Boone M. Prentice scite author profile

CD8+ T cells are master effectors of antitumor immunity, and their presence at tumor sites correlates with favorable outcomes. However, metabolic constraints imposed by the tumor microenvironment (TME) can dampen their ability to control tumor progression. We describe lipid accumulation in the TME areas of pancreatic ductal adenocarcinoma (PDA) populated by CD8+ T cells infiltrating both murine and human tumors. In this lipid-rich but otherwise nutrient-poor TME, access to using lipid metabolism becomes particularly valuable for sustaining cell functions. Here, we found that intrapancreatic CD8+ T cells progressively accumulate specific long-chain fatty acids (LCFAs), which, rather than provide a fuel source, impair their mitochondrial function and trigger major transcriptional reprogramming of pathways involved in lipid metabolism, with the subsequent reduction of fatty acid catabolism. In particular, intrapancreatic CD8+ T cells specifically exhibit down-regulation of the very-long-chain acyl-CoA dehydrogenase (VLCAD) enzyme, which exacerbates accumulation of LCFAs and very-long-chain fatty acids (VLCFAs) that mediate lipotoxicity. Metabolic reprogramming of tumor-specific T cells through enforced expression of ACADVL enabled enhanced intratumoral T cell survival and persistence in an engineered mouse model of PDA, overcoming one of the major hurdles to immunotherapy for PDA.

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The innate immune protein calprotectin promotes Pseudomonas aeruginosa and Staphylococcus aureus interaction

Wakeman¹,

Moore²,

Noto³

et al. 2016

Nat Commun

120

136

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Microorganisms form biofilms containing differentiated cell populations. To determine factors driving differentiation, we herein visualize protein and metal distributions within Pseudomonas aeruginosa biofilms using imaging mass spectrometry. These in vitro experiments reveal correlations between differential protein distribution and metal abundance. Notably, zinc- and manganese-depleted portions of the biofilm repress the production of anti-staphylococcal molecules. Exposure to calprotectin (a host protein known to sequester metal ions at infectious foci) recapitulates responses occurring within metal-deplete portions of the biofilm and promotes interaction between P. aeruginosa and Staphylococcus aureus. Consistent with these results, the presence of calprotectin promotes co-colonization of the murine lung, and polymicrobial communities are found to co-exist in calprotectin-enriched airspaces of a cystic fibrosis lung explant. These findings, which demonstrate that metal fluctuations are a driving force of microbial community structure, have clinical implications because of the frequent occurrence of P. aeruginosa and S. aureus co-infections.

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Electrospray Droplet Exposure to Gaseous Acids for the Manipulation of Protein Charge State Distributions

et al. 2010

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The exposure of electrospray droplets to acid vapors can significantly affect protein charge state distributions (CSDs) derived from unbuffered solutions. Such experiments have been conducted by leaking acidic vapors into the counter-current nitrogen drying gas of an electrospray interface. Based on changes in protein CSDs, protein folding and unfolding phenomena are implicated in these studies. Additionally, non-covalently-bound complexes are preserved and transient intermediates observed, such as high charge state ions of holomyoglobin. CSDs of proteins containing disulfide bonds shift slightly, if at all, with acid vapor leak-in, but when these disulfide bonds are reduced in solution, charge states higher than the number of basic sites (Lys, Arg, His and N-terminus) are observed. Since there is no observed change in the CSD of buffered proteins exposed to acidic vapors, this novel multiple charging phenomenon is attributed to a pH effect. Thus, this acid vapor leak-in approach can be used to reverse ‘wrong-way-round’ nanoelectrospray conditions by altering solution pH in the charged droplets relative to the pH in bulk solution. In general, the exposure of electrospray droplets to acidic vapors provides means for altering protein CSDs independent of bulk unbuffered solution pH.

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Enterococci enhance Clostridioides difficile pathogenesis

Smith

Jenior

Keenan

et al. 2022

Nature

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Gas-phase ion/ion reactions of peptides and proteins: acid/base, redox, and covalent chemistries

Prentice

McLuckey

2013

Chem. Commun.

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Gas-phase ion/ion reactions are emerging as useful and flexible means for the manipulation and characterization of peptide and protein biopolymers. Acid/base-like chemical reactions (i.e., proton transfer reactions) and reduction/oxidation (redox) reactions (i.e., electron transfer reactions) represent relatively mature classes of gas-phase chemical reactions. Even so, especially in regards to redox chemistry, the widespread utility of these two types of chemistries is undergoing rapid growth and development. Additionally, a relatively new class of gas-phase ion/ion transformations is emerging which involves the selective formation of functional-group-specific covalent bonds. This feature details our current work and perspective on the developments and current capabilities of these three areas of ion/ion chemistry with an eye towards possible future directions of the field.

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Boone M. Prentice

Accumulation of long-chain fatty acids in the tumor microenvironment drives dysfunction in intrapancreatic CD8+ T cells

The innate immune protein calprotectin promotes Pseudomonas aeruginosa and Staphylococcus aureus interaction

Electrospray Droplet Exposure to Gaseous Acids for the Manipulation of Protein Charge State Distributions

Enterococci enhance Clostridioides difficile pathogenesis

Gas-phase ion/ion reactions of peptides and proteins: acid/base, redox, and covalent chemistries

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