Protein Phosphorylation in Aging and Age-Related DiseaseEdited by
- M. Mattson, Laboratory of Neurosciences, National Institute on Aging, Gerontology Research Center, Baltimore, MD, USA
It can be argued that ATP is the most important molecule in cells. Not only is ATP the key energy source for cells, but it is also the source of phosphate groups that are transferred to a variety of substrate proteins via the action of elaborate families of protein kinases. An equally elaborate array of protein phosphatases can remove phosphate groups from proteins. It is now well established that protein phosphorylation is a widely used mechanism for cells to selectively modulate the function of a variety of proteins including enzymes, ion channels and pumps and structural proteins.
In this volume of ACAG leading experts describe the evidence that protein phosphorylation is altered in aging and age-related disease. Protein phosphorylation controls fundamental processes such as transcription and translation, regulation of the cell cycle, signalling within and between cells, cell motility, synaptic function and so on. Recent findings are revealing how phosphorylation dependent signalling cascades may control lifespan with a prime example being the insulin-signalling pathway first described in c-elegans and now emerging as an important regulator of lifespan of mammals also. Many of the functional changes that occur during aging such as impaired learning and memory and altered energy metabolism are controlled by protein phosphorylation and it is, therefore, important to understand how mechanisms of protein phosphorylation may either mediate aging or provide adaptive responses that allow successful disease-free aging. The authors in addition to considering the roles of protein phosphorylation in aging describe the evidence that abnormalities in protein phosphorylation contribute to the pathogenesis of major age-related diseases including diabetes, atherosclerosis and neurodegenerative disorders such as Alzheimer's and Parkinson's diseases.
Collectively the articles in this volume of ACAG will provide graduate students, postdocs and established investigators with a better understanding of the roles of protein phosphorylation in aging and age-related disease. This information will be valuable in the formulation of novel approaches for further elucidating mechanisms of aging and disease.
Advances in Cell Aging and Gerontology
Published: February 2004
- 1. Organismal aging and phosphorylation of transcription factors (P.W. Atadja, P.O. Kwon). 2. Phosphorylation of cell cycle proteins at senescence (C. Sandhu). 3. Protein phosphorylation in T-cell signaling: Effect of age (B. Chakravarti, D.N. Chakravarti). 4. Cyclic nucleotide signaling in vascular and cavernous smooth muscle: Aging-related changes (C.-S. Lin, T.F. Lue). 5. Insulin signaling in the aging nervous system (E.M. Rocha, M.L.A. Fernandes, L. Velloso). 6. Age-related changes in synaptic phosphorylation and dephosphorylation (T.C. Foster). 7. Animal models of Tau phoshorylation and Tauopathy: What have they taught us? (L.-F. Lau, J.B. Schachter).