# A40 THE ROLE OF HYPOXIA-INDUCIBLE FACTOR IN CELLULAR METABOLIC ADAPTATION UPON GIARDIA INFECTION

**Authors:** E R DeMichele, O Sosnowski, T Allain, A G Buret

PMC · DOI: 10.1093/jcag/gwad061.040 · Journal of the Canadian Association of Gastroenterology · 2024-02-14

## TL;DR

Giardia infection activates hypoxia-related genes and alters cell metabolism, mimicking low-oxygen conditions in intestinal cells.

## Contribution

This study reveals that Giardia infection induces a hypoxia-like response in intestinal cells, involving HIF-dependent metabolic changes.

## Key findings

- Giardia-infected cells upregulate HIF-target genes like VEGFA and HK2 under normoxic conditions.
- Hypoxia mimetic DMOG alters glycolytic intermediates, confirming HIF's role in promoting glycolytic flux.
- Giardia infection induces HIF-dependent changes in amino acid and nucleic acid metabolism.

## Abstract

Recent findings have highlighted the integral role of oxygen tension in gastrointestinal (GI) homeostasis. During hypoxia when oxygen supply is limited, mammalian cells utilize the Hypoxia-Inducible Factor (HIF) complex to activate genes that promote cell survival and alter glucose metabolism. The GI system exists in a state of physiologic hypoxia, subject to further alterations by pathogens. Although tissue and blood parasites are known to influence tissue oxygen tension, little is known regarding the modulation of hypoxia and HIF by enteric parasites.

This project aims to characterize the effect of Giardia duodenalis, a common enteric protozoan that perturbs gastrointestinal function leading to diarrheal disease, on the cellular hypoxic response. We hypothesize that hypoxia-associated genes are activated upon Giardia infection, leading to an adaptive metabolic response with increased glycolytic flux to maintain cellular bioenergetic homeostasis.

Caco-2 colonic epithelial cells were infected with Giardia isolate GS/M (MOI 10) for 1.5 or 4.5 hours to capture early and peak HIF activation, under normoxic (21% O2) or hypoxic (1%O2, STEMCELL hypoxia incubator) conditions. RNA was extracted for RT-qPCR to assess transcriptional changes of known HIF-target genes. Intracellular metabolite analysis via liquid-chromatography mass-spectrometry (hydrophilic-interaction chromatography method) was performed to assess HIF-mediated metabolic changes in uninfected and Giardia-infected cells (MOI 10) exposed to the hypoxia mimetic DMOG or the HIF inhibitor PX-478.

Under normoxic conditions, genes associated with compensatory cellular stress responses such as VEGFA, ANKRD37, GADD45A, and glycolysis-associated genes HK2, and LDHA are upregulated in Giardia-infected cells in a time-dependent manner (pampersand:003C0.05). Under hypoxic conditions, fewer HIF-target genes are upregulated (e.g., VEGFA, GADD45A, PGK1; pampersand:003C0.05), suggesting Giardia-infected cells behave similarly to uninfected cells with constant HIF activation. Analysis of the Caco-2 intracellular metabolome indicates HIF-dependent changes in amino acid (e.g., glycine, threonine) and nucleic acid (e.g., guanosine, inosine, uracil) metabolism. DMOG treatment altered the production of glycolytic intermediates (e.g., DHAP, PEP), confirming the promotion of glycolytic flux by HIF.

Both cell-stress-related and glucose-metabolism HIF target genes are activated upon Giardia infection. As well, some metabolic changes are dependent on HIF activation. These novel findings indicate Giardia promotes a hypoxic state in human intestinal cells, highlighting a metabolic cell rescue mechanism in response to enteropathogens. Furthermore, understanding the role of hypoxia in enteric parasitic infections will shed light on the potential of HIF as a therapeutic target.

Natural Sciences and Engineering Research Council of Canada (NSERC)

## Linked entities

- **Genes:** VEGFA (vascular endothelial growth factor A) [NCBI Gene 7422], ANKRD37 (ankyrin repeat domain 37) [NCBI Gene 353322], GADD45A (growth arrest and DNA damage inducible alpha) [NCBI Gene 1647], HK2 (hexokinase 2) [NCBI Gene 3099], LDHA (lactate dehydrogenase A) [NCBI Gene 3939], PGK1 (phosphoglycerate kinase 1) [NCBI Gene 5230]
- **Chemicals:** DMOG (PubChem CID 560326), PX-478 (PubChem CID 11234794)
- **Diseases:** diarrheal disease (MONDO:0001673)
- **Species:** Giardia duodenalis (taxon 5741)

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Source: https://tomesphere.com/paper/PMC10871971