Intervertebral disc regeneration. Studies on stem cell niches and cell transplantation
Abstract
Abstract
Intervertebral disc regeneration
Studies on stem cell niches and cell transplantation
Helena Barreto Henriksson
Gothenburg 2010
Low back pain is a common condition in the Western world and disc degeneration (DD) is considered a major cause. DD is characterized by dysfunctional cells and decreased matrix production. The aim of this thesis was to explore normal growth and regeneration in the intervertebral disc (IVD). Further, to test possibilities of cell therapy treatment for DDs.
The methods used include in vitro- and in vivo experiments. In vitro methods were: monolayer, 3D cell cultures and explants models with human mesenchymal stem cells (hMSCs), articular chondrocytes and IVD cells. Cells/ tissues were analyzed for cell proliferation markers; BrdU, KI67, migration markers: β1-INTEGRIN, SNAIL-homolog-1 (SNAI1), SNAIL-homolog-2 (SLUG), progenitor/stem cell markers: STRO1, C-KIT, Notch1, CD105 and chondrogenic lineage markers: GDF5 and SOX9, matrix markers: COLLAGEN I and II, glycosaminoglycans, AGGRECAN by biochemical methods, flowcytometry, Real-time PCR and microscopy. Disc appearance was evaluated with MRI.
Results from normal regeneration studies: a potential stem cell niche was identified in the IVD region lateral to the epihyseal plate and in the annulus fibrosus outer region, based on findings of label-retaining cells and presence of cells expressing stem cell/progenitor markers, in young and mature animals. Migrating cells expressing SNAI1, SLUG, β1-integrin and GDF5 and SOX9 around niches were observed. Results from the cell therapy experiments; In vitro analyses; 3D co-culture system of hMSC and IVD cells showed an increased COLLAGEN II production. In vivo: Xenotransplanted cells survived in vivo 6 months (porcine IVDs) and produced matrix in hydrogel/MSCs injected IVDs. Taken together, these findings illustrate a normal slow regeneration of the IVD, and that growth and regeneration is presumably supported by progenitor cells deriving from niches adjacent to the IVD. Further, that human IVD cells and MSCs interact positively on matrix production when co-cultured and the survival of transplanted cells in vivo support the possibility for cell therapy treatment of DD. These results encourage further studies to arrest IVD degeneration, by stimulation of regenerative mechanisms in situ or by cell therapy.
ISBN 978-91-628-8147-4
Parts of work
I. Identification of cell proliferation zones, progenitor cells and a potential stem cell niche in the intervertebral disc region. A study in four species
Henriksson HB, Thornemo M, Karlsson C, Hägg O, Junevik K, Lindahl A, Brisby H. Spine (Phila Pa 1976). 2009 Oct 1;34 (21):2278-87.
::pmid::19755937 II. Migrating prechondrocytic cells from stem cell niches supports growth and regeneration of the mammal intervertebral disc. A study in three species
Henriksson HB, Svala E, Skioldebrand E, Junevik K, Lindahl A, Brisby H. Submitted. III. Human disc cells from degenerated discs and mesenchymal stem cells in co-culture result in increased matrix production
Svanvik T, Henriksson HB, Karlsson C, Hagman M, Lindahl A, Brisby H. Cells Tissues and Organs. 2010; 191(1): 2-11
::pmid::19494482 IV. Transplantation of human mesenchymal stems cells into intervertebral discs in a xenogeneic porcine model
Henriksson HB, Svanvik T, Jonsson M, Hagman M, Horn M, Lindahl A, Brisby H. Spine (Phila Pa 1976). 2009 Jan 15;34 (2):141-8.
::pmid::19112334 V. Investigations of different cell types and gel carriers for cell based intervertebral disc therapy - in vitro and in vivo studies
Henriksson HB, Hagman M, Horn M, Lindahl A and Brisby H.
Submitted.
Degree
Doctor of Philosophy (Medicine)
University
University of Gothenburg. Sahlgrenska Academy
Institution
Institute of Clincial Sciences. Department of Orthopaedics
Disputation
Fredagen den 26 november, kl 9.00, Hjärtats aula, Blå stråket 5
Date of defence
2010-11-26
helena.barreto.henriksson@gu.se
Date
2010-11-08Author
Barreto Henriksson, Helena
Keywords
intervertebral disc
stem cells
degenerative disc
cell transplantation
stem cell niches
disc degeneration
mesenchymal stem cells
cell therapy
Publication type
Doctoral thesis
ISBN
978-91-628-8147-4
Language
eng