Natasha Freidman scite author profile

BackgroundCancer cells require increased levels of nutrients such as amino acids to sustain their rapid growth. In particular, leucine and glutamine have been shown to be important for growth and proliferation of some breast cancers, and therefore targeting the primary cell-surface transporters that mediate their uptake, L-type amino acid transporter 1 (LAT1) and alanine, serine, cysteine-preferring transporter 2 (ASCT2), is a potential therapeutic strategy.MethodsThe ASCT2 inhibitor, benzylserine (BenSer), is also able to block LAT1 activity, thus inhibiting both leucine and glutamine uptake. We therefore aimed to investigate the effects of BenSer in breast cancer cell lines to determine whether combined LAT1 and ASCT2 inhibition could inhibit cell growth and proliferation.ResultsBenSer treatment significantly inhibited both leucine and glutamine uptake in MCF-7, HCC1806 and MDA-MB-231 breast cancer cells, causing decreased cell viability and cell cycle progression. These effects were not primarily leucine-mediated, as BenSer was more cytostatic than the LAT family inhibitor, BCH. Oocyte uptake assays with ectopically expressed amino acid transporters identified four additional targets of BenSer, and gas chromatography-mass spectrometry (GCMS) analysis of intracellular amino acid concentrations revealed that this BenSer-mediated inhibition of amino acid uptake was sufficient to disrupt multiple pathways of amino acid metabolism, causing reduced lactate production and activation of an amino acid response (AAR) through activating transcription factor 4 (ATF4).ConclusionsTogether these data showed that BenSer blockade inhibited breast cancer cell growth and viability through disruption of intracellular amino acid homeostasis and inhibition of downstream metabolic and growth pathways.Electronic supplementary materialThe online version of this article (10.1186/s12885-018-4599-8) contains supplementary material, which is available to authorized users.

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Inhibition of guanosine monophosphate synthetase (GMPS) blocks glutamine metabolism and prostate cancer growth

Wang

Guan

Hancock

et al. 2021

The Journal of Pathology

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Glutamine is a critical nutrient in cancer; however, its contribution to purine metabolism in prostate cancer has not previously been determined. Guanosine monophosphate synthetase (GMPS) acts in the de novo purine biosynthesis pathway, utilizing a glutamine amide to synthesize the guanine nucleotide. This study demonstrates that GMPS mRNA expression correlates with Gleason score in prostate cancer samples, while high GMPS expression was associated with decreased rates of overall and disease/progression‐free survival. Pharmacological inhibition or knockdown of GMPS significantly decreased cell growth in both LNCaP and PC‐3 prostate cancer cells. We utilized [15N‐(amide)]glutamine and [U‐13C5]glutamine metabolomics to dissect the pathways involved and despite similar growth inhibition by GMPS knockdown, we show unique metabolic effects across each cell line. Using a PC‐3 xenograft mouse model, tumor growth was also significantly decreased after GMPS knockdown, highlighting the importance of glutamine metabolism and providing support for GMPS as a therapeutic target in prostate cancer. © 2021 The Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd.

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Characterizing unexpected interactions of a glutamine transporter inhibitor with members of the SLC1A transporter family

Freidman¹,

Briot²,

Ryan

2022

Journal of Biological Chemistry

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