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Extrinsic Substrate Stiffness Regulates Chondrocyte Phenotype through Actin Remodeling and MRTF Mechanotransduction PathwayNabavi Niaki, Mortah 03 July 2014 (has links)
To obtain a cell source for cartilage tissue engineering primary cells are passaged on polystyrene dishes to increase cell number however, this stiff environment results in dedifferentiation. This study evaluates the role of microenvironment stiffness on regulation of passaged chondrocyte phenotype. Results show passaged cells on soft polyacrylamide gels (0.5kPa) become round, less proliferative, less contractile, have higher levels of globular actin (g-actin) compared to filamentous actin (f-actin), MRTF localization in the cytoplasm and down-regulation of MRTF associated genes such as type I collagen, alpha-smooth muscle actin, transgelin, tenascin C and vinculin. This suggests that the chondrogenic phenotype during passaging is regulated by actin polymerization and activation of MRTF signaling that induces expression of non-chondrogenic genes, and has functional effects as the cells become proliferative and contractile. Modulating substrate stiffness maybe a way to influence aspects of the chondrogenic phenotype in order to obtain sufficient cells suitable for cartilage tissue engineering.
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The role of beige fat in combating obesityStibolt Jr., Robert Davis 03 November 2015 (has links)
As obesity and obesity-associated diseases become more prevalent in western societies, new methods to promote weight-loss and protect patients from the dangerous consequences of excess adipose tissue are needed. While both researchers and clinicians previously turned to chemical uncouplers for many decades to create a negative energy balance and thus promote weight-loss, these compounds proved to be extremely dangerous treatment options, even when taken in mild dosages. Substances like 2-4 dinitrophenol (DNP), were able to significantly induce weight loss, however many life-threatening conditions such as fatal hyperthermia are commonly attributed to these uncoupling agents. Recently, with the discovery of natural brown/beige fat reservoirs in humans, many members of the medical community have become heavily invested in the targeting of more localized, less systemic uncoupling tissues. The action of UCP-1 in human thermogenic adipose introduces an opportunity to harness a natural, yet futile cycle, and hence boost a patient’s basal metabolism without ultimately compromising their long-term health. Many challenges remain before such a treatment is viable, including deciphering the biochemical pathways that induce brown fat thermogenesis. It appears that several uncoupling signals may govern the genetic programs that lead to this thermogenic activity, and the "browning" of white adipose stores in humans. Particularly in the last ten years, many studies have uncovered new components of the thermogenic program by ablating target genes in mice. While a direct pathway of thermogenic activation does exist when subjects are placed in a cold environment, a successful, high-adoption, anti-obesity treatment through a thermogenic regimen will likely involve a gene-therapy or protein-based biopharmaceutical intervention. It is conceivable that thermogenic manipulation could play a significant role in the battle against obesity and obesity-associated diseases, however a significant intellectual breakthrough in appetite suppression and/or appetite management (i.e. a successful intervention of the orexigenic and anorexigenic physiological pathways) could in theory supplant this approach.
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ROLE OF MYOCARDIN RELATED TRANSCRIPTION FACTOR-A IN TRANSCRIPTION GROWTH FACTOR BETA-INDUCED EPITHELIAL TO MESENCHYMAL TRANSITION OF LENS EPITHELIAL CELLS / ROLE OF MRTF-A IN EPITHELIAL TO MESENCHYMAL TRANSITION IN THE LENSGupta, Madhuja 06 1900 (has links)
Transcription growth factor beta (TGFβ) mediated epithelial to mesenchymal transition (EMT) of lens epithelial cells (LEC) is known to cause posterior capsular opacification (PCO). In this work, I have focused on the TGFβ-induced EMT pathway governed by the cellular actin cytoskeleton dynamics.
This study is the first to report the involvement of transcription co-factor myocardin related transcription factor-A (MRTF-A) in TGFβ-induced EMT in the lens. Using rat lens epithelial explants, I have conclusively established that in LECs, TGFβ induces nuclear migration of MRTF-A leading to induction of αSMA expression. Furthermore, I have manipulated the intracellular translocation of MRTF-A indirectly using actin binding drugs and established that inhibiting nuclear migration of MRTF-A reduces αSMA production by the cells. In addition, direct manipulation of MRTF-A using adenoviral vectors carrying modified gene constructs show that presence of functional MRTF-A construct in the nucleus is necessary to trigger αSMA expression by causing EMT.
In order to understand the involvement of matrix metalloproteinase -9 (MMP-9) in this specific pathway, explants were treated with an MMP2/9 inhibitor and rhMMP9. I have established that rhMMP-9 does not significantly affect the intracellular migration of MRTF-A. Nevertheless, gene expression studies showed that MMP-9 induces the expression of MRTF-A. Taken together, I believe MMP-9 functions through a feedback mechanism controlling MRTF-A expression in the cell. However, the presence of MMP-9 is necessary but not sufficient for induction in MRTF-A nuclear translocation.
Overall, the work presented in this thesis demonstrates for the first time the presence of MRTF-A in LECs and successfully shows that the intracellular translocation of MRTF-A as an integral part of TGFβ induced EMT. Therefore, in the future, MRTF-A may be used as a successful target molecule to inhibit in order to prevent EMT leading to PCO. / Thesis / Doctor of Philosophy (PhD)
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Profilin : From the Cell Edge into the NucleusSadi, Sara January 2014 (has links)
Internal and external signaling dependent changes in cell behavior are directly linked to force-generating remodeling of the actin microfilament system which is juxtaposed to the inside of the plasma membrane. This dynamic filament system is involved in many processes in the cytoplasm and the nucleus of eukaryotic cells. This thesis studies profilin, a regulator of actin filament dynamics which functions during incorporation of new actin molecules at growing filament ends at the cell periphery. Profilin is also present in the nucleus but its function is less well understood in this compartment. Here I present results concerning profilin and the activity of the transcription factor SRF, which is known to control the expression of actin and many actin-binding proteins in a process requiring the MRTF-A co-factor. MRTF-A binds monomeric actin and is released upon receptor mediated actin polymerization. Depletion of the two profilin isoforms I and IIa reduced MRTF-A/SRF-dependent transcription, most likely since the lack of profilin enable more MRTF-A to bind actin monomers and thereby prevent SRF-transcription. Interestingly profilin depletion also seemed to affect general transcription in the two cell lines investigated. In a separate study, a close connection between profilin, and possibly also profilin:actin, with microtubules was revealed. Microtubules are important for intracellular trafficking of vesicles as well as directional cell migration and the observation made here suggests the existence of a microtubule-associated platform for actin filaments formation. In congruence, the microtubule-associated actin nucleation promoting factor WHAMM was found to interact with profilin. Finally, the intracellular distribution of profilin was investigated by fluorescence microscopy using different peptide specific antibodies. Since these antibodies showed unique but varying results our work emphasizes common problems connected with this technique. / <p>At the time of the doctoral defence the following papers were unpublished and had a status as follows: Paper1: Manuscript; Paper 2: Manuscript; Paper 3: Manuscript</p>
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Myofibroblast differentiation in hypoxia: a novel role for ArhGAP29Leinhos, Lisa 17 April 2019 (has links)
No description available.
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Behavioral and auditory evoked potential (AEP) hearing measurements in odontocete cetaceansCook, Mandy Lee Hill 01 June 2006 (has links)
Bottlenose dolphins (Tursiops truncatus) and other odontocete cetaceans rely on sound for communication, navigation, and foraging. Therefore, hearing is one of their primary sensory modalities. Both natural and anthropogenic noise in the marine environment could mask the ability of free-ranging dolphins to detect sounds, and chronic noise exposure could cause permanent hearing losses. In addition, several mass strandings of odontocete cetaceans, especially beaked whales, have been correlated with military exercises involving mid-frequency sonar, highlighting unknowns regarding hearing sensitivity in these animals.Auditory evoked potential (AEP) methods are attractive over traditional behavioral methods for measuring the hearing of marine mammals because they allow rapid assessments of hearing sensitivity and can be used on untrained animals. The goals of this study were to 1.) investigate the differences among underwater AEP, in-air AEP, and underwater behavioral heari
ng measurements using two captive bottlenose dolphins, 2.) investigate the hearing abilities of a population of free-ranging bottlenose dolphins in Sarasota Bay, Florida, using AEP techniques, and 3.) report the hearing abilities of a stranded juvenile beaked whale (Mesoplodon europaeus) measured using AEP techniques.For the two captive dolphins, there was generally good agreement among the hearing thresholds determined by the three test methods at frequencies above 20 kHz. At 10 and 20 kHz, in-air AEP audiograms were substantially higher (about 15 dB) than underwater behavioral and underwater AEP audiograms.For the free-ranging dolphins of Sarasota Bay, Florida, there was considerable individual variation, up to 80 dB between individuals, in hearing abilities. There was no relationship between age, gender, or PCB load and hearing sensitivities. Hearing measured in a 52-year-old captive-born bottlenose dolphin showed similar hearing thresholds to the Sarasota dolphins up to 80 kHz,
but exhibited a 50 dB drop in sensitivity at 120 kHz.Finally, the beaked whale was most sensitive to high frequency signals between 40 and 80 kHz, but produced smaller evoked potentials to 5 kHz, the lowest frequency tested. The beaked whale hearing range and sensitivity were similar to other odontocetes that have been measured.
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