Your search keyword '"Tuttle, Emily T."' showing total 6 results

1. A whole food, plant-based diet reduces amino acid levels in patients with metastatic breast cancer

Author

Scales, TashJaé Q., Smith, Bradley, Blanchard, Lisa M., Wixom, Nellie, Tuttle, Emily T., Altman, Brian J., Peppone, Luke J., Munger, Joshua, Campbell, Thomas M., Campbell, Erin K., and Harris, Isaac S.

Published

2024

2. Glutathione synthesis in the mouse liver supports lipid abundance through NRF2 repression

Author

Asantewaa, Gloria, Tuttle, Emily T., Ward, Nathan P., Kang, Yun Pyo, Kim, Yumi, Kavanagh, Madeline E., Girnius, Nomeda, Chen, Ying, Rodriguez, Katherine, Hecht, Fabio, Zocchi, Marco, Smorodintsev-Schiller, Leonid, Scales, TashJaé Q., Taylor, Kira, Alimohammadi, Fatemeh, Duncan, Renae P., Sechrist, Zachary R., Agostini-Vulaj, Diana, Schafer, Xenia L., Chang, Hayley, Smith, Zachary R., O’Connor, Thomas N., Whelan, Sarah, Selfors, Laura M., Crowdis, Jett, Gray, G. Kenneth, Bronson, Roderick T., Brenner, Dirk, Rufini, Alessandro, Dirksen, Robert T., Hezel, Aram F., Huber, Aaron R., Munger, Joshua, Cravatt, Benjamin F., Vasiliou, Vasilis, Cole, Calvin L., DeNicola, Gina M., and Harris, Isaac S.

Published

2024

3. Glutathione supports lipid abundancein vivo

Author

Asantewaa, Gloria, primary, Tuttle, Emily T., additional, Ward, Nathan P., additional, Kang, Yun Pyo, additional, Kim, Yumi, additional, Kavanagh, Madeline E., additional, Girnius, Nomeda, additional, Chen, Ying, additional, Duncan, Renae, additional, Rodriguez, Katherine, additional, Hecht, Fabio, additional, Zocchi, Marco, additional, Smorodintsev-Schiller, Leonid, additional, Scales, TashJaé Q., additional, Taylor, Kira, additional, Alimohammadi, Fatemeh, additional, Sechrist, Zachary R, additional, Agostini-Vulaj, Diana, additional, Schafer, Xenia L., additional, Chang, Hayley, additional, Smith, Zachary, additional, O’Connor, Thomas N., additional, Whelan, Sarah, additional, Selfors, Laura M., additional, Crowdis, Jett, additional, Gray, G. Kenneth, additional, Bronson, Roderick T., additional, Brenner, Dirk, additional, Rufini, Alessandro, additional, Dirksen, Robert T., additional, Hezel, Aram F., additional, Huber, Aaron R., additional, Munger, Josh, additional, Cravatt, Benjamin F., additional, Vasiliou, Vasilis, additional, Cole, Calvin L, additional, DeNicola, Gina M., additional, and Harris, Isaac S., additional

Published

2023

4. A whole food, plant-based diet reduces amino acid levels in patients with metastatic breast cancer.

Author

Scales TQ, Smith B, Blanchard LM, Wixom N, Tuttle ET, Altman BJ, Peppone LJ, Munger J, Campbell TM, Campbell EK, and Harris IS

Abstract

Background: Amino acids are critical to tumor survival. Tumors can acquire amino acids from the surrounding microenvironment, including the serum. Limiting dietary amino acids is suggested to influence their serum levels. Further, a plant-based diet is reported to contain fewer amino acids than an animal-based diet. The extent to which a plant-based diet lowers the serum levels of amino acids in patients with cancer is unclear., Methods: Patients with metastatic breast cancer (n=17) were enrolled in a clinical trial with an ad libitum whole food, plant-based diet for 8 weeks without calorie or portion restriction. Dietary changes by participants were monitored using a three-day food record. Serum was collected from participants at baseline and 8 weeks. Food records and serum were analyzed for metabolic changes., Results: We found that a whole food, plant-based diet resulted in a lower intake of calories, fat, and amino acids and higher levels of fiber. Additionally, body weight, serum insulin, and IGF were reduced in participants. The diet contained lower levels of essential and non-essential amino acids, except for arginine (glutamine and asparagine were not measured). Importantly, the lowered dietary intake of amino acids translated to reduced serum levels of amino acids in participants (5/9 essential amino acids; 4/11 non-essential amino acids)., Conclusions: These findings provide a tractable approach to limiting amino acid levels in persons with cancer. This data lays a foundation for studying the relationship between amino acids in patients and tumor progression. Further, a whole-food, plant-based diet has the potential to synergize with cancer therapies that exploit metabolic vulnerabilities., Trial Registration: The clinical trial was registered with ClinicalTrials.gov identifier NCT03045289 on 2017-02-07., Competing Interests: Competing interests All authors declare no competing interests.

Published

2024

5. Catabolism of extracellular glutathione supplies amino acids to support tumor growth.

Author

Hecht F, Zocchi M, Tuttle ET, Ward NP, Smith B, Kang YP, Cazarin J, Soares ZG, Ozgurses ME, Zhao H, Sheehan C, Alimohammadi F, Munger LD, Trivedi D, Asantewaa G, Blick-Nitko SK, Zoeller JJ, Chen Y, Vasiliou V, Turner BM, Muir A, Coloff JL, Munger J, DeNicola GM, and Harris IS

Abstract

Restricting amino acids from tumors is an emerging therapeutic strategy with significant promise. While typically considered an intracellular antioxidant with tumor-promoting capabilities, glutathione (GSH) is a tripeptide of cysteine, glutamate, and glycine that can be catabolized, yielding amino acids. The extent to which GSH-derived amino acids are essential to cancers is unclear. Here, we find that GSH catabolism promotes tumor growth. We show that depletion of intracellular GSH does not perturb tumor growth, and extracellular GSH is highly abundant in the tumor microenvironment, highlighting the potential importance of GSH outside of tumors. We find supplementation with GSH can rescue cancer cell survival and growth in cystine-deficient conditions, and this rescue is dependent on the catabolic activity of γ-glutamyltransferases (GGTs). Finally, pharmacologic targeting of GGTs' activity prevents the breakdown of circulating GSH, lowers tumor cysteine levels, and slows tumor growth. Our findings indicate a non-canonical role for GSH in supporting tumors by acting as a reservoir of amino acids. Depriving tumors of extracellular GSH or inhibiting its breakdown is potentially a therapeutically tractable approach for patients with cancer. Further, these findings change our view of GSH and how amino acids, including cysteine, are supplied to cells., Competing Interests: Competing Interests Statement All authors declare no competing interests.

Published

2024

6. Glutathione supports lipid abundance in vivo .

Author

Asantewaa G, Tuttle ET, Ward NP, Kang YP, Kim Y, Kavanagh ME, Girnius N, Chen Y, Duncan R, Rodriguez K, Hecht F, Zocchi M, Smorodintsev-Schiller L, Scales TQ, Taylor K, Alimohammadi F, Sechrist ZR, Agostini-Vulaj D, Schafer XL, Chang H, Smith Z, O'Connor TN, Whelan S, Selfors LM, Crowdis J, Gray GK, Bronson RT, Brenner D, Rufini A, Dirksen RT, Hezel AF, Huber AR, Munger J, Cravatt BF, Vasiliou V, Cole CL, DeNicola GM, and Harris IS

Abstract

Cells rely on antioxidants to survive. The most abundant antioxidant is glutathione (GSH). The synthesis of GSH is non-redundantly controlled by the glutamate-cysteine ligase catalytic subunit (GCLC). GSH imbalance is implicated in many diseases, but the requirement for GSH in adult tissues is unclear. To interrogate this, we developed a series of in vivo models to induce Gclc deletion in adult animals. We find that GSH is essential to lipid abundance in vivo . GSH levels are reported to be highest in liver tissue, which is also a hub for lipid production. While the loss of GSH did not cause liver failure, it decreased lipogenic enzyme expression, circulating triglyceride levels, and fat stores. Mechanistically, we found that GSH promotes lipid abundance by repressing NRF2, a transcription factor induced by oxidative stress. These studies identify GSH as a fulcrum in the liver's balance of redox buffering and triglyceride production., Competing Interests: DECLARATION OF INTERESTS All other authors declare no competing interests.

Published

2023