2022
DOI: 10.1038/s42255-022-00550-8
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Switching to the cyclic pentose phosphate pathway powers the oxidative burst in activated neutrophils

Abstract: Neutrophils are cells at the frontline of innate immunity that can quickly activate effector functions to eliminate pathogens upon stimulation. However, little is known about the metabolic adaptations that power these functions. Here we show rapid metabolic alterations in neutrophils upon activation, particularly drastic reconfiguration around the pentose phosphate pathway, which is specifically and quantitatively coupled to an oxidative burst. During this oxidative burst, neutrophils switch from glycolysis-do… Show more

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Cited by 98 publications
(131 citation statements)
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“…Besides insights into the regulatory logic, the modeling approach could also identify the main rate-limiting processes for PPP flux increase and H 2 O 2 detoxification. In the models, the maximal PPP flux generates up to 3 mol of NADPH for 1 mol of glucose due to a cycling mode where each molecule of glucose can be oxidized multiple times ( Kuehne et al., 2015 ; Dick and Ralser, 2015 ; Britt et al., 2022 ), which is nevertheless far from the maximal yield of 12 mol of NADPH in case of complete inhibition of PRPP and GAPD enzymes. Besides the production of nucleotide precursors for DNA damage repair and of ATP for stress management, we also identify several rate-limiting reactions including GPx enzyme ( Ng et al., 2007 ), but also 6PGD enzyme.…”
Section: Discussionmentioning
confidence: 99%
“…Besides insights into the regulatory logic, the modeling approach could also identify the main rate-limiting processes for PPP flux increase and H 2 O 2 detoxification. In the models, the maximal PPP flux generates up to 3 mol of NADPH for 1 mol of glucose due to a cycling mode where each molecule of glucose can be oxidized multiple times ( Kuehne et al., 2015 ; Dick and Ralser, 2015 ; Britt et al., 2022 ), which is nevertheless far from the maximal yield of 12 mol of NADPH in case of complete inhibition of PRPP and GAPD enzymes. Besides the production of nucleotide precursors for DNA damage repair and of ATP for stress management, we also identify several rate-limiting reactions including GPx enzyme ( Ng et al., 2007 ), but also 6PGD enzyme.…”
Section: Discussionmentioning
confidence: 99%
“…Indeed, the pH-independent rate constant for the reaction between ONOO − and CO2 has been determined as k20 = 3 x 10 4 M -1 s -1 (25 °C)(69) or 5.8 x 10 4 M -1 s -1 (37 °C) (64) ; the product of the reaction is a transient adduct (eq. [20]), nitrosoperoxocarboxylate (ONOOCO2 -) that readily undergoes homolysis to yield •NO2 and CO3• − in 35 % yields (eq. [21]), with the rest isomerizing to nitrate (NO3 -) (recently reviewed in (5,8)).…”
Section: Chemical Aspects Of the Reaction Of Co 2 With Peroxidesmentioning
confidence: 99%
“…Because of the velocity of the reaction [20] which is a function of the product of k20 times [CO2], the biological chemistry of peroxynitrite is highly influenced by the existing levels of CO2 in cells and tissues; CO2 represents a key biological target of peroxynitrite (8). For J o u r n a l P r e -p r o o f a comparative analysis of the relative weight of the CO2 reaction on the fate of peroxynitrite vs that of other biotargets see (80,81).…”
Section: Chemical Aspects Of the Reaction Of Co 2 With Peroxidesmentioning
confidence: 99%
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“…The main source of NADPH in neutrophils is the glucose-dependent pentose phosphate pathway (PPP). Activation of neutrophils with various stimuli leads to an increase in PPP metabolites ( Britt et al, 2022 ). In the PPP oxidative phase, the enzymes glucose-6-phosphate dehydrogenase (G6PD) and 6-phosphogluconate dehydrogenase (6 PGDH) catalyse the two steps leading to NADPH generation ( Curi et al, 2020 ).…”
Section: Introduction: Nadph Oxidase Roles In Neutrophil Functionsmentioning
confidence: 99%