Browsing by Author "Guo, Wendi"
- Results Per Page
- Sort Options
Item Open Access A Central Role for Hypoxia-inducible Transcription Factor Signaling in the Regulation of Skeletal Lineage Cells(2022) Guo, WendiOsteoporosis and low bone density affect an estimated 54 million adults of 50 years and over in the United States, resulting in $19 billion in costs for osteoporosis-related bone breaks. Current treatments include the use of antiresorptive and anabolic drugs to decrease the rate of bone resorption and increase the rate of bone formation, respectively. However, these current treatments are unable to completely normalize skeletal integrity. As bone diseases become increasingly prevalent, there is an urgent need to identify novel therapies to improve quality of life and reduce economic burden on the healthcare system.
To identify novel therapeutic targets, we must first begin to understand the cellular complexity of the bone marrow niche and how cellular function is regulated within the bone tissue. Bone-resident cells, such as skeletal progenitors and their descendants, are critically influenced by extrinsic signals derived from the local microenvironment. Previous studies have identified hypoxia as a key microenvironment factor in bone. Thus, the ability to target the hypoxic bone marrow niche presents an attractive and untapped potential for regenerative medicine.
Much of the work investigating the role of hypoxia and HIF signaling have focused on mature osteoblast and chondrocyte populations. In contrast, studies investigating the contribution of HIF signaling on skeletal progenitors and marrow adipocyte populations are scarce. In this dissertation, I investigate the role of hypoxia and HIF signaling in skeletal lineage cells, chiefly skeletal progenitor cells and marrow adipogenic lineage cells. Using cellular, genetic, and pharmacological-based approaches, I characterize the roles of HIF-1α and HIF-2α in both homeostatic and pathological contexts in the aforementioned cell populations.
First, I propose an optimized cell-based system to investigate the function of skeletal progenitors in vitro. Here, I highlight the limitations of current in vitro isolation techniques and introduce a relatively simple method of bone marrow stromal cell purification using hypoxia. Using this system, I assess how skeletal progenitors respond to hypoxic cues and interrogate skeletal progenitor cell differentiation and functional responses in my subsequent research. Next, using genetic and pharmacological approaches, I investigate the role of HIF-2α in bone formation following radiation-injury where I identify HIF-2α as a negative regulator of bone recovery. Additionally, with the assistance of my collaborators, I develop and characterize a bone-targeting nanocarrier to ameliorate radiation-induced bone loss. Lastly, I detail early work I conducted to investigate the role of HIF signaling in marrow adipogenic lineage cells. Here, I establish and characterize animal models to determine how hypoxia and HIF signaling influences adipogenic lineage commitment and expansion in an early and mature marrow adipogenic population.
In summary, this dissertation aims to expand our limited understanding on how the hypoxic bone microenvironment and HIF signaling regulate skeletal lineage cells in vivo, with a special focus on skeletal progenitor and marrow adipogenic populations. In terms of boarder impacts, understanding the signaling networks that regulate bone homeostasis and recovery processes will not only expand our basic understanding of the molecular mechanisms underlying skeletal development, but also provide novel insights for developing therapies to treat bone loss.
Item Open Access Chronic memantine decreases nicotine self-administration in rats.(European journal of pharmacology, 2019-10) Levin, Edward D; Wells, Corinne; Yao, Leah; Guo, Wendi; Nangia, Anica; Howard, Sarah; Pippen, Erica; Hawkey, Andrew B; Rose, Jed E; Rezvani, Amir HNeurobehavioral bases of tobacco addiction and nicotine reinforcement are complex, involving more than only nicotinic cholinergic or dopaminergic systems. Memantine is an NMDA glutamate antagonist used to improve cognitive function in people with Alzheimer's disease. Glutamate may be an important component of the reinforcing effects of nicotine, so memantine was evaluated as a potential smoking cessation aid. Two studies were conducted with adult female rats, one testing acute effects of memantine over a range of doses for changing nicotine self-administration and the other testing the chronic effects of memantine to reduce nicotine self-administration. Acute memantine injections slightly, but significantly, increased nicotine self-administration in a dose-related manner. In contrast, chronic memantine treatment significantly reduced nicotine self-administration. During the first day of memantine administration in the chronic study, nicotine self-administration was significantly elevated replicating the acute study. Starting in the second week of treatment there was a significant reduction of nicotine self-administration relative to controls. This was seen because memantine treatment prevented the increase in nicotine self-administration shown by controls. There even continued to be a memantine-induced lowered nicotine self-administration during the week after the cessation of memantine treatment. Memantine or other drugs affecting NMDA glutamate receptors may be useful aids to smoking cessation. Full efficacy for reducing nicotine self-administration was seen as the NMDA drug treatment is given chronically. Importantly, the effect persisted even after treatment is ended, indicating the high potential for NMDA glutamate receptors to impact nicotine addiction.