abstract Reducing homocysteine levels is not always effective against hyperhomocysteinemia‐associated pathologies such as neural tube and congenital heart defects (NTD/CHD). Here, increased MARS/MARS2 copy numbers were associated with NTD and CHD onsets, and targeting MARSs reduced Hcy signals and NTD/CHD.
ISSN:1757-4676
1757-4684
DOI:10.15252/emmm.201809469