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Full-Text Articles in Medicine and Health Sciences
Challenges And Opportunities In Glioblastoma And Immunovirotherapy With Oncolytic Herpes Simplex Virus Type 1, Dagoberto Estevez-Ordonez
Challenges And Opportunities In Glioblastoma And Immunovirotherapy With Oncolytic Herpes Simplex Virus Type 1, Dagoberto Estevez-Ordonez
All ETDs from UAB
This dissertation covers data from published and pre-published studies exploring challenges and opportunities in the treatment of malignant glioma with emphasis in glioblastoma and oncolytic immunovirotherapy with an oncolytic herpes simplex virus type 1 (HSV-1) designed to induce expression of IL-12, M002 (murine IL-12) and M032 (human IL-12).It starts with the report of a study that uncovered important racial and socioeconomic disparities experienced by patients with glioblastoma treated in Alabama. Notable results also include the unexpected finding of increased survival in African American patients with glioblastoma even after controlling for factors associated with survival and socioeconomic disparities. The implications of …
Cis-Regulatory Elements: Relevance For Alzheimer's Disease, Brianne Brazell Rogers
Cis-Regulatory Elements: Relevance For Alzheimer's Disease, Brianne Brazell Rogers
All ETDs from UAB
Alzheimer’s disease (AD) is the most common neurodegenerative disease, currently affecting more than six million Americans with limited treatment options. Identifying genetics contributors to neurodegenerative diseases has contributed critical insights into potential disease mechanisms. The majority of disease-associated genetic variants are located in non-coding regions, likely in regulatory elements, and affect the expression of target genes whose function contributes to neurodegeneration. Here, I performed a case-control study utilizing nuclei from dorsolateral prefrontal cortex postmortem tissue to correlate chromatin accessibility with gene expression and nominate 40,831 AD-specific candidate cis-regulatory elements. Additionally, work in this dissertation nominates ZEB1 and MAFB as candidate …
Time-Restricted Feeding Attenuates Obesity-Induced Muscle Dysfunction Through Energy Metabolism And Microbiota Modulation, Chris Livelo
Time-Restricted Feeding Attenuates Obesity-Induced Muscle Dysfunction Through Energy Metabolism And Microbiota Modulation, Chris Livelo
All ETDs from UAB
Obesity is a global epidemic that affects countless numbers of people caused by genetic and environmental factors including circadian disruption, which poses significant health risks to skeletal muscle physiology and other tissues. While a feeding fasting intervention known as time-restricted feeding (TRF) has been shown to mitigate obesity-related muscle dysfunction, the underlying mechanisms remain a subject of investigation. In this study, we delve into potential mechanisms underlying TRF's protective effects on muscle physiology in the context of diet- and genetic-induced obesity using Drosophila models. Our findings reveal that TRF triggers the upregulation of key genes involved in glycine production (Sardh …
Select Lipid Signaling. Derived From T-Cells Is An Important Contributor To Type 1 Diabetes Development, Tayleur White
Select Lipid Signaling. Derived From T-Cells Is An Important Contributor To Type 1 Diabetes Development, Tayleur White
All ETDs from UAB
We reported that Ca2+-independent phospholipase A2β (iPLA2) contributes to type 1 diabetes (T1D) development; however, the impact of lipid signaling from T-cells is unknown. To address this, we first administered splenocytes from NOD, NOD.iPLA2+/- (NOD.HET), or NOD.iPLA2-/- (NOD.KO) mice to 4-week-old NOD.scid recipients. As expected, T1D onset was rapid in NOD cell recipients and 100% by 12 weeks. However, onset was delayed by 1-3 weeks in NOD.HET or NOD.KO cell recipients and only 60% became diabetic, suggesting a role for T-cell iPLA2. Next, to establish importance of iPLA2 in CD4 or CD8 cells, purified cells were administered to NOD.scid mice. …
Dact1, The “Super-Crosslinker”: Regulation Of Non-Canonical Wnt Signaling During Vertebrate Convergent Extension By Modulating Dishevelled Oligomerization, Allyson Angermeier
Dact1, The “Super-Crosslinker”: Regulation Of Non-Canonical Wnt Signaling During Vertebrate Convergent Extension By Modulating Dishevelled Oligomerization, Allyson Angermeier
All ETDs from UAB
A broad spectrum of human birth defects arise from the disruption of morphogenesis, the critical process through which tissues and organs acquire their proper shape. Convergent extension (CE) is a universal morphogenetic engine that promotes polarized extension of diverse tissues and organs by regulating directional cell behavior, such as oriented cell intercalation. In vertebrates, CE is regulated by non-canonical Wnt/Planar Cell Polarity (PCP) pathway, an ancient signaling pathway that was originally discovered to coordinate the cellular polarity in the plane of the epithelium. Non-canonical Wnt/PCP signaling shares the Frizzled (Fz) receptor and cytoplasmic signal transducer Dishevelled (Dvl) with the canonical …
Regulatory Elements Of Polyphosphate Biosynthesis, Marvin Qortez Bowlin
Regulatory Elements Of Polyphosphate Biosynthesis, Marvin Qortez Bowlin
All ETDs from UAB
Polyphosphate (polyP) is an ancient, conserved, inorganic biomolecule. Biological systems have adapted many functions for this high-energy molecule, ranging from immune regulation in mammals to gene regulation in prokaryotes. Of particular interest is its use in bacterial stress responses. Bacteria use polyP to resist hazardous environmental elements like toxic molecules or nutrient starvation. In many bacterial species, polyP is synthesized by polyphosphate kinases (PPKs). PPK – discovered in Escherica coli (E. coli) – hydrolyzes adenosine-5’-triphosphate (ATP) to synthesize polyP. Species that use PPK develop multiple pathogenic defects when PPK activity is impaired, including, among others, antibiotic susceptibility. There is no …
Interactions Between Pseudomonas Aeruginosa And The Oral Commensal Streptococcus Salivarius, Sara Noelle Stoner
Interactions Between Pseudomonas Aeruginosa And The Oral Commensal Streptococcus Salivarius, Sara Noelle Stoner
All ETDs from UAB
The cystic fibrosis airway is a polymicrobial environment often dominated by opportunistic pathogens such as Pseudomonas aeruginosa, a leading cause of lung function decline and mortality in persons with CF. Commensal streptococcal colonization has been associated with stable CF lung function in multiple studies. However, few studies have examined interactions between P. aeruginosa and commensals as well as their impact on P. aeruginosa airway infections. In the first half of this work, we studied interactions between P. aeruginosa and the oral commensal Streptococcus salivarius within a biofilm setting. We found that S. salivarius biofilm formation is promoted by the non-mucoid …
Modular Regulation And Function Of The Polypyrimidine Tract Binding Protein 1 (Ptbp1), Christine Carico
Modular Regulation And Function Of The Polypyrimidine Tract Binding Protein 1 (Ptbp1), Christine Carico
All ETDs from UAB
RNA binding proteins (RBPs) are critical regulators of gene expression as they are responsible for the chaperoning and processing of every nascent RNA transcript. Many studies have investigated mechanisms of specificity of RBP function and have identified factors such as cell-specific expression of RBPs and differential preferences for RNA secondary structure. However, RBPs are often multi-domain proteins that contain repeats of various RNA binding domains (e.g., RNA recognition motif) and little work in the genomic era of transcriptomic interrogation has been done to define the contribution of individual domains to the overall protein function. Polypyrimidine tract binding protein 1 (PTBP1) …
The Effects Of Cannabidiol On Brain Temperature In Treatment-Resistant Epilepsy, Ayushe A. Sharma
The Effects Of Cannabidiol On Brain Temperature In Treatment-Resistant Epilepsy, Ayushe A. Sharma
All ETDs from UAB
Epilepsy affects over 70 million people worldwide with a global incidence of 2.4 million new cases per year. In many of these patients, neuroinflammation (NI) is a key pathological contributor to focal seizure generation and maintenance. Sustained NI degrades the blood–brain barrier, leads to neuronal death, and ultimately decreases seizure threshold. Finding ways to image and treat NI is especially important for the >30% of patients with treatment-resistant epilepsy (TRE) who cannot achieve seizure freedom with standard antiseizure medications. Cannabidiol (CBD) effectively reduces seizure frequency and severity in many TRE patients, although its antiepileptic effects remain poorly understood. Atypically high …
Application Of Machine Learning And Network Approaches To Prioritize Safe And Efficacious Drug Repurposing Candidates, Jennifer L. Fisher
Application Of Machine Learning And Network Approaches To Prioritize Safe And Efficacious Drug Repurposing Candidates, Jennifer L. Fisher
All ETDs from UAB
Only ten percent of drugs in clinical trials are ultimately approved by the Food and Drug Administration (FDA). With many diseases and disorders needing therapeutic options, computational drug repurposing methodologies are great alternatives to some drug discovery methods due to quicker FDA approval and lower cost. We sought to gain insights to improve the identification of drug repurposing candidates that will be safe and effective to increase the success of computational drug repurposing approaches. In regards to identifying safe drug candidates, pharmacovigilance studies of adverse event case reports identified that women are more likely to experience an adverse event, and …
The Molecular And Structural Basis Of B Cell Epitope Targeting In Transplant Rejection, John T. Killian Jr
The Molecular And Structural Basis Of B Cell Epitope Targeting In Transplant Rejection, John T. Killian Jr
All ETDs from UAB
HLA-reactive antibodies (HLA-Abs) to mismatched polymorphic HLA molecules are one of the major barriers to successful organ transplantation. However, key knowledge gaps remain surrounding the immunology of the anti-HLA B cell response in transplant rejection. This lack of understanding regarding the phenotype and specificity of the anti- HLA B cell response means that the field cannot develop optimal therapies to treat B-cell mediated donor-specific responses and that it lacks the tools to optimally match donors and recipients to prevent rejection events. Therefore, this dissertation aimed to explore the clinical factors associated with the formation of donor-specific antibodies and the molecular …
Sialylation Of Epidermal Growth Factor Receptor By The Sialyltransferase St6gal1 Modulates Receptor Activity And Downstream Signaling, Katherine Ankenbauer
Sialylation Of Epidermal Growth Factor Receptor By The Sialyltransferase St6gal1 Modulates Receptor Activity And Downstream Signaling, Katherine Ankenbauer
All ETDs from UAB
During the process of malignant transformation, cells have striking changes in their cell surface glycosylation. One of these changes is an enrichment for α2,6 sialic acid which is added by the sialyltransferase, ST6GAL1. ST6GAL1 is upregulated in numerous malignancies and acts by adding an α2,6 sialic acid onto receptors bound for the plasma membrane. This sialic acid, in turn, modulates the activity of the receptor by regulating conformation, clustering, and cell surface retention. The work presented in this dissertation focuses on how ST6GAL1-mediated sialylation of a specific cell surface receptor, epidermal growth factor receptor (EGFR), regulates many of its properties. …
Impact Of Streptococcus Parasanguinis-Generated Reactive Nitrogen Species On Pseudomonas Aeruginosa Virulence And The Host Response, Joshua J. Baty
Impact Of Streptococcus Parasanguinis-Generated Reactive Nitrogen Species On Pseudomonas Aeruginosa Virulence And The Host Response, Joshua J. Baty
All ETDs from UAB
Streptococcus parasanguinis is an oral commensal bacterium that produces hydrogen peroxide. Hydrogen peroxide can react with endogenous molecules such as nitrite to form reactive nitrogen intermediates (RNI). These S. parasanguinis-mediated RNI have been shown to inhibit oral pathogens such as Streptococcus mutans, Enterococcus faecalis, and Aggregatibacter actinomycetemcomitans. As such, S. parasanguinis plays a protective role in the oral microbial ecosystem by antagonizing and preventing colonization by oral pathogens. In addition to being an important organism for the health of the oral cavity, S. parasanguinis has also been associated with improved outcomes for people with cystic fibrosis. There are two explanations …
Neutrophil Heterogeneity And Alternative Granulopoiesis In Chronic Inflammatory Conditions, Ashley N. Connelly
Neutrophil Heterogeneity And Alternative Granulopoiesis In Chronic Inflammatory Conditions, Ashley N. Connelly
All ETDs from UAB
Neutrophils, the most abundant type of circulating leukocyte, represent a heterogeneous population with distinct roles in immune regulation and disease pathogenesis. A major obstacle to our understanding of neutrophil biology is that neutrophils are readily activated during preparation. The lack of standardized methodology for neutrophil characterization makes the comparison of results across studies challenging. Here we provide a careful comparison of eight characterization methods and present a novel, optimized protocol for the characterization of whole blood neutrophils minimizing activationinduced phenotypic alterations during processing. Despite successful virological control, HIV-1-infected individuals maintain an increased risk of life-threatening comorbidities including liver, cardiovascular, and …
Imaging Nanoscale Plasma Membrane Dynamics Reveals Diversity In Clathrin-Coated Vesicle Formation, Tomasz Jacek Nawara
Imaging Nanoscale Plasma Membrane Dynamics Reveals Diversity In Clathrin-Coated Vesicle Formation, Tomasz Jacek Nawara
All ETDs from UAB
Clathrin-mediated endocytosis (CME) is an essential cellular process facilitating the internalization of a variety of cargo. Clathrin polymerization and changes in plasma membrane architecture and composition are necessary steps to mediate the formation of clathrin-coated vesicles (CCVs). However, simultaneous analysis of clathrin dynamics and membrane structure in living cells is challenging due to the limited axial resolution of fluorescence microscopes and the heterogeneity of CME. This has fueled conflicting models of vesicle assembly and obscured the roles of flat clathrin assemblies. Here we use Simultaneous Two-wavelength Axial Ratiometry (STAR) microscopy to bridge this critical knowledge gap by quantifying the nanoscale …
Understanding Molecular Mechanisms Of Glioblastoama Resistance To Design Novel Combinatorial Therapies, Amber B. Jones
Understanding Molecular Mechanisms Of Glioblastoama Resistance To Design Novel Combinatorial Therapies, Amber B. Jones
All ETDs from UAB
Treatment options for the universally lethal brain tumor, glioblastoma (GBM), are severely limited and often unsuccessful in fully eradicating the disease. Extremely aggressive in nature, GBM cells often implore suppressive mechanisms to evade therapeutic detection which aids in the dismal 15-month median survival rate. Facilitating disease severity and more importantly, disease recurrence, are the immunosuppressive and chemoresistant phenotypes of GBM cells. Specifically, the DNA alkylating agent, temozolomide (TMZ) possesses lymphodepleting properties shunting robust immune cell infiltration into an immunologically cold tumor microenvironment. Additionally, through inherent or acquired mechanisms, GBM tumors commonly become resistant to the DNA damaging effects of TMZ …
Manipulation And Dependence On Host Cell Cycle By Human Rna And Dna Viruses: Human Coronavirus Oc43 And Bk Polyomavirus, Jason M. Needham
Manipulation And Dependence On Host Cell Cycle By Human Rna And Dna Viruses: Human Coronavirus Oc43 And Bk Polyomavirus, Jason M. Needham
All ETDs from UAB
Cell cycle is a universal necessity of cellular life and impacts nearly every process within the cell. However, despite over one hundred years of research, there still remain questions concerning the mechanisms and regulation of eukaryotic cell cycle. From the beginning, viruses have informed our knowledge of cell cycle. Many key regulators such as the E2F transcription factors, Src kinase, and p53 were originally discovered while studying the interactions between viruses and the cell. Herein, we continue the investigation of viral interactions with cell cycle machinery by researching an RNA virus and a DNA virus. These viruses, human coronavirus OC43 …
The Influence Of Proximity On Patient Outcomes For Differently Structured Ambulatory Surgery Centers, Wendy Michelle Smith
The Influence Of Proximity On Patient Outcomes For Differently Structured Ambulatory Surgery Centers, Wendy Michelle Smith
All ETDs from UAB
THE INFLUENCE OF PROXIMITY ON PATIENT OUTCOMES FOR DIFFERENTLY STRUCTURED AMBULATORY SURGERY CENTERSWENDY SMITH HEALTH SERVICES ADMINISTRATION ABSTRACT This study examines the complication rates and patient-reported outcome measures (PROMs) for total hip and knee replacement surgeries conducted in one of two differently structured ambulatory surgical centers (ASCs) with varying interprofessional surgical teams. There is an ongoing shift from in-hospital total joint replacement surgeries to ASCs. Additionally, there is specialization occurring within ASCs. In this study, we compare single specialty ASCs designed to perform solely TJR surgeries with one orthopedic group and interprofessional team, with multi-specialty ASCs that perform an array …
Biochemical Characterization Of Rna Polymerases I, Ii, And Iii And Its Therapeutic Implications, Ruth Qian Jacobs
Biochemical Characterization Of Rna Polymerases I, Ii, And Iii And Its Therapeutic Implications, Ruth Qian Jacobs
All ETDs from UAB
In contrast to Bacteria and Archaea that express a single DNA-dependent RNA polymerase (RNAP), eukaryotes express at least three structurally distinct, nuclear, DNA-dependent RNA polymerases (Pols I, II, and III) that are responsible for synthesizing all the genome-encoded RNA required by the cell. Despite the discovery of the Pols over 50 years ago, there remains a knowledge gap concerning their enzymatic properties. Over the course of evolution, we know that Pols I, II, and III have diverged in structure and function. They share a 10-subunit core and are each responsible for transcribing unique genetic loci. What remains to be understood …
The Role Of Tissue- And Cell-Type-Specific Expression And Regulation In Setbp1-Associated Diseases, Jordan Hailey Whitlock
The Role Of Tissue- And Cell-Type-Specific Expression And Regulation In Setbp1-Associated Diseases, Jordan Hailey Whitlock
All ETDs from UAB
SET binding protein 1 (SETBP1) encodes a transcription factor (TF) participating in diverse cellular processes. SETBP1 is an epigenetic hub associated with variants linked to three distinct diseases. Germline variants cause rare pediatric Schinzel Giedion Syndrome (SGS) and SETBP1 haploinsufficiency disorder (SETBP1-HD), featuring multisystemic abnormalities and neurodegeneration or milder brain issues with hypotonia, respectively. On the other hand, somatic variants contribute to hematological malignancies and adult cancer. To understand tissue-specific SETBP1 mechanisms, public RNA-sequencing data from the Genotype-Tissue Expression (GTEx) project were analyzed. SETBP1 and targets were broadly expressed across 31 adult human tissues, revealing three distinct expression patterns: transcription …
Crucial Role Of T Follicular Helper Cell-Derived Ifn-Γ In Lung Resident Memory B Cell Responses, Nicole Michelle Arroyo-Diaz
Crucial Role Of T Follicular Helper Cell-Derived Ifn-Γ In Lung Resident Memory B Cell Responses, Nicole Michelle Arroyo-Diaz
All ETDs from UAB
T follicular helper (Tfh) cells constitute a distinct subset of CD4 T cells that reside within B cell follicles, playing an indispensable role in orchestrating the Germinal Center (GC) response. In response to polarizing environments, such as Influenza A virus infection (IAV), Tfh cells secrete effector cytokines, including IFN-γ and IL-4. Nevertheless, the specific functions of cytokine-producing Tfh cell subsets, beyond their involvement in driving class switch recombination (CSR), remain largely unexplored. Here, we demonstrate that, following IAV infection, Tfh cell cytokine production undergoes a dynamic shift, transitioning from early IFN-γ dominance to later predominance of IL-4. The initial IFN-γ …
Sex-Stratified Genetic Analysis Of Gout And Comorbidities, Nicholas Andrew Sumpter
Sex-Stratified Genetic Analysis Of Gout And Comorbidities, Nicholas Andrew Sumpter
All ETDs from UAB
Gout is a common inflammatory arthritis that is increasing in prevalence globally. It has clear sex differences, being more common among men, though comorbidities appear to be more common among women. It also varies in prevalence between populations, driven by a combination of genetic and socioeconomic factors. Genetic studies have identified gout-associated genetic variants, several of which are shared between different populations. Here, I combined gout-associated genetic variants into a gout polygenic risk score. This score was then used to elucidate the genetic underpinning of gout severity and presence of comorbidities, comparing its effects in different sexes and populations. I …
Investigating The P53 Tumor-Suppressive Network And The Dynamics/Mechanism Of P53 Loss Of Heterozygosity, Jun Wang
All ETDs from UAB
Tumor suppressor gene TP53 is the most frequently mutated gene across human cancers (~50%). Patients with Li-Fraumeni syndrome (LFS) who carry germline p53 mutations exhibit a diverse spectrum of childhood- and adult-onset malignancies. Despite over 40 years of dedicated studies to understand the role of p53 in tumor prevention, there are still many unanswered questions regarding the underlying mechanisms of p53. Previous studies have supported the notion that p53 exerts its tumor-suppressive function through its transcriptional activities. Therefore, strategies to enhance p53’s functions in tumor suppression via manipulating of downstream target gene activities in cancers show promising. To better investigate …
A Tale Of Two Waves: The Role Of Genomic Enhancers In Regulating Transcriptional And Epigenetic Responses To Neuronal Activitiy, Robert A. Phillips Iii
A Tale Of Two Waves: The Role Of Genomic Enhancers In Regulating Transcriptional And Epigenetic Responses To Neuronal Activitiy, Robert A. Phillips Iii
All ETDs from UAB
The mesolimbic dopamine (DA) pathway, which consists of dopaminergic neurons that project from the ventral tegmental area (VTA) to the nucleus accumbens (NAc), is heavily implicated in drug addiction. Exposure to drugs of abuse results in increases in extracellular concentrations of DA in the NAc, which in turn activates an immediate early gene (IEG) expression program that primarily consists of activity-dependent transcription factors, such as the AP1 subunits Fos and JunB. IEGs engage a set of temporally and functionally distinct genes, termed the late response gene (LRG) expression program. While gene expression changes are critical for drug-dependent adaptations, two major …
Spatial/Temporal Zonation, Diversification, And Evolutionary Conservation Of Kidney Resident Macrophage Subpopulations In Mice And Humans After Kidney Injury, Elise Nicole Erman
Spatial/Temporal Zonation, Diversification, And Evolutionary Conservation Of Kidney Resident Macrophage Subpopulations In Mice And Humans After Kidney Injury, Elise Nicole Erman
All ETDs from UAB
In the United States, acute kidney injury (AKI) affects nearly 20% of all intensive care unit patients. Additionally, over a third of Americans aged 50 or older suffer from stage 3 chronic kidney disease (CKD) or higher. AKI and CKD are encompassing terms for many etiologies and pathological processes that affect different regions of the kidney but converge at tissue inflammation and fibrosis. Macrophages perform vital homeostatic functions and can initiate or ameliorate inflammation and fibrosis. As the largest component of the kidney immune system, kidney resident macrophages (KRMs) have been implicated in both disease propagation and mitigation, yet the …
Reduction Of Sphingomyelinases Associated With Progranulin Deficiency And Frontotemporal Dementia, Nicholas R. Boyle
Reduction Of Sphingomyelinases Associated With Progranulin Deficiency And Frontotemporal Dementia, Nicholas R. Boyle
All ETDs from UAB
Frontotemporal dementia (FTD) is a leading cause of early-onset dementia and has a significant socioeconomic burden due to difficulties in diagnosis and delay to diagnosis. FTD is a clinically, pathologically, and genetically heterogeneous disorder. The pathological changes associated with FTD are termed frontotemporal lobar degeneration (FTLD). Protein aggregates are always present in FTLD, with >90% of cases presenting with either TDP-43 or tau pathology. Most cases of FTD are sporadic, but familial cases account for up to 25% of FTD. All familial FTD is inherited in an autosomal dominant fashion with most cases being caused by mutations in tau (MAPT), …
Epigenetic Aberrations In Systemic Sclerosis And Systemic Lupus Erythematosus, Peter C. Allen
Epigenetic Aberrations In Systemic Sclerosis And Systemic Lupus Erythematosus, Peter C. Allen
All ETDs from UAB
Autoimmune diseases are a classification of more than eighty diseases where the immune system recognizes a self-antigen and mistakenly attacks the body’s own tissue, inducing inflammation a nd p otentially l eading t o d amage. Autoimmune diseases disproportionately affect women and develop at any age depending on the disease. The prevalence of some autoimmune diseases is increased in minority populations. Despite this, research into higher-risk populations is lacking. This highlights the need to contribute research into understanding autoimmune disease pathogenesis in diverse studies to understand why disease is more severe in these populations. We analyzed transcriptomes and methylomes of …
Chronic Circadian Disruption Increases Risk For Cardiovascular Disease, Jazmine I Benjamin
Chronic Circadian Disruption Increases Risk For Cardiovascular Disease, Jazmine I Benjamin
All ETDs from UAB
Circadian disruption is a disturbance in biological timing which can occur within or between different organizational levels, ranging from molecular rhythms within specific cells to misalignment of behavioral and environmental cycles. Previous work has shown that changing the timing of food availability is sufficient to lower blood pressure and improve insulin sensitivity in prediabetic males, demonstrating the importance of timing of food intake for cardiovascular health. Findings from our group demonstrated that less than one week of mistimed feeding is sufficient to invert diurnal blood pressure rhythms, although kidney excretory rhythms and kidney function remained aligned with the light-dark cycle. …
Impact Of Exercise On Antioxidative-Stress Induced Endoplasmic Reticulum Dysfunction And Cardiac Remodelling, Arun Jyothidasan
Impact Of Exercise On Antioxidative-Stress Induced Endoplasmic Reticulum Dysfunction And Cardiac Remodelling, Arun Jyothidasan
All ETDs from UAB
The gain of function of nuclear factor erythroid 2 like 2 (Nrf2), in the absence of oxidative stress (or toxic insults), its pathophysiology arising from the endoplasmic reticulum and exercise intervention to mitigate the pathology are the focal point of this dissertation. Nrf2, when constitutively expressed, has been previously associated with cardiomyopathy. Chapter II investigated the hypothesis that cardiac-specific expression of Nrf2 (mNrf2-TG) would establish a pro-reductive state and trigger adaptive cardiac remodeling by enhancing the basal antioxidant defense. Through RNA profiling and imaging techniques, the study underscored that while acute preconditioning might prove advantageous against oxidative stress, prolonged pro-reductive …
Regulating Cancer Cell Metabolism During Hypoxia-Reoxygenation: Examing The Interplay Of Gasotransmitters And Glutaminolysis, Dianna L. Xing
Regulating Cancer Cell Metabolism During Hypoxia-Reoxygenation: Examing The Interplay Of Gasotransmitters And Glutaminolysis, Dianna L. Xing
All ETDs from UAB
Oxidative phosphorylation is an oxygen-dependent metabolic process that provides the majority of ATP used to support essential cellular functions. However, in cancer, limitations in oxygen availability occur during the development and metastasis of tumors. To compensate for the demands of rapidly proliferating cells, many cancers exhibit an increased demand for glycolysis, the TCA cycle, and glutaminolysis. In this thesis, extracellular flux technology and metabolomics were applied in a hypoxia-reoxygenation model to investigate the metabolic adaptations that occur in dynamic changes in oxygen and nutrient availability in cancer cells. We show the significance of glutaminolysis and its substrates in regulating cancer …