Life Sciences Commons^™

Investigating The Role Of The Pgf2 Alpha/Calcineurin-Signaling Pathway In The Regulation Of Adipogenesis, Damodaran Annamalai

Dissertations

Prostaglandin F2α (PGF2α) is a potent physiological inhibitor of adipocyte differentiation. In previous studies, we demonstrated that PGF2α inhibits adipogenesis via activation of the calcium-regulated protein phosphatase, calcineurin. In this current study, we have now extended these findings to identify the IL-11 cytokine and the Nurr1 orphan nuclear hormone receptor as functionally important downstream transcriptional targets of the PGF2α/calcineurin-pathway involved in the inhibition of adipocyte differentiation. In the case of IL-11, we show that this cytokine acts in an autocrine fashion to inhibit adipogenesis via the essential actions of the gp130 cytokine co-receptor signaling subunit. Further, by using a well-characterized …

Host Entry Factors For Human Coronaviruses, Taylor Heald-Sargent

Dissertations

Coronaviruses infect a diverse range of animals from birds to pigs and cats to humans. Coronaviruses employ RNA-based replicative processes and as such are genetically adaptable to acquire novel host ranges. A coronavirus from one species can jump to another by shifting its entry requirements. As we learned from the Severe Acute Respiratory Syndrome (SARS) pandemic, this shift in species can have detrimental consequences. Thus, it is imperative that we understand the virus-host interaction during the entry process.

This dissertation focuses on host entry factors that influence human coronavirus entry. Recently, a new class of proteases, the type II transmembrane …

Adenovirus Vectors As Potent Adjuvants In Vaccine Development, Kathleen Ann Mcguire

Dissertations

Due to their ability to activate the immune system, replication-defective Adenoviruses (Ad) are potential vaccine vectors for several pathogens. The proinflammatory response to Ad contributes to the response to vaccine antigens. We found that reactive oxygen species (ROS) are an important signal in the proinflammatory response to Ad. We identified that serotype 5 adenovirus (Ad5) elicits ROS by inducing mitochondrial membrane damage, a process that is dependent on endosomal membrane rupture and Cathepsin release. This mitochondrial dysfunction contributes to NLRP3 inflammasome- and NFκB-dependent innate immune activation. The ROS-dependent inflammatory response likely contributes to the adaptive immune response by supporting DC …

The Molecular Components Of Estrogen Receptor Beta (Erβ) Signaling In Neuronal Sytems, Natasha Mott

Dissertations

With increasing life expectancy, women are now living upwards of 50 years without circulating estrogens, therefore, it is essential to investigate how the brain is changed by estrogen deprivation and also how aging influences these changes. The Women's Health Initiative (WHI) study spurred rigorous debate regarding estrogen therapy for postmenopausal women due to dichotomous effects of estrogens in menopausal and post-menopausal women. Meta-analyses of the WHI study revealed that after circulating estrogens are depleted for many years re-exposure may cause aberrant, negative health effects, indicating that there is an age-related `switch' in estrogen signaling around menopause. These age-related effects of …

Identifying Novel Factors Involved In Biofilm Formation By Vibrio Fischeri, Valerie Ray

Dissertations

Biofilm formation by bacteria provides them with a means to survive harsh environmental conditions and promote colonization of a particular surface (biotic or abiotic). Due to the resistance properties of biofilms, biofilm-forming bacteria are difficult to treat in the context of host infections. Thus, investigating the processes that control biofilm formation will promote the development of novel therapeutics. To study biofilm formation in the context of a host, I utilized as a model system the marine bacterium Vibrio fischeri, which must be competent to form a biofilm to colonize its squid host Euprymna scolopes. Biofilm formation by V. fischeri requires …

Haploinsufficiency Of Cardiac Myosin Binding Protein-C In The Development Of Hypertrophic Cardiomyopathy, David Barefield

Dissertations

Heart Failure is one of the leading causes of morbidity and mortality in the human population and represents a common endpoint for several diseases including inherited cardiomyopathies. Hypertrophic Cardiomyopathy (HCM) is characterized by left ventricular wall thickening, diastolic dysfunction, and sarcomere disarray. Mutations in sarcomeric protein encoding genes have been established as causative for HCM.

The gene MYBPC3, encoding cardiac myosin binding protein-C (cMyBP-C), is the second most commonly mutated gene in HCM cases. As a majority of these mutations have been determined to result in a null allele which does not produce any protein, it is thought that haploinsufficiency …

Mutations In Phospholamban Alter The Structure And Function Of The Calcium Atpase Regulatory Complex, Neha Abrol

Dissertations

Phospholamban (PLB) is an integral membrane protein that plays an important role in regulation of cardiac calcium handling and contractility. PLB exists as a homopentamer in the membrane, which upon deoligomerization into active monomers reversibly inhibits sarco/endoplasmic reticulum calcium ATPase (SERCA). Mutations in PLB that change the PLB monomer-pentamer equilibrium result in dysregulation of SERCA. To determine the structural and regulatory role of the C-terminal residues of PLB in the membranes of living cells, we fused fluorescent protein tags to PLB and SERCA. We then studied the effect of C-terminal alanine substitutions and truncation mutations on PLB oligomerization and SERCA …

Catalytic Mechanism And Maturation Of The Metalloenzyme Nitrile Hydratase, Natalie I. Gumataotao

Dissertations

Nitrile hydratases are metalloenzymes that catalyze the hydration of nitriles to their corresponding amides in a specific manner at ambient pressures and temperatures at neutral pH. Traditional industrial methods require high temperature and pressure, extreme pH, and heavy metals. NHases are used as biocatalysts in the large scale industrial production of amide precursors to textiles, animal feedstock, and polymers. Notably, NHase is used in the production of ~100,000 tons of acrylamide annually by the Mitsubishi Corporation.

Despite being used extensively in industry, questions remain about NHase. The catalytic mechanism is not defined. Understanding the way in which the nitrile is …

Identification And Analysis Of Omentum Derived Suppressor Cells In Regards To Th17 Inhibition, Nick Huang

Dissertations

Omentum has been harnessed by surgeons for hundreds of years, providing an ideal environment for graft healing and acceptance. However, little is known about the cellular mechanisms that promote the tolergenic environment of the omentum. We examined the cellular composition and role of activated omentum in regards to T-cell immunomodulation. We then tested activated omentum as a cellular therapy in a mouse allogenic lung transplantation model.

Our findings demonstrated activated omentum is mostly comprised of non-hematopoietic cells resembling mesenchymal stem-like cells (MSCs) and myeloid derived suppressor cells (MDSCs). Activated omentum exhibited anti-inflammatory properties through suppression of Th1 and Th17, while …

Coronavirus Proteases As Therapeutic Targets: Development Of Biosensors To Detect Inhibition Of Protease Activity And Separation Of The Multiple Functions Of Coronavirus Papain-Like Proteases, Andrew Kilianski

Dissertations

Coronaviruses are important human pathogens and have the potential to severely impact public health on an international scale. The emergence of SARS-CoV and MERS-CoV highlight the need for research to identify antivirals and vaccines against coronaviruses. To develop therapeutics against current and potentially emergent coronaviruses, I utilized two approaches targeting the proteases encoded within all coronaviruses. The papain-like protease and 3C-like protease of coronaviruses are responsible for cleaving viral polyproteins early during infection, and this step is required for viral replication. To quantitatively assess the inhibition by small-molecule compounds on MERS-CoV protease activity, I developed a luciferase-based biosensor to monitor …

The Role Of Af9 And Af9-Mediated Protein Interactions In Hematopoiesis And Leukemogenesis, Alyson Anne Lokken

Dissertations

The AF9 protein is one of the most common chromosomal translocation partners of the MLL gene in MLL leukemia. Wild-type AF9 is a member of the pTEFb transcription elongation complex, and interacts with gene regulatory proteins such as AF4/AF5q31, DOT1L, Pc3/CBX8 and BCoR. These interactions are retained in the oncogenic MLL-AF9 fusion protein, and may be required for leukemic transformation.

Using bone marrow progenitor cells isolated from conditional Af9 knockout mice, we examined in vitro differentiation of hematopoietic progenitor cells to the erythroid, myeloid and megakaryocytic lineages in the presence or absence of Af9. Based on previously published studies, we …

Host Proteins Interact With The Hiv-1 Core To Facilitate And Restrict, Zana Lukic

Dissertations

Host cell proteins, termed restriction factors, which inhibit viral replication at various stages of the viral life cycle, determine the species-specific tropism of numerous retroviruses. Many members of the TRIM family of proteins act as viral restriction factors. One well-characterized example is the ability of TRIM5á from rhesus macaques (rhTRIM5á) to inhibit human immunodeficiency virus type-1 (HIV-1) soon after viral entry but prior to reverse transcription (RT). It is well established that the restriction requires an interaction between the viral capsid lattice and the B30.2/SPRY domain of TRIM5á. Following the binding of the viral core, TRIM5á mediates an event or …

Functional Importance Of Oxidative Post-Translational Modifications Of Ryanodine Receptor In Cardiac Sarcoplasmic Reticulum Ca2+ Handling During Oxidative Stress, Stefan R. Mazurek

Dissertations

Free ionic calcium (Ca2+) plays an essential role as a second messenger that initiates muscle contraction in the heart. Ryanodine receptor (RyR2) acts as the primary Sarcoplasmic Reticulum (SR) Ca2+ release channel in the heart. In the event that intracellular SR Ca2+ handling is compromised, both the contractility and electrical excitability of the heart can be altered. As a consequence, heart function may not be able to maintain the necessary cardiac output to meet the metabolic demand of the body.

Increased oxidation of RyR2 has been implicated in abnormal Ca2+ handling that promotes the onset and progression of cardiovascular disease. …

Multifunctional Coronavirus Papain-Like Proteases As Targets For Antiviral Therapeutics And Vaccines, Anna Maria Mielech

Dissertations

Severe Acute Respiratory Syndrome coronavirus (SARS-CoV) and Middle Ease Respiratory Syndrome coronavirus (MERS-CoV) pose a severe threat to humans because of high mortality. Despite the risk of coronavirus (CoV) emerging in the human population there are no antiviral drugs or vaccines to combat coronavirus infection. The focus of my dissertation was to study the multifunctionality of papain-like proteases (PLPs) encoded within coronavirus genomes to facilitate the development of antiviral drugs and vaccines. The viral PLPs are critical for processing the amino-terminal end of the replicase during virus replication and are attractive targets for antiviral therapies.

In my research, I analyzed …

The Dape-Encoded N-Succinyl-L,L-Diaminopimelic Acid Desuccinylase (Dape) From Haemophilus Influenzae As A Prospective Target For The Development Of Novel Antibiotics, Anna Starus

Dissertations

The rapid emergence of bacteria that are resistant to todayfs antibiotics makes them more and more ineffective. Consequently, the need for a novel class of antibacterial agents is rapidly increasing. The importance of this project is emphasized by the emergence of several pathogenic bacterial strains that are resistant to all currently available antibiotics on the market today. One way to approach this problem is to develop drugs that target essential bacterial biosynthetic pathways. Based on bacterial genetic information, the meso]diaminopimelate (mDAP)/lysine biosynthetic pathway offers several potential anti]bacterial targets that have not been yet explored. One of these, the dapE-encoded N-succinyl-L,L-diaminopimelic …