Directing stem cells and progenitors towards neuronal differentiation - implications for experimental therapies for Parkinson's disease
Abstract
The insight that stem- and progenitor-cells contribute to replacement of nerve cells in the adult
central nervous system is the basis of modern therapies for structural brain repair. Their goal is to
protect, support and stimulate endogenous stem cells in areas affected by disease and to replace
lost cells by transplanting in vitro generated, tailored nerve cells.
In the present thesis growth factors and signaling molecules were investigated for their potential
to direct stem- and neural progenitor- cells towards neuronal cell fate. Involved signaling
pathways were characterized and candidate molecules identified that might be beneficial for cellbased
therapies in Parkinson’s disease.
Results show that Bone Morphogenetic Proteins (BMPs) and Growth Differentiation Factors
increase astroglial differentiation while inhibiting oligodendrocyte maturation in rat embryonic
mesencephalic culture. None of the factors protect dopaminergic neurons against oxidative
radicals in vitro. BMP5, 6 and 7, however, promote dopaminergic differentiation by directly targeting
the neuronal cell population.
In cultures of adult rat hippocampus-derived progenitors (AHPs), endogenous BMPs were
found to increase undesired astroglial differentiation via the BMP type I receptors ALK6 and
ALK2. By viral transduction of dominant negative ALK2 or ALK6, respectively, BMP signaling
was blocked in order to inhibit astroglial cell differentiation. Indeed, the expression of glial fibrillary
acidic protein (GFAP), a marker for astrocytes, decreased. The number of oligodendrocytes
increased and neurons were not affected. However, the strategy proved impractical since it induced
cell death. RT-PCR results indicate that only the ALK6, but not the ALK2 receptor, is dynamically
regulated in these cultures, suggesting that ALK6 is mainly responsible for glial differentiation
and survival of AHPs.
Apoptosis signal-regulating kinase-1 is a ubiquitously expressed enzyme involved in apoptosis.
Overexpression of its constitutively active form induced neuronal differentiation in AHP
culture. At the same time GFAP expression was inhibited. The effect is mediated via p38 mitogen-
activated protein kinase and via inhibition of GFAP promoter activity.
In order to generate transplantable dopaminergic neurons, human embryonic stem cells
(hESCs) were cocultured with the stromal cell line PA6, known to instruct mouse and primate
ESCs towards dopaminergic cell fate. About 11% of hESCs developed into tyrosine hydroxylasepositive
(TH-pos) neurons with CNS identity. The hESC-derived neurons displayed action potential
in vitro. However, they did not induce behavioral recovery after transplantation to the 6-hydroxydopamine
-lesioned rat striatum. Extended differentiation time on PA6 in vitro decreased
the risk for teratoma formation after transplantation, but did not elevate the low number of THpos
neurons in the graft.
In conclusion, certain BMPs as well as ASK1 have been identified as molecules that increase
neuronal differentiation. Their putative role in experimental CNS cell therapies is discussed.
At the moment, however, the gap between experimental systems and biological reality is
difficult to overcome. Further investigations that are necessary to reduce safety concerns in cellbased
treatment strategies are outlined.
Parts of work
I. Brederlau A, Faigle R, Kaplan P, Odin P, Funa K. Bone morphogenetic proteins but not growth differentiation factors induce dopaminergic differentiation in mesencephalic precursors. Mol Cell Neurosci 2002, 21(3):367-378. ::pmid::12498780 II. Brederlau A, Faigle R, Elmi M, Zarebski A, Sjoberg S, Fujii M, Miyazono K, Funa K. The bone morphogenetic protein type Ib receptor is a major mediator of glial differentiation and cell survival in adult hippocampal progenitor cell culture. Mol Biol Cell 2004, 15(8):3863-3875 ::pmid::15194807 III. Faigle R, Brederlau A, Elmi M, Arvidsson Y, Hamazaki TS, Uramoto H, Funa K. ASK1 inhibits astroglial development via p38 mitogen-activated protein kinase and promotes neuronal differentiation in adult hippocampus-derived progenitor cells. Mol Cell Biol 2004, 24(1):280-293 ::pmid::14673162 IV. Brederlau A*, Correia AS*, Anisimov SV, Elmi M, Paul G, Roybon L, Morizane A, Bergquist F, Riebe I, Nannmark U, Carta M, Hanse E, Takahashi J, Sasai Y, Funa K, Brundin P, Eriksson PS, Li JY. Transplantation of human embryonic stem cell-derived cells to a rat model of Parkinson's disease: effect of in vitro differentiation on graft survival and teratoma formation. Stem Cells 2006, 24(6):1433-1440. * joint first authors ::pmid::16556709
Degree
Doctor of Philosophy (Medicine)
University
University of Gothenburg. Sahlgrenska Academy
Institution
Inst of Biomedicine. Dept of Medical Biochemistry and Cell Biology
anke.brederlau@vgregion.se
Date
2008-04-09Author
Brederlau, Anke
Keywords
stem cells
Parkinson's disease
progenitors
BMP
ASK1
dopamine
Publication type
Doctoral thesis
ISBN
978-91-628-7463-6
Language
eng