Mechanistic safety assessment via multi-omic characterisation of systemic pathway perturbations following in vivo MAT2A inhibition

蛋氨酸腺苷转移酶 蛋氨酸 甲基转移酶 甲基化 体内 生物化学 生物 细胞生物学 化学 基因 氨基酸 遗传学
作者
Valentina Fogal,Filippos Michopoulos,Andrew F. Jarnuczak,Ghaith M. Hamza,Stephanie Harlfinger,Paul R. J. Davey,Heather Hulme,Stephen J. Atkinson,Piotr Gabrowski,Tony Cheung,Michael Grondine,Clare Hoover,Jonathan A. Rose,C. M. Bray,Alison J. Foster,Sean Askin,Muntasir Mamun Majumder,Paul Fitzpatrick,Eric Miele,Ruth S. MacDonald
出处
期刊:Archives of Toxicology [Springer Science+Business Media]
卷期号:98 (8): 2589-2603 被引量:1
标识
DOI:10.1007/s00204-024-03771-w
摘要

The tumour suppressor p16/CDKN2A and the metabolic gene, methyl-thio-adenosine phosphorylase (MTAP), are frequently co-deleted in some of the most aggressive and currently untreatable cancers. Cells with MTAP deletion are vulnerable to inhibition of the metabolic enzyme, methionine-adenosyl transferase 2A (MAT2A), and the protein arginine methyl transferase (PRMT5). This synthetic lethality has paved the way for the rapid development of drugs targeting the MAT2A/PRMT5 axis. MAT2A and its liver- and pancreas-specific isoform, MAT1A, generate the universal methyl donor S-adenosylmethionine (SAM) from ATP and methionine. Given the pleiotropic role SAM plays in methylation of diverse substrates, characterising the extent of SAM depletion and downstream perturbations following MAT2A/MAT1A inhibition (MATi) is critical for safety assessment. We have assessed in vivo target engagement and the resultant systemic phenotype using multi-omic tools to characterise response to a MAT2A inhibitor (AZ'9567). We observed significant SAM depletion and extensive methionine accumulation in the plasma, liver, brain and heart of treated rats, providing the first assessment of both global SAM depletion and evidence of hepatic MAT1A target engagement. An integrative analysis of multi-omic data from liver tissue identified broad perturbations in pathways covering one-carbon metabolism, trans-sulfuration and lipid metabolism. We infer that these pathway-wide perturbations represent adaptive responses to SAM depletion and confer a risk of oxidative stress, hepatic steatosis and an associated disturbance in plasma and cellular lipid homeostasis. The alterations also explain the dramatic increase in plasma and tissue methionine, which could be used as a safety and PD biomarker going forward to the clinic.
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