Progressive alopecia reveals decreasing stem cell activation probability during aging of mice with epidermal deletion of DNA methyltransferase 1 (DNMT1)
نویسندگان
چکیده
To examine the roles of epigenetic modulation on hair follicle regeneration, we generated mice with a K14-Cre-mediated loss of DNA methyltransferase 1 (DNMT1). The mutant shows an uneven epidermal thickness and alterations in hair follicle size. When formed, hair follicle architecture and differentiation appear normal. Hair subtypes exist but hair fibers are shorter and thinner. Hair numbers appear normal at birth but gradually decrease to <50% of control in 1-year-old mice. Sections of old mutant skin show follicles in prolonged telogen with hyperplastic sebaceous glands. Anagen follicles in mutants exhibit decreased proliferation and increased apoptosis in matrix transient-amplifying cells. Although K15-positive stem cells in the mutant bulge are comparable in number to the control, their ability to proliferate and become activated to form a hair germ is reduced. As mice age, residual DNMT activity declines further, and the probability of successful anagen reentry decreases, leading to progressive alopecia. Paradoxically, there is increased proliferation in the epidermis, which also shows aberrant differentiation. These results highlight the importance of DNA methylation in maintaining stem cell homeostasis during the development and regeneration of ectodermal organs.
منابع مشابه
Progressive Alopecia Reveals Decreasing Stem Cell Activation Probability during Aging of Mice with Epidermal Deletion of DNA Methyltransferase 1
To examine the roles of epigenetic modulation on hair follicle regeneration, we generated mice with a K14-Cremediated loss of DNA methyltransferase 1 (DNMT1). The mutant shows an uneven epidermal thickness and alterations in hair follicle size. When formed, hair follicle architecture and differentiation appear normal. Hair subtypes exist but hair fibers are shorter and thinner. Hair numbers app...
متن کاملO-11: N-a-acetyltransferase 10 Protein Regulates DNA Methylation and Embryonic Development
Background Genomic imprinting is a heritable and developmentally essential phenomenon by which gene expression occurs in an allele-specific manner1. While the imprinted alleles are primarily silenced by DNA methylation, it remains largely unknown how methylation is targeted to imprinting control region (ICR), also called differentially methylated region (DMR), and maintained. Here we show that ...
متن کاملAging in heterozygous Dnmt1-deficient mice: effects on survival, the DNA methylation genes, and the development of amyloidosis.
We previously reported that heterozygous DNA methyltransferase 1-deficient (Dnmt1(+/-)) mice maintain T-cell immune function and DNA methylation levels with aging, whereas controls develop autoimmunity, immune senescence, and DNA hypomethylation. We therefore compared survival, cause of death, and T-cell DNA methylation gene expression during aging in Dnmt1(+/-) mice and controls. No difference...
متن کاملDNA methylation by DNA methyltransferase 1 is critical for effector CD8 T cell expansion.
Transcriptional silencing mediated by DNA methylation is a critical component of epigenetic regulation during early embryonic development in animals. However, the requirement for DNA methylation during activation and differentiation of mature CD8+ T cells into effector and memory cells is not clear. Using cre-mediated deletion of DNA methyltransferase 1 (Dnmt1) at the time of CD8+ T cell activa...
متن کاملFoxp3+ T-regulatory cells require DNA methyltransferase 1 expression to prevent development of lethal autoimmunity.
Protocols to use Foxp3+ T-regulatory (Treg) cells for cellular therapy, especially postallogeneic stem cell transplantation, are currently being developed and tested by various groups. Inhibitors of DNA methyltransferase (Dnmt) enzymes have been advocated as a means to promote and stabilize Foxp3 expression in Tregs undergoing expansion in vitro before their injection in vivo. We investigated t...
متن کامل