Abstract
Cathepsin H (CTSH) is a type 1 diabetes (T1D) risk gene; large-scale genetic and epidemiological studies found that T1D genetic risk correlates with high CTSH expression, rapid decline of beta-cell function, and early onset T1D. Counterintuitively, transcriptional downregulation of CTSH by proinflammatory cytokines has been shown to promote beta-cell apoptosis. Here, we potentially explain these observed contrasting effects, describing a new mechanism where proinflammatory cytokines and T1D genetic risk variants regulate CTSH transcription via differential DNA methylation. We show that, in human islets, CTSH downregulation by the proinflammatory cytokine cocktail interleukin 1β + tumor necrosis factor α + interferon γ was coupled with DNA hypermethylation in an open chromatin region in CTSH intron 1. A luciferase assay in human embryonic kidney 293 cells revealed that methylation of three key cytosine–phosphate–guanine dinucleotide (CpG) residues in intron 1 was responsible for the reduction of promoter activity. We further found that cytokine-induced intron 1 hypermethylation is caused by lowered Tet1/3 activities, suggesting that attenuated active demethylation lowered CTSH transcription. Importantly, individuals who carry the T1D risk variant showed lower methylation variability at the intron 1 CpG residues, presumably making them less sensitive to cytokines, whereas individuals who carry the protective variant showed higher methylation variability, presumably making them more sensitive to cytokines and implying differential responses to environment between the two patient populations. These findings suggest that genetic and environmental influences on a T1D locus are mediated by differential variability and mean of DNA methylation.
Highlights
We have previously explored the potential epigenetic involvement in mediating Type 1 diabetes (T1D) risk using causal-inference analyses [6, 7]
Purified pancreatic islets incubated with a cytokine cocktail containing interleukin 1β (IL-1β) + tumor necrosis factor α (TNF-α) + interferon γ (IFN-γ) for 24 h revealed a marked reduction in Cathepsin H (CTSH) mRNA expression levels (p < 0.0001, n = 10) accompanied by upregulation of proinflammatory cytokine signature genes, such as IRF-1 (p = 0.0286, n = 4), ICE (p = 0.0286, n = 4), FAS (p = 0.0286, n = 4), and BBC3 (p = 0.0286, n = 4) (Fig. 1)
We found that upon cytokine exposure, the methylation status of the CTSH promoter (−272 bp to −1 bp upstream of the transcription start site [TSS]) was unchanged, whereas a region in intron 1 containing cytosine–phosphate– guanine dinucleotide (CpG) 21–36 (+371 bp to +807 bp downstream of TSS, the first CpG site downstream of TSS is denoted as CpG1) was hypermethylated with the average methylation increased by 11% to 46% (n = 3, Figs. 2B and S1)
Summary
We have previously explored the potential epigenetic involvement in mediating T1D risk using causal-inference analyses [6, 7]. To test whether these cytokines regulate CTSH transcription by modifying its DNA methylation, we first
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