ABSTRACT: Aging is the result of an accumulation of molecular damages, driven by multiple factors like metabolic and oxidative stress, (epi)genetic alterations, and microbiome dysbiosis. In addition, aging is characterized by a chronic, low-grade inflammation known as inflammaging that represents a high significant risk factor for most, if not all, age-related diseases. Dietary restriction (DR) is the best-known non-invasive method to ameliorate the aging phenotype in many organisms. While it has been shown that DR reduces the inflammation in some tissues, the molecular mechanisms in old individuals are still largely unknown. Here we identify a multi-tissue gene network which regulates the inflammaging and that is ameliorated by DR. Using transcriptional profiling (RNA-seq), we found that aging upregulates the innate immune system receptor together with the activation of a systemic interferon (IFN) signaling through the Interferon Regulatory Factors (Irf), inflammatory cytokines and finally Stat1 transcription factor. Our results suggest that DR is able to ameliorate inflammaging by downregulating the expression and the activity of almost all the components of this gene network. In addition, chromatin accessibility genome-wide analysis showed that the binding site of Irf and Stat1 in the promoter of their target genes are more open in aging and become closer upon DR treatment indicating a transcriptional control of the inflammaging phenotype involving epigenetic modifications. Our results provide a comprehensive understanding of the molecular network regulating the inflammation in aging and DR and present novel anti-inflammaging therapeutic targets.