2020
DOI: 10.1101/2020.03.17.995670
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Asparagine signals mitochondrial respiration and can be targeted to impair tumour growth

Abstract: Mitochondrial respiration is critical for cell proliferation. In addition to producing ATP via the electron transport chain (ETC), respiration is required for the generation of TCA cycle-derived biosynthetic precursors, such as aspartate, an essential substrate for nucleotide synthesis.Because mTORC1 coordinates availability of biosynthetic precursors with anabolic metabolism, including nucleotide synthesis, a link between respiration and mTORC1 is fitting. Here we show that in addition to depleting intracellu… Show more

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Cited by 8 publications
(8 citation statements)
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“…Although the clinical effect of L-asparaginase clearly indicates that asparagine is crucial for tumor survival and metastasis 52 , the importance of asparagine beyond protein synthesis and the mechanism by which asparagine supplementation enhances glutamine-associated metabolism are less well understood. Recently, asparagine has been reported to function as an exchange factor needed for the uptake of other amino acids that are required for mTORC1 activation 53 and for enhanced nucleotide biosynthesis under mitochondrial electron chain transport system impairment 54 . Further investigation is needed to explain the considerable mechanistic importance of asparagine in cancer metabolism.…”
Section: Asparaginementioning
confidence: 99%
“…Although the clinical effect of L-asparaginase clearly indicates that asparagine is crucial for tumor survival and metastasis 52 , the importance of asparagine beyond protein synthesis and the mechanism by which asparagine supplementation enhances glutamine-associated metabolism are less well understood. Recently, asparagine has been reported to function as an exchange factor needed for the uptake of other amino acids that are required for mTORC1 activation 53 and for enhanced nucleotide biosynthesis under mitochondrial electron chain transport system impairment 54 . Further investigation is needed to explain the considerable mechanistic importance of asparagine in cancer metabolism.…”
Section: Asparaginementioning
confidence: 99%
“…Overall, the importance of ETC-dependent redox balance has been confirmed across a range of cancer contexts. To note, it has been proposed that the main role of the ETC was to generate aspartate for further conversion to asparagine via the action of asparagine synthetase (ASNS) (Krall et al 2021) (Fig. 3B, left panel).…”
Section: Figurementioning
confidence: 99%
“…Higher ASNS expression can correlate with poorer patient survival in breast, bladder and squamous head and neck cancers as well as renal clear cell carcinoma patients. In this way, gene targeting of ASNS, dietary restriction of asparagine and reduction of bioavailable asparagine (by treatment with l-asparaginase) are being explored therapeutically in pre-clinical breast and lung cancer mouse models (Hettmer et al 2015, Knott et al 2018, Krall et al 2021. In this regard, asparagine limitation has been a longestablished strategy to treat certain types of leukaemia that are highly dependent upon asparagine availability (Richards & Kilberg 2006).…”
Section: Figurementioning
confidence: 99%
“…Like pyruvate, asparagine has similarly been shown to promote therapeutic resistance and support tumor growth upon inhibition of complex I (Fig. 2B; Halbrook et al 2020;Krall et al 2020). Asparagine promotes therapeutic resistance and permits tumor growth by supporting biosynthesis and aspartate availability, in both mTOR-dependent and -independent manners.…”
Section: Cancer Cell-extrinsic Targetsmentioning
confidence: 99%