Enzyme-mediated depletion of serum
            <scp>l</scp>
            -Met abrogates prostate cancer growth via multiple mechanisms without evidence of systemic toxicity

Lu, Wei-Cheng; Saha, Achinto; Yan, Wang; Garrison, Kendra; Lamb, Candice; Pandey, Renu; Irani, Seema; Lodi, Alessia; Lu, Xiyuan; Tiziani, Stefano; Zhang, Yan Jessie; Georgiou, George; DiGiovanni, John; Stone, Everett

doi:10.1073/pnas.1917362117

Cited by 33 publications

(50 citation statements)

References 87 publications

(61 reference statements)

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“…o-rMETase originated in P. putida, where it can survive and proliferate in a wide range of pH and temperatures. Therefore, o-rMETase could have been evolved into an enzyme that can survive in the low pH of the stomach (31) which is a great advantage over a human engineered methioninase which must be injected (50).…”

Section: Resultsmentioning

confidence: 99%

Chronic Treatment of an Advanced Prostate-cancer Patient With Oral Methioninase Resulted in Long-term Stabilization of Rapidly Rising PSA Levels

Han

Hoffman

2021

In Vivo

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Background/Aim: Advanced prostate cancer is a recalcitrant disease with very limited treatment options. Our laboratory discovered methionine addiction, presumably a characteristic of all cancer types, including prostate cancer, which can be targeted by methionine restriction (MR), through treatment with oral recombinant methioninase (o-rMETase). Patients and Methods: o-rMETase was produced by fermentation of recombinant E. coli containing the Pseudomonas putida methioninase gene, and purified by column chromatography. An advanced prostate cancer patient received o-rMETase as a supplement, 500 units per day, divided into two oral doses of 250 units each. Results: Before treatment, the patient had a rapid rise in PSA levels, from 39 to 56 ng/ml, within 6 weeks. At the 15 th week of o-rMETase administration, the PSA levels stabilized at 62 ng/ml. No overt side effects were observed. Conclusion: o-rMETase single treatment can be beneficial for advanced prostate cancer patients.

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Section: Resultsmentioning

confidence: 99%

Chronic Treatment of an Advanced Prostate-cancer Patient With Oral Methioninase Resulted in Long-term Stabilization of Rapidly Rising PSA Levels

Han

Hoffman

2021

In Vivo

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“…According to this definition, establishing a methionine dependency phenotype is possible through in vitro testing using cell culture models and methionine-free culture media. In vivo strategies of methionine restriction are not efficient and decrease serum methionine by only 40 to 50% [51], which is not sufficient for obtaining complete methionine deprivation. In this setting, the use of methioninase-based strategies for methionine deprivation on xenografted nude mice models could be considered as part of a future development of our research framework [51,52].…”

Section: Discussionmentioning

confidence: 99%

“…In vivo strategies of methionine restriction are not efficient and decrease serum methionine by only 40 to 50% [51], which is not sufficient for obtaining complete methionine deprivation. In this setting, the use of methioninase-based strategies for methionine deprivation on xenografted nude mice models could be considered as part of a future development of our research framework [51,52]. Third, according to international guidelines, IRs are performed after surgery or in definitive intent in glioblastoma, melanoma, or HCC.…”

Section: Discussionmentioning

confidence: 99%

Ionizing radiations induce shared epigenomic signatures unraveling adaptive mechanisms of cancerous cell lines with or without methionine dependency

et al. 2021

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Background Although radiation therapy represents a core cancer treatment modality, its efficacy is hampered by radioresistance. The effect of ionizing radiations (IRs) is well known regarding their ability to induce genetic alterations; however, their impact on the epigenome landscape in cancer, notably at the CpG dinucleotide resolution, remains to be further deciphered. In addition, no evidence is available regarding the effect of IRs on the DNA methylome profile according to the methionine dependency phenotype, which represents a hallmark of metabolic adaptation in cancer. Methods We used a case–control study design with a fractionated irradiation regimen on four cancerous cell lines representative of HCC (HepG2), melanoma (MeWo and MeWo-LC1, which exhibit opposed methionine dependency phenotypes), and glioblastoma (U251). We performed high-resolution genome-wide DNA methylome profiling using the MethylationEPIC BeadChip on baseline conditions, irradiated cell lines (cumulative dose of 10 Gy), and non-irradiated counterparts. We performed epigenome-wide association studies to assess the effect of IRs and methionine-dependency-oriented analysis by carrying out epigenome-wide conditional logistic regression. We looked for epigenome signatures at the locus and single-probe (CpG dinucleotide) levels and through enrichment analyses of gene ontologies (GO). The EpiMet project was registered under the ID#AAP-BMS_003_211. Results EWASs revealed shared GO annotation pathways associated with increased methylation signatures for several biological processes in response to IRs, including blood circulation, plasma membrane-bounded cell projection organization, cell projection organization, multicellular organismal process, developmental process, and animal organ morphogenesis. Epigenome-wide conditional logistic regression analysis on the methionine dependency phenotype highlighted several epigenome signatures related to cell cycle and division and responses to IR and ultraviolet light. Conclusions IRs generated a variation in the methylation level of a high number of CpG probes with shared biological pathways, including those associated with cell cycle and division, responses to IRs, sustained angiogenesis, tissue invasion, and metastasis. These results provide insight on shared adaptive mechanisms of the epigenome in cancerous cell lines in response to IR. Future experiments should focus on the tryptic association between IRs, the initiation of a radioresistance phenotype, and their interaction with methionine dependency as a hallmark of metabolic adaptation in cancer. Graphical abstract

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“…By performing comparative CRISPR screens based on medium composition, it may also be possible to design cancer treatment strategies that exploit gene-nutrient interactions by coupling targeted inhibitors with either dietary or enzyme-catalyzed modulation of circulating metabolites. Notably, a number of clinical and preclinical enzymes mediate systemic depletion of specific metabolites (Cantor and Sabatini, 2012;Cramer et al, 2016;Lu et al, 2020;Patgiri et al, 2020;Triplett et al, 2018), and recent studies have shown that dietary intervention to either restrict or increase the availability of specific amino acids can affect cancer growth and chemotherapeutic efficacy (Gao et al, 2019;Kanarek et al, 2018).…”

Section: Discussionmentioning

confidence: 99%

CRISPR screens in physiologic medium reveal conditionally essential genes in human cells

Rossiter

Huggler

Adelmann

et al. 2020

Preprint

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SUMMARYForward genetic screens across hundreds of diverse cancer cell lines have started to define the genetic dependencies of proliferating human cells and how these vary by genotype and lineage. Most screens, however, have been carried out in culture media that poorly resemble metabolite availability in human blood. To explore how medium composition influences gene essentiality, we performed CRISPR-based screens of human cancer cell lines cultured in traditional versus human plasma-like medium (HPLM). Sets of medium-dependent fitness genes span several cellular processes and can vary with both natural cell-intrinsic diversity and the specific combination of basal and serum components that comprise typical culture media. Notably, we traced the causes for each of three conditional growth phenotypes to the availability of metabolites uniquely defined in HPLM versus traditional media. Our findings reveal the profound impact of medium composition on gene essentiality in human cells, and also suggest general strategies for using genetic screens in HPLM to uncover new cancer vulnerabilities and gene-nutrient interactions.

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Enzyme-mediated depletion of serum l -Met abrogates prostate cancer growth via multiple mechanisms without evidence of systemic toxicity

Cited by 33 publications

References 87 publications

Chronic Treatment of an Advanced Prostate-cancer Patient With Oral Methioninase Resulted in Long-term Stabilization of Rapidly Rising PSA Levels

Chronic Treatment of an Advanced Prostate-cancer Patient With Oral Methioninase Resulted in Long-term Stabilization of Rapidly Rising PSA Levels

Ionizing radiations induce shared epigenomic signatures unraveling adaptive mechanisms of cancerous cell lines with or without methionine dependency

CRISPR screens in physiologic medium reveal conditionally essential genes in human cells

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