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Full-Text Articles in Cell Biology

Smurf2 Regulates Hematopoietic Stem Cell Self-Renewal And Aging, Charusheila Ramkumar, Yahui Kong, Sally E. Trabucco, Rachel M. Gerstein, Hong Zhang Feb 2014

Smurf2 Regulates Hematopoietic Stem Cell Self-Renewal And Aging, Charusheila Ramkumar, Yahui Kong, Sally E. Trabucco, Rachel M. Gerstein, Hong Zhang

GSBS Student Publications

The age-dependent decline in the self-renewal capacity of stem cells plays a critical role in aging, but the precise mechanisms underlying this decline are not well understood. By limiting proliferative capacity, senescence is thought to play an important role in age-dependent decline of stem cell self-renewal, although direct evidence supporting this hypothesis is largely lacking. We have previously identified the E3 ubiquitin ligase Smurf2 as a critical regulator of senescence. In this study, we found that mice deficient in Smurf2 had an expanded hematopoietic stem cell (HSC) compartment in bone marrow under normal homeostatic conditions, and this expansion was associated ...


Effect Of Long Term Rapamycin Treatment On Mtor Signalling Network In Colon And Liver Of C57bl/6 Mice, John Sorge Jan 2014

Effect Of Long Term Rapamycin Treatment On Mtor Signalling Network In Colon And Liver Of C57bl/6 Mice, John Sorge

Wayne State University Theses

Many studies have investigated the effects of rapamycin on aging and cancer. However, the effects of long-term rapamycin supplementation on a cancer model have not been performed. This is the first study that investigates the effects of long-term supplementation of rapamycin in a cancer model. ACF analysis of colon tissues in mice showed no significant difference between controls and those supplemented with rapamycin. Factors such as energy balance, cellular environment, PI3K/Akt/mTOR pathway, and more have been assessed in this study. The duration of rapamycin supplementation seems to play an important role in the protection against cancer. Ultimately, this ...


Examining Post-Transcriptional Regulation Of Skeletal Muscle Satellite Cell Homeostasis, Activation And Fate Determination, Crystal Dawn Pulliam Jan 2014

Examining Post-Transcriptional Regulation Of Skeletal Muscle Satellite Cell Homeostasis, Activation And Fate Determination, Crystal Dawn Pulliam

Molecular, Cellular, and Developmental Biology Graduate Theses & Dissertations

Skeletal muscle is essential for respiration, mobility, reproduction and metabolism. Deficits in muscle function due to disease, injury or age reduce both quality of life and lifespan. Muscles are long-lived tissues that require maintenance to retain functional integrity throughout the life of an organism. Satellite cells are the adult stem cells responsible for muscle repair and maintenance. Upon myotrauma, satellite cells re-enter the cell cycle, proliferate, and terminally differentiate to repair the muscle. In uninjured tissue, satellite cells are quiescent and infrequently proceed through myogenesis for muscle maintenance. The molecular mechanisms that regulate satellite cell quiescence and activation are poorly ...


Effects Of Altering The Peroxisomal Redox State In Models Of Degenerative Disease, Courtney Rose Giordano Jan 2014

Effects Of Altering The Peroxisomal Redox State In Models Of Degenerative Disease, Courtney Rose Giordano

Wayne State University Dissertations

Peroxisomes are important regulators of cellular redox balance and function as a signaling platform to regulate anti-aging metabolic and communication networks. In addition the organelle has emerged as a major player in maintaining cellular ROS at an optimal level. At such levels, these ROS are involved in initiation of signaling cascades and that produce an array of anti-aging and disease processes. However, as cells age over time, ROS amass within the peroxisome and elsewhere in the cell. This leads to an imbalance in oxidative homeostasis and results in compromised signaling networks. The goal of this dissertation was to treat disease ...