AI Article Synopsis
- The study examines how low oxygen levels (hypoxia) and tumor metabolism influence the polarization of macrophages, specifically promoting their M2 subtype, which is linked to tumor growth and immune evasion.
- Under experimental conditions, hypoxia was found to decrease the extracellular pH more significantly than normoxia, and this was associated with a marked M2 polarization of macrophages when exposed to tumor-conditioned media.
- The research suggests that targeting the hypoxic environment of liver tumors might help to enhance immune responses, with particular metabolites like lactate and 2-amino-butanoic acid being potential therapeutic targets.
Article Abstract
M2-like macrophages promote tumor growth and cancer immune evasion. This study used an in vitro model to investigate how hypoxia and tumor metabolism affect macrophage polarization. Liver cancer cells (HepG2 and VX2) and macrophages (THP1) were cultured under hypoxic (0.1% O) and normoxic (21% O) conditions with varying glucose levels (2 g/L or 4.5 g/L). Viability assays and extracellular pH (pHe) measurements were conducted over 96 hours. Macrophages were exposed to the tumor-conditioned medium (TCM) from the cancer cells, and polarization was assessed using arginase and nitrite assays. GC-MS-based metabolic profiling quantified TCM meta-bolites and correlated them with M2 polarization. The results showed that pHe in TCMs decreased more under hypoxia than normoxia ( < 0.0001), independent of glucose levels. The arginase assay showed hypoxia significantly induced the M2 polarization of macrophages (control group: = 0.0120,VX2-TCM group: = 0.0149, HepG2-TCM group: < 0.0001, VX2-TCM group: = 0.0001, and HepG2-TCM group: < 0.0001). TCMs also induced M2 polarization under normoxic conditions, but the strongest M2 polarization occurred when both tumor cells and macrophages were incubated under hypoxia with high glucose levels. Metabolomics revealed that several metabolites, particularly lactate, were correlated with hypoxia and M2 polarization. Under normoxia, elevated 2-amino-butanoic acid (2A-BA) strongly correlated with M2 polarization. These findings suggest that targeting tumor hypoxia could mitigate immune evasion in liver tumors. Lactate drives acidity in hypoxic tumors, while 2A-BA could be a therapeutic target for overcoming immunosuppression in normoxic conditions.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11352590 | PMC |
| http://dx.doi.org/10.3390/biom14081024 | DOI Listing |
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