Emily R. Watts scite author profile

Cells sense and respond to hypoxia through the activity of the transcription factor HIF (hypoxia-inducible factor) and its regulatory hydroxylases, the prolyl hydroxylase domain enzymes (PHDs). Multiple isoforms of HIFs and PHDs exist, and isoform-selective roles have been identified in the context of the inflammatory environment, which is itself frequently hypoxic. Recent advances in the field have highlighted the complexity of this system, particularly with regards to the cell and context-specific activity of HIFs and PHDs. Because novel therapeutic agents which regulate this pathway are nearing the clinic, understanding the role of HIFs and PHDs in inflammation outcomes is an essential step in avoiding off-target effects and, crucially, in developing new anti-inflammatory strategies. Hypoxia, HIF, and InflammationCellular responses to hypoxia are essential for life and are now recognized to be dysregulated in a wide range of disease processes. The key players in these pathways are a family of transcription factors, the hypoxia-inducible factors (HIFs; see Glossary), as well as their regulatory proteins, the prolyl hydroxylase domain enzymes (PHDs) and factor inhibiting HIF (FIH, also known as HIF1a subunit inhibitor, HIF1AN) (Figure 1).

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Neutrophils Fuel Effective Immune Responses through Gluconeogenesis and Glycogenesis

Sadiku

et al. 2021

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Summary Neutrophils can function and survive in injured and infected tissues, where oxygen and metabolic substrates are limited. Using radioactive flux assays and LC-MS tracing with U- 13 C glucose, glutamine, and pyruvate, we observe that neutrophils require the generation of intracellular glycogen stores by gluconeogenesis and glycogenesis for effective survival and bacterial killing. These metabolic adaptations are dynamic, with net increases in glycogen stores observed following LPS challenge or altitude-induced hypoxia. Neutrophils from patients with chronic obstructive pulmonary disease have reduced glycogen cycling, resulting in impaired function. Metabolic specialization of neutrophils may therefore underpin disease pathology and allow selective therapeutic targeting.

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Emily R. Watts

Inflammation and Hypoxia: HIF and PHD Isoform Selectivity

Neutrophils Fuel Effective Immune Responses through Gluconeogenesis and Glycogenesis

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