Factors affecting the waterfowl hunter utilization and the waterfowl kill at the Bear River Migratory Bird Refuge, 1960 - 1961

Goddard, Stephen V.

January 1900

Thesis (M.S.)--Utah State University, 1962. / Title from title screen (viewed Aug. 12, 2009). Department: [Biology]. Includes bibliographical references. Archival copy available in print.

Overwinter mortality of trout in Temple Fork of the Logan River

Cerven, Daniel Richard,

January 1900

Thesis (M.S.)--Utah State University, 1973. / Title from title screen (viewed Aug. 13, 2009). Department: Wildlife Resources. Includes vita. Includes bibliographical references. Archival copy available in print.

Trout

Food availability and selective utilization by juvenile mallards (Anas platyrhynchos platyrhynchos L.) on the Bear River Migratory Bird Refuge

Chura, Nicholas J.

January 1900

Thesis (Ph.D)--Utah State University, 1962. / Title from title screen (viewed Aug. 14, 2009). Department: Wildlife Management. Includes bibliographical references. Archival copy available in print.

Mallard

The suitability of Newton Reservoir to be either a coldwater or a warmwater fishery

Johnson, Jeffrey H.

January 1900

Thesis (M.S.)--Utah State University, 1971. / Title from title screen (viewed Aug. 14, 2009). Department: Wildlife Resources. Includes vita. Includes bibliographical references. Archival copy available in print.

Reproductive biology of the coyote (Canis latrans) integration of behavior and physiology /

Carlson, Debra A.

January 1900

Thesis (Ph.D)--Utah State University, 2008. / Includes vita. Title from title screen (viewed Dec. 18, 2008). Department: Wildland Resources. Includes bibliographical references. Archival copy available in print.

Coyote Coyote

Snowshoe hare and frost structure relationships in western Wyoming

Berg, Nathan Daniel

January 1900

Thesis (M.S.)--Utah State University, 2009. / Title from title screen (viewed April 28, 2010). Department: Wildland Sciences. Includes bibliographical references. Archival copy available in print.

THE ROLE OF MAPK P38 STRESS PATHWAY-INDUCED CELLULAR TRANSLATION IN HUMAN AND MACAQUE CELLS TARGETED DURING B VIRUS INFECTION

Cook, Morgan

09 May 2016

Herpes B virus, otherwise known as Macacine herpesvirus 1, is a member of the family Herpesviridae, subfamily Alphaherpesvirinae, genus Simplex, and is closely related to human herpes simplex viruses 1 and 2 (HSV1 and HSV2). B virus is endemic in macaque monkeys, but is capable of zoonotic transmission to humans resulting in fatality in greater than 80% of untreated cases. The goal of our lab is to understand the disparity in the outcome of infection between the natural host- macaques and the foreign host- humans. An important barrier to progress is the lack of understanding of host cell: B virus interactions in response to infection. An important pathway activated by stress, known as the mitogen activated protein kinase (MAPK) p38 pathway, is activated by B virus infection. Of particular interest is its role in regulating cellular translation via stimulation of activation of the eukaryotic initiation factor 4E (eIF4E). The activation of eIF4E is a vital rate-limiting step in translation, which can be manipulated by a variety of viruses. For example HSV1 can activate eIF4E through the p38 pathway but in the absence of this pathway eIF4E activity and viral titers are decreased. Because of the effect HSV1 has on the p38 pathway, and because B virus is a close relative of HSV1, we hypothesized that B virus also utilizes the p38 pathway to activate eIF4E in a host-dependent manner. In this dissertation, we show that the role of MAPK p38 with regard to translation is crucial to cellular processes that reduce virus replication in natural host cells, but within human cells this stress pathway appears not to play a role in reducing B virus replication. Data generated for this dissertation suggest that the p38 pathway is responsible in part for controlling the virus infection and spread within the natural host, but does not dampen virus replication in human host cells encountering the virus. Taken together, our results suggest that this pathway has at least one host-specific defense to combat B virus infection and that both cellular and viral proteins require the presence or absence of this pathway to function.

Herpesvirus

eIF4E

Protein translation

Virus replication

ICP6

Us3

The Effects Of Environmental Pollutants On Adipogenesis In The 3T3-L1 Model

Wang, Jing

17 December 2015

Humans are continuously exposed to mixtures of environmental pollutants. Polycyclic aromatic hydrocarbons (PAHs), such as 2-naphthol, and heavy metals, such as lead, are some of these pollutants. Results from epidemiological studies show associations between exposure to 2-naphthol, exposure to lead, and obesity. However, the individual and combined effects of 2-naphthol and lead on fat cell development (adipogenesis) have not been directly characterized in a biological system. In this study, we evaluated the effects of 2-naphthol and/or lead on adipogenesis using mouse 3T3-L1 cells. Cells were exposed to different doses of 2-naphthol and/or lead. Induced terminal differentiation was evaluated by cell morphology, lipid production, and mRNA expression of marker genes characteristic of either early adipocyte differentiation: CCAAT-enhancer-binding protein β (C/EBPβ), insulin receptor substrate 2 (IRS2), and sterol responsive element binding protein 1 c (SREBP1c); or terminal differentiation: C/EBPα, peroxisome proliferator-activated receptor-γ (PPARγ), and fatty acid binding protein 4 (aP2). Production of antimicrobial peptide cathelicidin (Camp), which is produced by differentiating adipocytes and modulates inflammation and immunity, was also evaluated. Cell morphology changes and increased lipid accumulation indicated that, individually, 2-naphthol and lead induced 3T3-L1 differentiation; however, the highest dose of lead (10 μM) showed the lowest induction level. During terminal differentiation, 2-naphthol and low doses of lead increased C/EBPα, PPARγ, and aP2 expression, whereas 10 μM lead suppressed PPARγ and aP2. During early differentiation, 2-naphthol stimulated C/EBPβ, IRS2, and SREBP1c expression, while lead upregulated C/EBPα and aP2. The 2-naphthol/10 μM lead mixture induced a counterbalancing effect on 3T3-L1 adipogenesis, where 10 μM lead suppressed 2-naphthol-induced adipogenesis. Moreover, 2-naphthol elevated Camp expression in a dose-dependent manner, whereas lead slightly increased Camp at lower doses but suppressed it at 10 μM. The 2-naphthol/10 μM lead mixture showed no effect on Camp expression. In conclusion, 2-naphthol and low lead doses accelerate adipocyte differentiation and Camp production in 3T3-L1 cells; however, high doses of lead attenuate the induction. This effect of lead at high dose counterbalances the upregulation of adipocyte differentiation and Camp production by 2-naphthol. Together, these findings indicate that 2-naphthol and lead play potential roles in the development of inflammation and obesity.

Polycyclic aromatic hydrocarbon

Heavy metal

Adipocyte differentiation

Antimicrobial peptide

Role of 26S Proteasome and Regulator of G-Protein Signaling 10 in Regulating Neuroinflammation in the Central Nervous System

Maganti, Nagini

17 December 2015

Major histocompatibility complex molecules (MHCII) are cell surface glycoproteins that present extracellular antigens to CD4+ T lymphocytes and initiate adaptive immune responses. Apart from their protective role, overexpression of MHCII contributes to autoimmune disorders where the immune system attacks our own tissues. Autoimmune diseases are characterized by self-reactive responses to autoantigens, promoting tissue damage, inflammation mediated by proinflammatory cytokines, autoreactive lymphocytes, and autoantibodies. MHCII molecules are tightly regulated at the level of transcription by Class II transactivator (CIITA). CIITA associates with an enhanceosome complex at MHCII promoters and regulates the expression of MHCII. It is thus crucial to understand the regulation of CIITA expression in order to regulate MHCII in autoimmune diseases. Our lab has shown that the 19S ATPases of the 26S proteasome associate with MHCII and CIITA promoters and play important roles in gene transcription, regulate covalent modifications to histones, and are involved in the assembly of activator complexes in mammalian cells. The mechanisms by which the proteasome influences transcription remain unclear. Here, we define novel roles of the 19S ATPases Sug1, S7, and S6a in expression of CIITApIV genes. These ATPases are recruited to CIITApIV promoters and coding regions, interact with the elongation factor PTEFb, and with Ser5 phosphorylated RNA Pol II. Both the generation of CIITApIV transcripts and efficient recruitment of RNA Pol II to CIITApIV are negatively impacted by knockdown of 19S ATPases. Alternatively, inflammation is also suppressed via the Regulator of G-protein signaling 10 (RGS10) in microglial cells which express high levels of RGS10 and promote homeostasis in the central nervous system. However, chronic activation of microglial cells leads to release of cytokines which cause neuroinflammation. Our investigation of roles played by RGS10 in chronically activated microglial cells indicates that RGS10 binds to promoters of IL-1β, and TNF-α and regulates these genes, while the molecular mechanism remains to be investigated. Together, our observations indicate roles for the UPS in modulating gene expression and for RGS10 in regulating proinflammatory cytokines in microglial cells, each of which provides novel therapeutic targets to combat inflammation in autoimmune and neurodegenerative diseases.

Class II transactivator promoter IV

26S Proteasome

Ubiquitin Proteasome System

19S ATPases Sug1

S7

S6a

Central Nervous System

Neuroinflammation

Modeling neuropathogenesis of B virus infection in the macaque ganglia

LeCher, Julia

09 May 2016

B virus is an alphaherpesvirus, endemic to macaque monkeys, capable of deadly human zoonosis with an 80% mortality rate in untreated cases. The macaque monkey is widely used in biomedical research and the threat of B virus poses an occupational hazard to researchers, veterinarians, and animal handlers. B virus establishes a life-long latent infection in sensory neurons of the peripheral nervous system (PNS) in the natural host. In human infections, B virus readily transits to the central nervous system (CNS) and destroys brain tissues. Identifying immune correlates of B virus infection in the PNS of the natural host is critical in understanding viral lethality in the human host. The lack of an accurate animal model and restrictions on handling potentially infected nervous tissue previously limited studies of B virus infection in macaque ganglia. To address this barrier, a long-lived mixed neuron/glia cell culture model was established from macaque DRG explants using a novel methodology that relied on cellular migration from whole tissues. Utilizing this model, the hypothesis tested was that acute B virus infection of macaque ganglia triggers cellular defense networks to promote leukocyte recruitment and impact leukocyte activation. Chemokines were upregulated in B virus-infected cultures and infected cell media induced leukocyte chemotaxis. Leukocytes were less effectively activated by media from infected cells when compared to media from mock-infected cells. To identify factors responsible for this, focused microarrays were performed and cytokine profiles were quantified from B virus and mock-infected culture supernatants. IL-6 protein levels were significantly reduced in B virus infected cultures. This observation led to the hypothesis that IL-6 downregulation impairs leukocyte activation and, indeed, when IL-6 was added to B virus-infected culture supernatants to control levels, these cultures were far more effective at eliciting leukocyte activation when compared with mock-infected cultures. Collectively, these data support the hypothesis that acute B virus infection of macaque ganglia triggers cellular defense networks to promote leukocyte recruitment and impact leukocyte activation and identifies a potential viral mechanism to impair leukocyte functionality. Additionally, this work presents a novel methodology for establishing long-lived mixed neuron/glia cultures from postnatal/adult macaque DRGs.

Herpes B virus

Macaque monkey

Neurovirology

DRG

Neuron/glia cell culture

IL-6