DOI Kapitel:
III. Förderung des wissenschaftlichen Nachwuchses
DOI Kapitel:B. Das WIN-Kolleg
DOI Kapitel:3. Forschungsschwerpunkt "Der menschliche Lebenszyklus - biologische, gesellschaftliche, kulturelle Aspekte"
DOI Seite / Zitierlink: https://doi.org/10.11588/diglit.66333#0273
Das WIN-Kolleg
289
Referenzen
(1) Ho AD, Wagner W, Mahlknecht U. Stern cells and ageing.The potential of stem
cells to overcome age-related deteriorations of the body in regenerative medi-
cine. EMBO Rep. 2005;6:35-38.
(2) Ho AD, Wagner W, Eckstein V. Was ist Alter? Ein Mensch ist so alt wie seine
Stammzellen. Tagungsband der HAW 2007.
(3) Carmel R. Anemia and aging: an overview of clinical, diagnostic and biological
issues. Blood Rev. 2001;15:9-18.
(4) Gomez GR, Boehmer ED, Kovacs EJ. The aging innate immune System. Gurr
Opin Immunol. 2005;17:457-462.
(5) Rossi DJ, Bryder D, Zahn JM et al. Gell intrinsic alterations underlie hemato-
poietic stem cell aging. Proc Natl Acad Sei USA. 2005;102:9194-9199.
(6) Prockop DJ. Marrow stromal cells as stem cells for nonhematopoietic tissues.
Science. 1997;276:71-74.
(7) Prockop DJ, Gregory CA, Spees JL. One strategy for cell and gene therapy:
harnessing the power of adult stem cells to repair tissues. Proc Natl Acad Sei U
S A. 2003;100 Suppl 1:11917-11923.
(8) Horn P, Bork S, Diehlmann A et al. Isolation of human mesenchymal stromal
cells is more efficient by red blood cell lysis. Cytotherapy. 2008;10:676-685.
(9) Hayflick L. Biological aging is no longer an unsolved problem. Ann NY Acad
Sei. 2007;1100:1-13.
(10) Wagner W, Horn P, Castoldi M et al. Replicative Senescence of Mesenchymal
Stem Cells - a Continuous and Organized Process. PLoS ONE. 2008;5:e2213.
(11) Wagner W, Bork S, Horn P et al. Aging and replicative senescence have related
effects on human stem and progenitor cells. PLoS ONE. 2009;4:e5846.
(12) Bork S, Pfister S,Witt H et al. DNA methylation pattern changes upon long-
term culture and aging of human mesenchymal stromal cells. Aging Cell. 2010;
9 (1): 54-63.
(13) Marciniak-Czochra A, Stiehl T, Ho AD, Jager W, Wagner W. Modeling of asym-
metric cell division in hematopoietic stem cells-regulation of self-renewal is
essential for efficient repopulation. Stem Cells Dev. 2009;18:377-385.
(14) Ho AD, Wagner W. The beauty of asymmetry - asymmetric divisions and self-
renewal in the hematopoietic System. Current Opinion in Hematology.
2007;14:330-336.
(15) Marciniak-Czochra A. Mathematical Models of Stem Cells Renewal and Dif-
ferentiation. Oberwolfach Reports, 2. 2009.
(16) Klaus J, Herrmann D, Breitkreutz I et al. Effect of CD34 cell dose on hemato-
poietic reconstitution and outcome in 508 patients with multiple myeloma
undergoing autologous peripheral blood stem cell transplantation. Eur J Hae-
matol. 2007;78:21-28.
(17) Marciniak-Czochra A, StiehlT, Wagner W. Modeling of Replicative Senescence
in Hematopoietic Development. AGING. 2009;1:723-732.
289
Referenzen
(1) Ho AD, Wagner W, Mahlknecht U. Stern cells and ageing.The potential of stem
cells to overcome age-related deteriorations of the body in regenerative medi-
cine. EMBO Rep. 2005;6:35-38.
(2) Ho AD, Wagner W, Eckstein V. Was ist Alter? Ein Mensch ist so alt wie seine
Stammzellen. Tagungsband der HAW 2007.
(3) Carmel R. Anemia and aging: an overview of clinical, diagnostic and biological
issues. Blood Rev. 2001;15:9-18.
(4) Gomez GR, Boehmer ED, Kovacs EJ. The aging innate immune System. Gurr
Opin Immunol. 2005;17:457-462.
(5) Rossi DJ, Bryder D, Zahn JM et al. Gell intrinsic alterations underlie hemato-
poietic stem cell aging. Proc Natl Acad Sei USA. 2005;102:9194-9199.
(6) Prockop DJ. Marrow stromal cells as stem cells for nonhematopoietic tissues.
Science. 1997;276:71-74.
(7) Prockop DJ, Gregory CA, Spees JL. One strategy for cell and gene therapy:
harnessing the power of adult stem cells to repair tissues. Proc Natl Acad Sei U
S A. 2003;100 Suppl 1:11917-11923.
(8) Horn P, Bork S, Diehlmann A et al. Isolation of human mesenchymal stromal
cells is more efficient by red blood cell lysis. Cytotherapy. 2008;10:676-685.
(9) Hayflick L. Biological aging is no longer an unsolved problem. Ann NY Acad
Sei. 2007;1100:1-13.
(10) Wagner W, Horn P, Castoldi M et al. Replicative Senescence of Mesenchymal
Stem Cells - a Continuous and Organized Process. PLoS ONE. 2008;5:e2213.
(11) Wagner W, Bork S, Horn P et al. Aging and replicative senescence have related
effects on human stem and progenitor cells. PLoS ONE. 2009;4:e5846.
(12) Bork S, Pfister S,Witt H et al. DNA methylation pattern changes upon long-
term culture and aging of human mesenchymal stromal cells. Aging Cell. 2010;
9 (1): 54-63.
(13) Marciniak-Czochra A, Stiehl T, Ho AD, Jager W, Wagner W. Modeling of asym-
metric cell division in hematopoietic stem cells-regulation of self-renewal is
essential for efficient repopulation. Stem Cells Dev. 2009;18:377-385.
(14) Ho AD, Wagner W. The beauty of asymmetry - asymmetric divisions and self-
renewal in the hematopoietic System. Current Opinion in Hematology.
2007;14:330-336.
(15) Marciniak-Czochra A. Mathematical Models of Stem Cells Renewal and Dif-
ferentiation. Oberwolfach Reports, 2. 2009.
(16) Klaus J, Herrmann D, Breitkreutz I et al. Effect of CD34 cell dose on hemato-
poietic reconstitution and outcome in 508 patients with multiple myeloma
undergoing autologous peripheral blood stem cell transplantation. Eur J Hae-
matol. 2007;78:21-28.
(17) Marciniak-Czochra A, StiehlT, Wagner W. Modeling of Replicative Senescence
in Hematopoietic Development. AGING. 2009;1:723-732.