Deciphering metabolic crosstalk in context: lessons from inflammatory diseases.
Fenne W M VerheijenThi N M TranJung-Chin ChangFemke BroereEsther A ZaalCelia R BerkersPublished in: Molecular oncology (2024)
Metabolism plays a crucial role in regulating the function of immune cells in both health and disease, with altered metabolism contributing to the pathogenesis of cancer and many inflammatory diseases. The local microenvironment has a profound impact on the metabolism of immune cells. Therefore, immunological and metabolic heterogeneity as well as the spatial organization of cells in tissues should be taken into account when studying immunometabolism. Here, we highlight challenges of investigating metabolic communication. Additionally, we review the capabilities and limitations of current technologies for studying metabolism in inflamed microenvironments, including single-cell omics techniques, flow cytometry-based methods (Met-Flow, single-cell energetic metabolism by profiling translation inhibition (SCENITH)), cytometry by time of flight (CyTOF), cellular indexing of transcriptomes and epitopes by sequencing (CITE-Seq), and mass spectrometry imaging. Considering the importance of metabolism in regulating immune cells in diseased states, we also discuss the applications of metabolomics in clinical research, as well as some hurdles to overcome to implement these techniques in standard clinical practice. Finally, we provide a flowchart to assist scientists in designing effective strategies to unravel immunometabolism in disease-relevant contexts.
Keyphrases
- single cell
- rna seq
- mass spectrometry
- high throughput
- flow cytometry
- oxidative stress
- clinical practice
- healthcare
- public health
- induced apoptosis
- squamous cell carcinoma
- papillary thyroid
- cell proliferation
- signaling pathway
- climate change
- young adults
- gas chromatography
- tandem mass spectrometry
- fluorescence imaging