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1.
Science ; 371(6525): 145-153, 2021 01 08.
Article in English | MEDLINE | ID: mdl-33414215

ABSTRACT

The ability to control autoreactive T cells without inducing systemic immune suppression is the major goal for treatment of autoimmune diseases. The key challenge is the safe and efficient delivery of pharmaceutically well-defined antigens in a noninflammatory context. Here, we show that systemic delivery of nanoparticle-formulated 1 methylpseudouridine-modified messenger RNA (m1Ψ mRNA) coding for disease-related autoantigens results in antigen presentation on splenic CD11c+ antigen-presenting cells in the absence of costimulatory signals. In several mouse models of multiple sclerosis, the disease is suppressed by treatment with such m1Ψ mRNA. The treatment effect is associated with a reduction of effector T cells and the development of regulatory T cell (Treg cell) populations. Notably, these Treg cells execute strong bystander immunosuppression and thus improve disease induced by cognate and noncognate autoantigens.


Subject(s)
Bystander Effect/immunology , Encephalomyelitis, Autoimmune, Experimental/therapy , Immunosuppression Therapy/methods , Multiple Sclerosis/therapy , Vaccines, Synthetic/therapeutic use , Animals , Antigen-Presenting Cells , Autoantigens/genetics , Inflammation/immunology , Mice , Mice, Inbred C57BL , Pseudouridine/analogs & derivatives , Pseudouridine/chemistry , RNA, Messenger/adverse effects , RNA, Messenger/chemistry , RNA, Messenger/genetics , T-Lymphocytes, Regulatory/immunology , Vaccines, Synthetic/adverse effects , mRNA Vaccines
2.
Nucleic Acids Res ; 45(10): 5770-5784, 2017 Jun 02.
Article in English | MEDLINE | ID: mdl-28334816

ABSTRACT

Epigenetic mechanisms, including chromatin structure, chromatin dynamics and histone modifications play an important role for maintenance and differentiation of pluripotent embryonic stem cells. However, little is known about the molecular mechanisms of adult stem cell specification and differentiation. Here, we used intestinal stem cells (ISCs) as a model system to reveal the epigenetic changes coordinating gene expression programs during these processes. We found that two distinct epigenetic mechanisms participate in establishing the transcriptional program promoting ISC specification from embryonic progenitors. A large number of adult ISC signature genes are targets of repressive DNA methylation in embryonic intestinal epithelial progenitors. On the other hand, genes essential for embryonic development acquire H3K27me3 and are silenced during ISC specification. We also show that the repression of ISC signature genes as well as the activation of enterocyte specific genes is accompanied by a global loss of H2A.Z during ISCs differentiation. Our results reveal that, already during ISC specification, an extensive remodeling of chromatin both at promoters and distal regulatory elements organizes transcriptional landscapes operating in differentiated enterocytes, thus explaining similar chromatin modification patterns in the adult gut epithelium.


Subject(s)
Adult Stem Cells/metabolism , Chromatin/chemistry , Embryonic Stem Cells/metabolism , Enterocytes/metabolism , Gene Silencing , Intestinal Mucosa/metabolism , Adult Stem Cells/cytology , Animals , Cell Differentiation , Cell Lineage , Chromatin/metabolism , Chromatin Assembly and Disassembly , DNA Methylation , Embryo, Mammalian , Embryonic Stem Cells/cytology , Enterocytes/cytology , Histones/genetics , Histones/metabolism , Intestines/cytology , Male , Mice , Mice, Transgenic , Transcription, Genetic
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