Jorgo Lika scite author profile

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-dominant metabolism to a unique metabolic mode termed ‘pentose cycle’, where all glucose-6-phosphate is diverted into oxidative pentose phosphate pathway and net flux through upper glycolysis is reversed to allow substantial recycling of pentose phosphates. This reconfiguration maximizes NADPH yield to fuel superoxide production via NADPH oxidase. Disruptions of pentose cycle greatly suppress oxidative burst, the release of neutrophil extracellular traps and pathogen killing by neutrophils. Together, these results demonstrate the remarkable metabolic flexibility of neutrophils, which is essential for their functions as the first responders in innate immunity.

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A methionine-Mettl3-N-methyladenosine axis promotes polycystic kidney disease

Ramalingam

Kashyap

Cobo-Stark

et al. 2021

Cell Metabolism

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Metalloproteinase PAPP-A regulation of IGF-1 contributes to polycystic kidney disease pathogenesis

Kashyap¹,

Hein²,

Chini³

et al. 2020

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Jorgo Lika

Switching to the cyclic pentose phosphate pathway powers the oxidative burst in activated neutrophils

A methionine-Mettl3-N-methyladenosine axis promotes polycystic kidney disease

Metalloproteinase PAPP-A regulation of IGF-1 contributes to polycystic kidney disease pathogenesis

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