Drareg
Member
- Joined
- Feb 18, 2016
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- 4,772
This where things get complex,hypomethylation is also a factor in aging and disease as much as hypermethylation. If this is correct it means you need a balancing act to get things right,certain drugs to target different areas.
I curious if the interpretation is right,I don't currently have this level of comprehension to decipher it,I'm keen on getting Peats view on hypomethylation and aging,it's starting to smell like the reservatrol scenario.
Distinctive patterns of age-dependent hypomethylation in interspersed repetitive sequences
Pornrutsami Jintaridth, Apiwat Mutirangura
Physiological Genomics Published 1 April 2010 Vol. 41 no. 2, 194-200 DOI: 10.1152/physiolgenomics.00146.2009
Abstract
Interspersed repetitive sequences (IRSs) are a major contributor to genome size and may contribute to cellular functions. IRSs are subdivided according to size and functionally related structures into short interspersed elements, long interspersed elements (LINEs), DNA transposons, and LTR-retrotransposons. Many IRSs may produce RNA and regulate genes by a variety of mechanisms. The majority of DNA methylation occurs in IRSs and is believed to suppress IRS activities. Global hypomethylation, or the loss of genome-wide methylation, is a common epigenetic event not only in senescent cells but also in cancer cells. Loss of LINE-1 methylation has been characterized in many cancers. Here, we evaluated the methylation levels of peripheral blood mononuclear cells of LINE-1, Alu, and human endogenous retrovirus K (HERV-K) in 177 samples obtained from volunteers between 20 and 88 yr of age. Age was negatively associated with methylation levels of Alu (r = −0.452, P < 10−3) and HERV-K (r = −0.326, P < 10−3) but not LINE-1 (r = 0.145, P = 0.055). Loss of methylation of Alu occurred during ages 34–68 yr, and loss of methylation of HERV-K occurred during ages 40–63 yr and again during ages 64–83 yr. Interestingly, methylation of Alu and LINE-1 are directly associated, particularly at ages 49 yr and older (r = 0.49, P < 10−3). Therefore, only some types of IRSs lose methylation at certain ages. Moreover, Alu and HERV-K become hypomethylated differently. Finally, there may be several mechanisms of global methylation. However, not all of these mechanisms are age-dependent. This finding may lead to a better understanding of not only the biological causes and consequences of genome-wide hypomethylation but also the role of IRSs in the aging process.
ARTICLES | Physiological Genomics
I curious if the interpretation is right,I don't currently have this level of comprehension to decipher it,I'm keen on getting Peats view on hypomethylation and aging,it's starting to smell like the reservatrol scenario.
Distinctive patterns of age-dependent hypomethylation in interspersed repetitive sequences
Pornrutsami Jintaridth, Apiwat Mutirangura
Physiological Genomics Published 1 April 2010 Vol. 41 no. 2, 194-200 DOI: 10.1152/physiolgenomics.00146.2009
Abstract
Interspersed repetitive sequences (IRSs) are a major contributor to genome size and may contribute to cellular functions. IRSs are subdivided according to size and functionally related structures into short interspersed elements, long interspersed elements (LINEs), DNA transposons, and LTR-retrotransposons. Many IRSs may produce RNA and regulate genes by a variety of mechanisms. The majority of DNA methylation occurs in IRSs and is believed to suppress IRS activities. Global hypomethylation, or the loss of genome-wide methylation, is a common epigenetic event not only in senescent cells but also in cancer cells. Loss of LINE-1 methylation has been characterized in many cancers. Here, we evaluated the methylation levels of peripheral blood mononuclear cells of LINE-1, Alu, and human endogenous retrovirus K (HERV-K) in 177 samples obtained from volunteers between 20 and 88 yr of age. Age was negatively associated with methylation levels of Alu (r = −0.452, P < 10−3) and HERV-K (r = −0.326, P < 10−3) but not LINE-1 (r = 0.145, P = 0.055). Loss of methylation of Alu occurred during ages 34–68 yr, and loss of methylation of HERV-K occurred during ages 40–63 yr and again during ages 64–83 yr. Interestingly, methylation of Alu and LINE-1 are directly associated, particularly at ages 49 yr and older (r = 0.49, P < 10−3). Therefore, only some types of IRSs lose methylation at certain ages. Moreover, Alu and HERV-K become hypomethylated differently. Finally, there may be several mechanisms of global methylation. However, not all of these mechanisms are age-dependent. This finding may lead to a better understanding of not only the biological causes and consequences of genome-wide hypomethylation but also the role of IRSs in the aging process.
ARTICLES | Physiological Genomics