BACKGROUND: Epigenetic changes in DNA methylation have recently been demonstrated to be involved in effector T-cell polarization, resulting in differential secretion of T(H)1 and T(H)2 cytokines. However, the contribution to the development of a chronic inflammatory phenotype remains still unclear. OBJECTIVE: We sought to investigate changes in DNA methylation in marker genes of T-cell subsets during allergen sensitization/challenge and their influence on the development of an allergic airway inflammatory response. METHODS: The relationship between changes in DNA methylation and phenotype development were examined in a well-established model of experimental asthma. DNA methylation was investigated at genomic loci associated with T(H)1 (IFNG promoter) or T(H)2 (conserved noncoding sequence 1 [CNS1]) cytokine production by using bisulfite pyrosequencing. RESULTS: Analysis of CD4(+) T cells revealed a significant increase in DNA methylation at the IFNG promoter after allergen sensitization/challenge, which correlated with decreased IFN-γ cytokine expression, whereas only minor changes were observed at the CNS1 locus. Furthermore, the increase in DNA methylation at the IFNG promoter could be reversed with a DNA methyltransferase (DNMT) inhibitor in vitro and in vivo with beneficial effects on sensitization status and allergic phenotype. The specific importance of the DNA methylation status in CD4(+) T cells could be confirmed by using adoptive transfer experiments. CONCLUSION: We here report the novel finding that epigenetic regulation in T cells contributes to the development of experimental asthma and can be targeted pharmacologically.
BACKGROUND: Epigenetic changes in DNA methylation have recently been demonstrated to be involved in effector T-cell polarization, resulting in differential secretion of T(H)1 and T(H)2 cytokines. However, the contribution to the development of a chronic inflammatory phenotype remains still unclear. OBJECTIVE: We sought to investigate changes in DNA methylation in marker genes of T-cell subsets during allergen sensitization/challenge and their influence on the development of an allergic airway inflammatory response. METHODS: The relationship between changes in DNA methylation and phenotype development were examined in a well-established model of experimental asthma. DNA methylation was investigated at genomic loci associated with T(H)1 (IFNG promoter) or T(H)2 (conserved noncoding sequence 1 [CNS1]) cytokine production by using bisulfite pyrosequencing. RESULTS: Analysis of CD4(+) T cells revealed a significant increase in DNA methylation at the IFNG promoter after allergen sensitization/challenge, which correlated with decreased IFN-γ cytokine expression, whereas only minor changes were observed at the CNS1 locus. Furthermore, the increase in DNA methylation at the IFNG promoter could be reversed with a DNA methyltransferase (DNMT) inhibitor in vitro and in vivo with beneficial effects on sensitization status and allergic phenotype. The specific importance of the DNA methylation status in CD4(+) T cells could be confirmed by using adoptive transfer experiments. CONCLUSION: We here report the novel finding that epigenetic regulation in T cells contributes to the development of experimental asthma and can be targeted pharmacologically.
Authors: Hari K Somineni; Xue Zhang; Jocelyn M Biagini Myers; Melinda Butsch Kovacic; Ashley Ulm; Noelle Jurcak; Patrick H Ryan; Gurjit K Khurana Hershey; Hong Ji Journal: J Allergy Clin Immunol Date: 2015-12-10 Impact factor: 10.793
Authors: Joshua Blatter; Yueh-Ying Han; Erick Forno; John Brehm; Lisa Bodnar; Juan C Celedón Journal: Am J Respir Crit Care Med Date: 2013-07-01 Impact factor: 21.405
Authors: Lakshitha P Gunawardhana; Peter G Gibson; Jodie L Simpson; Miles C Benton; Rodney A Lea; Katherine J Baines Journal: Epigenetics Date: 2014-08-11 Impact factor: 4.528
Authors: Robert Ys Cheng; Yan Shang; Nathachit Limjunyawong; Tyna Dao; Sandhya Das; Richard Rabold; James Sk Sham; Wayne Mitzner; Wan-Yee Tang Journal: Environ Mol Mutagen Date: 2014-01-21 Impact factor: 3.216
Authors: Yan Shang; Sandhya Das; Richard Rabold; James S K Sham; Wayne Mitzner; Wan-yee Tang Journal: Am J Respir Cell Mol Biol Date: 2013-08 Impact factor: 6.914