The glia doctrine: Addressing the role of glial cells in healthy brain ageing

Publication date: October 2013 Source:Mechanisms of Ageing and Development, Volume 134, Issue 10 Author(s): Erlend A. Nagelhus , Mahmood Amiry-Moghaddam , Linda H. Bergersen , Jan G. Bjaalie , Jens Eriksson , Vidar Gundersen , Trygve B. Leergaard , J. Preben Morth , Jon Storm-Mathisen , Reidun Torp , Kristine B. Walhovd , Tone Tønjum Glial cells in their plurality pervade the human brain and impact on brain structure and function. A principal component of the emerging glial doctrine is the hypothesis that astrocytes, the most abundant type of glial cells, trigger major molecular processes leading to brain ageing. Astrocyte biology has been examined using molecular, biochemical and structural methods, as well as 3D brain imaging in live animals and humans. Exosomes are extracelluar membrane vesicles that facilitate communication between glia, and have significant potential for biomarker discovery and drug delivery. Polymorphisms in DNA repair genes may indirectly influence the structure and function of membrane proteins expressed in glial cells and predispose specific cell subgroups to degeneration. Physical exercise may reduce or retard age-related brain deterioration by a mechanism involving neuro-glial processes. It is most likely that additional information about the distribution, structure and function of glial cells will yield novel insight into human brain ageing. Systematic studies of glia and their functions are expected to eventually lead to earlier ...
Source: Mechanisms of Ageing and Development - Category: Geriatrics Source Type: research