Epigenetic regulation of mitochondrial function in neurodegenerative disease: New insights from advances in genomic technologies.

The field of mitochondrial epigenetics has received increased attention in recent years and changes in mitochondrial DNA (mtDNA) methylation has been implicated in a number of diseases, including neurodegenerative diseases such as amyotrophic lateral sclerosis. However, current publications have been limited by the use of global or targeted methods of measuring DNA methylation. In this review, we discuss current findings in mitochondrial epigenetics as well as its potential role as a regulator of mitochondria within the brain. Finally, we summarize the current technologies best suited to capturing mtDNA methylation, and how a move towards whole epigenome sequencing of mtDNA may help to advance our current understanding of the field.RD&E staff can access the full-text of this article via OpenAthens. Click on the 'Additional Link' above to access the full-text and log in with NHS OpenAthens if prompted.R01 AG036039/AG/NIA NIH HHS/United State

Vitamin C induces Tet-dependent DNA demethylation and a blastocyst-like state in ES cells

DNA methylation is a heritable epigenetic modification involved in gene silencing, imprinting, and the suppression of retrotransposons. Global DNA demethylation occurs in the early embryo and the germ line, and may be mediated by Tet (ten eleven transloca

DNA methylation protects hematopoietic stem cell multipotency from myeloerythroid restriction.

DNA methylation is a dynamic epigenetic mark that undergoes extensive changes during differentiation of self-renewing stem cells. However, whether these changes are the cause or consequence of stem cell fate remains unknown. Here, we show that alternative functional programs of hematopoietic stem cells (HSCs) are governed by gradual differences in methylation levels. Constitutive methylation is essential for HSC self-renewal but dispensable for homing, cell cycle control and suppression of apoptosis. Notably, HSCs from mice with reduced DNA methyltransferase 1 activity cannot suppress key myeloerythroid regulators and thus can differentiate into myeloerythroid, but not lymphoid, progeny. A similar methylation dosage effect controls stem cell function in leukemia. These data identify DNA methylation as an essential epigenetic mechanism to protect stem cells from premature activation of predominant differentiation programs and suggest that methylation dynamics determine stem cell functions in tissue homeostasis and cancer

Capital Asset Pricing and Real Estate Valuation

This paper examines the Capital Asset Pricing Model with respect to its implications for real estate investment analysis and appraisal. The derivation of the CAPM, and theoretical problems with it, are discussed, along with its empirical validation. The similarities and differences between real estate and securities markets are evaluated. Alternative models to the CAPM are presented, followed by the conclusions. Copyright American Real Estate and Urban Economics Association.