Browsing by Subject "Immunometabolism"
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Item Adenylosuccinic Acid: An Orphan Drug with Untapped Potential(MDPI, 2023-05-31) Rybalka, Emma; Kourakis, Stephanie; Bonsett, Charles A.; Moghadaszadeh, Behzad; Beggs, Alan H.; Timpani, Cara A.; Neurology, School of MedicineAdenylosuccinic acid (ASA) is an orphan drug that was once investigated for clinical application in Duchenne muscular dystrophy (DMD). Endogenous ASA participates in purine recycling and energy homeostasis but might also be crucial for averting inflammation and other forms of cellular stress during intense energy demand and maintaining tissue biomass and glucose disposal. This article documents the known biological functions of ASA and explores its potential application for the treatment of neuromuscular and other chronic diseases.Item CD8+ T cell metabolic flexibility elicited by CD28-ARS2 axis-driven alternative splicing of PKM supports antitumor immunity(Springer Nature, 2024) Holling, G. Aaron; Chavel, Colin A.; Sharda, Anand P.; Lieberman, Mackenzie M.; James, Caitlin M.; Lightman, Shivana M.; Tong, Jason H.; Qiao, Guanxi; Emmons, Tiffany R.; Giridharan, Thejaswini; Hou, Shengqi; Intlekofer, Andrew M.; Higashi, Richard M.; Fan, Teresa W. M.; Lane, Andrew N.; Eng, Kevin H.; Segal, Brahm H.; Repasky, Elizabeth A.; Lee, Kelvin P.; Olejniczak, Scott H.; Medicine, School of MedicineMetabolic flexibility has emerged as a critical determinant of CD8+ T-cell antitumor activity, yet the mechanisms driving the metabolic flexibility of T cells have not been determined. In this study, we investigated the influence of the nuclear cap-binding complex (CBC) adaptor protein ARS2 on mature T cells. In doing so, we discovered a novel signaling axis that endows activated CD8+ T cells with flexibility of glucose catabolism. ARS2 upregulation driven by CD28 signaling reinforced splicing factor recruitment to pre-mRNAs and affected approximately one-third of T-cell activation-induced alternative splicing events. Among these effects, the CD28-ARS2 axis suppressed the expression of the M1 isoform of pyruvate kinase in favor of PKM2, a key determinant of CD8+ T-cell glucose utilization, interferon gamma production, and antitumor effector function. Importantly, PKM alternative splicing occurred independently of CD28-driven PI3K pathway activation, revealing a novel means by which costimulation reprograms glucose metabolism in CD8+ T cells.Item Engineered natural killer cells impede the immunometabolic CD73-adenosine axis in solid tumors(eLife Sciences, 2022-07-11) Chambers, Andrea M.; Lupo, Kyle B.; Wang, Jiao; Cao, Jingming; Utturkar, Sagar; Lanman, Nadia; Bernal-Crespo, Victor; Jalal, Shadia; Pine, Sharon R.; Torregrosa-Allen, Sandra; Elzey, Bennett D.; Matosevic, Sandro; Medicine, School of MedicineImmunometabolic reprogramming due to adenosine produced by CD73 (encoded by the 5'-ectonucleotidase gene NT5E) is a recognized immunosuppressive mechanism contributing to immune evasion in solid tumors. Adenosine is not only known to contribute to tumor progression, but it has specific roles in driving dysfunction of immune cells, including natural killer (NK) cells. Here, we engineered human NK cells to directly target the CD73-adenosine axis by blocking the enzymatic activity of CD73. In doing so, the engineered NK cells not only impaired adenosinergic metabolism driven by the hypoxic uptake of ATP by cancer cells in a model of non-small-cell lung cancer, but also mediated killing of tumor cells due to the specific recognition of overexpressed CD73. This resulted in a 'single agent' immunotherapy that combines antibody specificity, blockade of purinergic signaling, and killing of targets mediated by NK cells. We also showed that CD73-targeted NK cells are potent in vivo and result in tumor arrest, while promoting NK cell infiltration into CD73+ tumors and enhancing intratumoral activation.Item Functional expression of CD73 on human natural killer cells(Springer, 2022) Chambers, Andrea M.; Wang, Jiao; Dao, Tram N.; Lupo, Kyle B.; Veenhuis, Paige; Ayers, Mitchell G.; Slivova, Veronika; Cohen‑Gadol, Aaron A.; Matosevic, Sandro; Neurological Surgery, School of MedicineThe production of adenosine by CD73 on cancer cells in the tumor microenvironment is a recognized immunosuppressive mechanism contributing to immune evasion in many solid tumors. While NK cells have been purported to overexpress CD73 under certain conditions, this phenomenon has remained elusive and unclear. We have found that while NK cells are able to upregulate expression of CD73 on their surface when exposed to CD73+ cancer cells, this upregulation is not universal, nor is it often substantial. Rather, our data point to the extent of CD73 expression on NK cells to be both cancer-specific and environmentally-driven, and largely limited in intensity. We found that NK cell overexpression of CD73 responds to the level of CD73 on cancer cells and is enhanced in hypoxia. Interestingly, human CD73+ NK cells appear hyperfunctional in vitro compared to CD73- NK cells, suggesting that CD73 expression could be a bystander of NK cell activation. In addition, glioblastoma patient data show that tumor-infiltrating NK cells express CD73 variably, depending on donor, and present lower expression of CD16, alongside patient-specific changes in CEACAM1, CXCR3 and TIM-3, suggesting some functional changes in NK cell responses associated with expression of CD73 on NK cells in vivo. Taken together, our study is the first to show that while NK cells are largely resistant to the upregulation of CD73, CD73 expression is inducible on NK cells in response to CD73 on cancer cells, and these cells are associated with distinct functional signatures.Item Functional expression of CD73 on human natural killer cells(Springer, 2022-12) Chambers, Andrea M.; Wang, Jiao; Dao, Tram N.; Lupo, Kyle B.; Veenhuis, Paige; Ayers, Mitchell G.; Slivova, Veronika; Cohen-Gadol, Aaron A.; Matosevic, Sandro; Neurological Surgery, School of MedicineThe production of adenosine by CD73 on cancer cells in the tumor microenvironment is a recognized immunosuppressive mechanism contributing to immune evasion in many solid tumors. While NK cells have been purported to overexpress CD73 under certain conditions, this phenomenon has remained elusive and unclear. We have found that while NK cells are able to upregulate expression of CD73 on their surface when exposed to CD73+ cancer cells, this upregulation is not universal, nor is it often substantial. Rather, our data point to the extent of CD73 expression on NK cells to be both cancer-specific and environmentally-driven, and largely limited in intensity. We found that NK cell overexpression of CD73 responds to the level of CD73 on cancer cells and is enhanced in hypoxia. Interestingly, human CD73+ NK cells appear hyperfunctional in vitro compared to CD73− NK cells, suggesting that CD73 expression could be a bystander of NK cell activation. In addition, glioblastoma patient data show that tumor-infiltrating NK cells express CD73 variably, depending on donor, and present lower expression of CD16, alongside patient-specific changes in CEACAM1, CXCR3 and TIM-3, suggesting some functional changes in NK cell responses associated with expression of CD73 on NK cells in vivo. Taken together, our study is the first to show that while NK cells are largely resistant to the upregulation of CD73, CD73 expression is inducible on NK cells in response to CD73 on cancer cells, and these cells are associated with distinct functional signatures.Item Functional expression of CD73 on human natural killer cells(Springer, 2022) Chambers, Andrea M.; Wang, Jiao; Dao, Tram N.; Lupo, Kyle B.; Veenhuis, Paige; Ayers, Mitchell G.; Slivova, Veronika; Cohen‑Gadol, Aaron A.; Matosevic, Sandro; Neurological Surgery, School of MedicineThe production of adenosine by CD73 on cancer cells in the tumor microenvironment is a recognized immunosuppressive mechanism contributing to immune evasion in many solid tumors. While NK cells have been purported to overexpress CD73 under certain conditions, this phenomenon has remained elusive and unclear. We have found that while NK cells are able to upregulate expression of CD73 on their surface when exposed to CD73+ cancer cells, this upregulation is not universal, nor is it often substantial. Rather, our data point to the extent of CD73 expression on NK cells to be both cancer-specific and environmentally-driven, and largely limited in intensity. We found that NK cell overexpression of CD73 responds to the level of CD73 on cancer cells and is enhanced in hypoxia. Interestingly, human CD73+ NK cells appear hyperfunctional in vitro compared to CD73− NK cells, suggesting that CD73 expression could be a bystander of NK cell activation. In addition, glioblastoma patient data show that tumor-infiltrating NK cells express CD73 variably, depending on donor, and present lower expression of CD16, alongside patient-specific changes in CEACAM1, CXCR3 and TIM-3, suggesting some functional changes in NK cell responses associated with expression of CD73 on NK cells in vivo. Taken together, our study is the first to show that while NK cells are largely resistant to the upregulation of CD73, CD73 expression is inducible on NK cells in response to CD73 on cancer cells, and these cells are associated with distinct functional signatures.Item Hematopoietic IKBKE limits the chronicity of inflammasome priming and metaflammation(PNAS, 2015-01-13) Patel, Meghana N.; Bernard, William G.; Milev, Nikolay B.; Cawthorn, William P.; Figg, Nichola; Hart, Dan; Prieur, Xavier; Virtue, Sam; Hegyi, Krisztina; Bonnafous, Stephanie; Bailly-Maitre, Beatrice; Chu, Yajing; Griffin, Julian L.; Mallat, Ziad; Considine, Robert V.; Tran, Albert; Gual, Philippe; Takeuchi, Osamu; Akira, Shizuo; Vidal-Puig, Antonio; Bennett, Martin R.; Sethi, Jaswinder K.; Department of Medicine, IU School of MedicineObesity increases the risk of developing life-threatening metabolic diseases including cardiovascular disease, fatty liver disease, diabetes, and cancer. Efforts to curb the global obesity epidemic and its impact have proven unsuccessful in part by a limited understanding of these chronic progressive diseases. It is clear that low-grade chronic inflammation, or metaflammation, underlies the pathogenesis of obesity-associated type 2 diabetes and atherosclerosis. However, the mechanisms that maintain chronicity and prevent inflammatory resolution are poorly understood. Here, we show that inhibitor of κB kinase epsilon (IKBKE) is a novel regulator that limits chronic inflammation during metabolic disease and atherosclerosis. The pathogenic relevance of IKBKE was indicated by the colocalization with macrophages in human and murine tissues and in atherosclerotic plaques. Genetic ablation of IKBKE resulted in enhanced and prolonged priming of the NLRP3 inflammasome in cultured macrophages, in hypertrophic adipose tissue, and in livers of hypercholesterolemic mice. This altered profile associated with enhanced acute phase response, deregulated cholesterol metabolism, and steatoheptatitis. Restoring IKBKE only in hematopoietic cells was sufficient to reverse elevated inflammasome priming and these metabolic features. In advanced atherosclerotic plaques, loss of IKBKE and hematopoietic cell restoration altered plaque composition. These studies reveal a new role for hematopoietic IKBKE: to limit inflammasome priming and metaflammation.