Protein Damage Control during Embryonic Stem Cell Differentiation: Role of the Proteasome
Abstract
During the lifespan of organisms ranging from yeast to humans, there is an accumulation of macromolecular damage. However, these organisms produce youthful progeny with low damage levels. This thesis focuses on how this is accomplished.
I have analyzed whether the levels of oxidatively damaged proteins change in mouse embryonic stem (ES) cells during the initial steps of cell specification (differentiation) from the pluripotent state. The results show that ES cells contain high levels of proteins modified by carbonyls and advanced glycation end products and that the identity of these damaged proteins, including chaperones and proteins of the cytoskeleton, are the same as those of aged tissues. However, early differentiation is accompanied by a dramatic drop in the damage of such proteins, both in cultured ES cells and in the blastocyst in vivo. //Text removed from public version// Moreover, the results support a model in which the restoration of low levels of protein damage at the start of each generation is achieved, in part, by a maintained capacity of the germ line to rid itself from such damage. //Text removed from public version//
Parts of work
I. Elimination of damaged proteins during differentiation of embryonic stem cells.
Hernebring M*, Brolén G*, Aguilaniu H, Semb H & Nyström T. (2006) Proc Natl Acad Sci U S A. 103(20): 7700–7705.
* contributed equally to this work ::PMID::16672370 II. Identification of Hsc70 as target for AGE modification in senescent human fibroblasts.
Unterluggauer H, Micutkova L, Lindner H, Sarg B, Hernebring M, Nyström T & Jansen-Dürr P. (2009) Biogerontology. 10(3): 299-309.
::PMID::19009367 III. The proteasome activator PA28 is required for the removal of damaged proteins during differentiation of mouse embryonic stem cells.
Hernebring M, Fredriksson Å, Norrman K, Rivett J, Wiseman J, Semb H & Nyström T. Manuscript. IV. Effects of aging and reproduction on proteostasis in soma and gametes of Drosophila melanogaster.
Fredriksson Å, Krogh-Johansson E, Hernebring M, Pettersson E & Thomas Nyström. Manuscript.
Degree
Doctor of Philosophy
University
Göteborgs universitet. Naturvetenskapliga fakulteten
Institution
Department of Cell and Molecular Biology ; Institutionen för cell- och molekylärbiologi
Disputation
onsdagen den 1 juni 2011 kl. 10.00 i Carl Kylberg, Institutionen för Cell- och Molekylärbiologi, Medicinaregatan 7B, Göteborg
Date of defence
2011-06-01
malin.hernebring@astrazeneca.com
Date
2011-05-11Author
Hernebring, Malin
Keywords
Embryonic Stem Cells
Proteasome
Protein Carbonylation
Advanced Glycation End products
Cell Differentiation
Oxidative stress
Aging
RNAi
Publication type
Doctoral thesis
ISBN
978-91-628-8309-6
Language
eng