Project description:Plasma DNA profile in DNASE1L3 deficiency-Mouse AAV

Project description:Plasma DNA profile in DNASE1L3 deficiency

Project description:The dataset contains sequencing data in wildtype, Dnase1-deficient and Dnase1l3-deficient mice. We performed 2 x 75bp paired-end whole genome bisulfite sequencing of pooled plasma cell-free DNA (cfDNA) and buffy coat genomic DNA. The effects of DNASE1L3 or DNASE1 deficiency on cfDNA methylation was explored in plasma of mice deficient in these nucleases.

Project description:This study investigates the impact of DNASE1L3 deficiency on hepatic immune–metabolic homeostasis using TMT-based quantitative proteomics. Liver tissues from 8-week-old wild-type (WT) and DNASE1L3 knockout (KO) mice were analyzed by LC-MS/MS. Differential protein expression and pathway enrichment analyses revealed alterations in lipid metabolism, oxidative stress, Kupffer cell polarization, and ferroptosis, supporting a role for DNASE1L3 in regulating hepatic immune–metabolic stability.

Project description:We showed that mice in which Dnase1l3 had been deleted showed aberrations in the fragmentation of plasma DNA. We also observed a change in the ranked frequencies of end motifs of plasma DNA caused by the Dnase1l3 deletion.

Project description:Plasma DNA profile in DNASE1L3 deficiency

Project description:T-cell independent type II (TI-II) antigens, such as capsular polysaccharides, have multivalent epitope, which induce B cell activation, plasma cell differentiation and antibody production by strongly cross-linking B cell receptors. However, the mechanism of B cell activation by TI-II antigens remains unclear. In this study, we demonstrate that DNA endonuclease DNase1L3 (also termed DNase g) is required for the TI-II response. The production of antigen-specific antibodies was severely diminished in DNase1L3-deficient mice upon immunization with TI-II antigens, but not with TD antigens. Bone-marrow chimeric mice and B cell transfer experiments revealed that B-cell-intrinsic DNase1L3 was required for the TI-II response. DNase1L3-deficient B cells were defective in cell proliferation and plasma cell differentiation in the TI-II response in vivo as well as in vitro, which was not rescued by co-culture with DNase1L3-sufficient B cells in vitro, disproving an involvement of a secretory DNase1L3. In vitro stimulation with TI-II antigen transiently increased expression of DNase1L3 and its translocation into the nucleus. RNA-seq analysis of ex-vivo B cells having been responded to TI-II antigen in vivo revealed a marked reduction of Myc-target gene sets in DNase1L3-deficient B cells. Expression of IRF4, the gene of which is a target of Myc, was diminished in the ex-vivo DNase1L3-deficient B cells, in which forced expression of IRF4 restored the TI-II response in vivo. These data revealed an unexpected role of DNase1L3 in a missing link between B cell receptor signaling and B cell activation in the TI-II response, giving a valuable clue to molecularly dissect this response.

Project description:<p>This study investigates the role of DNASE1L3 deficiency in hepatic immune and metabolic regulation. Using transcriptomics, proteomics, and metabolomics, we characterize changes in Kupffer cell polarization, ER stress, iron metabolism, and ferroptosis in DNASE1L3 knockout mice.'</p>

Project description:The dataset contains 2x75bp paired-end sequencing data in DNASE1L3-deficient human subjects. We performed bisulfite sequencing of plasma samples from three DNASE1L3-deficient subjects and one heterozygous parent to investigate how nuclease deficiencies alter plasma cell-free DNA methylation profiles.

Project description: Not available