Background
Exposure to early-life undernutrition is closely related to higher risks of adverse immunologic outcomes in adulthood. Although it has been suggested that asthma has its origins in early life, its underlying mechanisms remain largely unknown.
Conclusion
Early-life undernutrition induced mechanistic target of rapamycin 1-dependent glycolysis upregulation and TH2 cytokine locus hypomethylation in CD4+ T cells, resulting in increased T-cell activation, proliferation, and TH2 skewing and further susceptibility to experimental asthma.
Methods
Pregnant mice were fed a protein restriction diet (PRD) to establish an early-life undernutrition model. Naive CD4+ T cells (CD4+CD62LhiCD44-) from offspring were used throughout the study. TH2 differentiation was examined by using fluorescence-activated cell sorting and ELISA under TH2-polarized conditions in vitro and through ovalbumin-induced experimental asthma in vivo. T-cell metabolism was measured with a Seahorse XF96 Analyzer. DNA methylation levels were measured by using bisulfite sequencing.
Objective
We characterized the effects of early-life undernutrition on T lymphocytes, which play a pivotal role in immune diseases, and we investigated whether this contributes to susceptibility to asthma in adulthood.
Results
PRD CD4+ T cells displayed increased activation and proliferation and were prone to differentiate into TH2 cells both in vitro and in vivo, leading to susceptibility to experimental asthma. Mechanistically, early-life undernutrition upregulated mechanistic target of rapamycin 1-dependent glycolysis and induced conserved noncoding DNA sequence 1 DNA hypomethylation in the TH2 cytokine locus of CD4+ T cells. Glycolysis blockades undermined increased TH2 skewing and alleviated experimental asthma in PRD mice.