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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Investigation of Early Events of Epimorphic Regeneration in a Comparative 3D in vitro Model

January 2018 (has links)
acase@tulane.edu / The ability of humans to regenerate complex tissue structures after amputation is not completely absent. Clinical reports have described random spontaneous cases of digit tip regeneration in young adults. Regeneration of a structure such as a limb or a digit requires tight orchestration of environmental cues and cells that come together and coordinate the regeneration of the missing body part. Studies on animal models have been crucial to have a better understanding on relevant components and mechanisms that are involved in epimorphic regeneration. Mechanistic studies however, are difficult to perform due to the lack of spatial and temporal control of microenvironmental factors. The overall approach of this proposal is to develop a blastema-like in vitro model to conduct comparative studies between connective tissue cells from regeneration-competent (P3) and incompetent (P2) regions of the mouse digit tip, and to control the cellular microenvironment to modulate P2 cells regeneration-incompetent behavior. A 3D spheroid culture model was identified to serve as a 3D biomimetic blastema model that preserves the inherent regenerative properties of regeneration-incompetent and regeneration-competent phenotypes. Relevant factors associated with either wound healing or a regenerative response, were evaluated in both P2 and P3 cells cultured as spheroids. It was found that the expression of wound healing markers, particularly known to be involved in scar tissue formation, were significantly higher in P2 spheroids. Conversely, the expression of markers indicative of a regeneration-permissive microenvironment was significantly higher in P3 spheroids. We evaluated the effects of oxygen modulation in P2 during 2D expansion and/or during 3D spheroid culture and found that preconditioning of P2 cells in 2D increases P2 cell number and promotes spontaneous aggregation. We also found that modulation of oxygen concentration during 3D culture significantly decreases expression of both, wound healing and regenerative markers. This physiologically relevant in vitro model provides a platform to characterize cellular processes involved in the wound healing and regenerative responses. Additionally, it allows for the incorporation of environmental cues, such as oxygen concentration, to better understand the key target mechanisms to shift the default wound response from scar formation to epimorphic regeneration. / 1 / Lina M. Quijano

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