Cellular Mechanisms by which Alcohol Promotes HIV Protease Inhibitor-induced Hepatotoxicity

Hinton, Michael

01 January 2019

CELLULAR MECHANISMS BY WHICH ALCOHOL PROMOTES HIV PROTEASE INHIBITOR-INDUCED HEPATOTOXICITY Michael Hinton, B.S. A dissertation submitted in partial fulfillment of the requirements for the degree of Doctor of Philosophy at Virginia Commonwealth University Virginia Commonwealth University, 2019 Major Director: Huiping Zhou Professor, Department of Microbiology and Immunology The development of highly-active-antiretroviral therapy(HAART) has allowed management of HIV and extended the lives of those infected. Alcohol abuse, which is very common in HIV-1 infected patients, is one of the most important co-morbid risk factors for liver injury and has been associated with the occurrence of serious metabolic syndrome and subsequent discontinuation of HAART in HIV patients. We have identified endoplasmic reticulum (ER) stress-induced proapoptotic factor CCAAT-element-binding protein homologous protein (CHOP) as an important mechanism underlying HIV PI-induced inflammation and hepatic lipotoxicity. However, little is known about the mechanistic pathways by which alcohol promotes HIV PI-induced hepatic lipotoxicity. The aim of this study was to determine if inhibition of CHOP expression prevents alcohol- and HIV PI-induced apoptosis and dysregulation of lipid metabolism. We demonstrated that co-administration of alcohol and HIV PIs induced unfolded protein response (UPR) activation, ER stress, and CHOP upregulation in rodent hepatocytes. Both alcohol and HIV PI-induced lipid accumulation and apoptosis were significantly reduced in CHOP-/- hepatocytes. Also, CHOP-/- hepatocytes treated with alcohol and HIV PIs showed inflammation.. Activation of the ER stress-induced proapoptotic factor CHOP is a key cellular mechanism underlying alcohol and HIV PI-induced hepatotoxicity. CHOP expression is key for alcohol and HIV PI-induced dysregulation of key genes involved in lipid metabolism in hepatocytes. Limitations of the study include the usage of global CHOP-/- in lieu of tissue-specific conditional knockout mouse models, nonobservance of the effects of alcohol and HIV PIs on extra-hepatic tissues, and incomplete investigation of the interplay of hepatocytes and resident macrophages.

HIV

Protease Inhibitor

ER Stress

Alcohol

hepatic lipotoxicity

Unfolded Protein Response UPR

Biochemistry

Molecular Biology

Virus Diseases

The Unfolded Protein Response and its interplay with the MAPK-mediated pheromone response pathway in Ustilago maydis

Schmitz, Lara

11 July 2019

No description available.

570

Ustilago maydis

Unfolded Protein Response (UPR)

MAPK

phosphatase

mating type signaling

conditional gene expression

pathogenicity

pathogenic development

Biologie (PPN619462639)

Proteostasis Maintenance of γ-aminobutyric Acid Type A Receptors (GABAARs)

Fu, Yanlin

23 May 2019

No description available.

Physiology

Biophysics

ER-Stress and Senescence Coordinately Promote Endothelial Barrier Dysfunction in Diabetes-Induced Atherosclerosis

Fatima, Sameen, Ambreen, Saira, Mathew, Akash, Elwakiel, Ahmed, Gupta, Anubhuti, Singh, Kunal, Krishnan, Shruthi, Rana, Rajiv, Khawaja, Hamzah, Gupta, Dheerendra, Manoharan, Jayakumar, Besler, Christian, Laufs, Ulrich, Kohli, Shrey, Isermann, Berend, Shahzad, Khurrum

02 November 2023

Diabetes mellitus is hallmarked by accelerated atherosclerosis, a major cause of mortality among patients with diabetes. Efficient therapies for diabetes-associated atherosclerosis are absent. Accelerated atherosclerosis in diabetic patients is associated with reduced endothelial thrombomodulin (TM) expression and impaired activated protein C (aPC) generation. Here, we directly compared the effects of high glucose and oxidized LDL, revealing that high glucose induced more pronounced responses in regard to maladaptive unfolded protein response (UPR), senescence, and vascular endothelial cell barrier disruption. Ex vivo, diabetic ApoE mice displayed increased levels of senescence and UPR markers within atherosclerotic lesions compared with nondiabetic ApoE mice. Activated protein C pretreatment maintained barrier permeability and prevented glucose-induced expression of senescence and UPR markers in vitro. These data suggest that high glucose-induced maladaptive UPR and associated senescence promote vascular endothelial cell dysfunction, which—however—can be reversed by aPC. Taken together, current data suggest that reversal of glucose-induced vascular endothelial cell dysfunction is feasible.

info:eu-repo/classification/ddc/610

ddc:610

Unfolding the Link Between the Axon Initial Segment, Endoplasmic Reticulum Stress, and Cognitive Impairment in Type 2 Diabetes

Shelby, Jennae

02 June 2023

No description available.

Neurosciences

Neurology

axon initial segment

endoplasmic reticulum stress

methylglyoxal

unfolded protein response

cognitive impairment

type 2 diabetes

Immunological Consequences of HLA-B27 Misfolding: Implications for Spondyloarthropathy Pathogenesis

Turner, Matthew Joseph

08 October 2007

No description available.

HLA-B27

Unfolded Protein Response

Misfolding

Disulfide-linked

Spondyloarthropathy

Spondyloarthritis

ER-stress

Macrophage

UPR-TLR synergy

XBP-1

Endoplasmic Reticulum Stress and the Unfolded Protein Response Result in Synergistic Upregulation of Interleukin-23 and Interleukin-12 by LPS

Klenk, Erin Ingersoll

January 2009

No description available.

Biomedical Research

Cellular Biology

Immunology

Interleukin-23

Interleukin-12

HLA-B27

Unfolded Protein Response

UPR

ER stress

Identification of early stress in a zebrafish model of familial ALS

Adams, Leslie Allen

17 December 2013

No description available.

Neurosciences

Pathology

ALS

UPR

Unfolded Protein Response

zebrafish

endoplasmic reticulum

motor neurons

quantitative PCR

ER stress

neurodegeneration

Secretory Homeostasis and Fungal Pathogenesis: Characterization of the Contribution of Calnexin, SrgA, and the IreA Kinase to the Growth and Virulence of Aspergillus fumigatus

Powers-Fletcher, Margaret MV

16 September 2013

No description available.

Microbiology

Aspergillus fumigatus

invasive aspergillosis

secretory homeostasis

vesicle transport, sec4 srgA

unfolded protein response UPR

Iminosugars as dengue virus therapeutics : molecular mechanisms of action of a drug entering clinical trials

Sayce, Andrew Cameron

January 2014

Iminosugars are a class of small molecules defined by substitution of a sugar’s ring oxygen with nitrogen. Various chemical modifications of these basic structures (e.g. alkyl chain addition off of the ring nitrogen) have been developed during the last several decades. These molecules have been considered as therapeutics for a number of pathologies including viral infection, congenital disorders of glycosylation (of both glycoproteins and glycolipids), and diabetes. This thesis focuses on the application of a small subset of iminosugars, known as deoxynojirimycin derivatives, as therapeutics against dengue virus induced pathology. Dengue virus infection predominates in tropical climates, but autochthonous infection has recently emerged in areas of both southern Europe and the southern United States. With 390 million people infected annually, dengue is the most prevalent arthropod-borne viral infection worldwide, and the possibility of severe pathology including haemorrhage, shock, and/or death, necessitates development of effective antiviral therapies. Although the molecular mechanisms responsible for progression to severe dengue disease are not completely understood, there is considerable evidence for the role of both the innate and the adaptive immune responses in development of life-threatening complications. Excessive activation of the innate immune response, a phenomenon known as cytokine storm, has been hypothesised to explain development of symptoms related to vascular permeability, whereas the adaptive immune response has been implicated in severe disease through two hypotheses – the antibody dependent enhancement and original antigenic sin hypotheses. The evidence regarding each of these potential mechanisms of severe pathology is discussed throughout this thesis principally with respect to how iminosugar treatment could alter any detrimental effects of the immune response to dengue virus infection. The principal aim of this thesis is to consider the potential of deoxynojirimycin iminosugars as antiviral therapeutics in dengue infection with a focus on how these molecules exert their antiviral effects in primary human cells. I first consider the contributions of glycoprotein inhibition and glycolipid inhibition on production of infectious dengue virus. These experiments suggest that inhibition of glycoprotein folding is responsible for inhibition of infectious dengue virus production. I next consider the impact of treatment of a promising clinical candidate iminosugar, N9-methoxynonyl-deoxynojirimycin (MON-DNJ), on the primary human macrophage transcriptome. In uninfected macrophages as well as macrophages infected with dengue virus or treated with lipopolysaccharide to model bacterial sepsis, iminosugar treatment results in activation of the unfolded protein response and inhibition of several elements of the inflammatory response including signalling by the cytokines IFN-γ and TNF-α, and the inflammatory cascade mediated by NF-κB. Activation of the unfolded protein response as a result of treatment with MON-DNJ can be confirmed by analysis of phosphorylated (activated) NFE2L2, a transcription factor that functions principally to control oxidative stress in response to ER stress signals. Modulation of the inflammatory response of macrophages to dengue infection and bacterial sepsis is confirmed by analysis of secreted cytokines. As predicted by my transcriptomic experiments, levels of TNF-α and IFN-γ produced in response to dengue or lipopolysaccharide are reduced by treatment with MON-DNJ. Finally, I attempted to extend these observations to an animal model of dengue infection with a particular focus on TNF receptor and ligand superfamily members. Unfortunately, heterogeneity of cells types from tissue samples as well as limitations of the animal model complicate interpretation of these findings. Nevertheless, this thesis demonstrates that MON-DNJ is an effective dengue antiviral therapeutic and that this therapeutic activity may be related to both reduction of infectious virus as a consequence of inhibition of glycoprotein processing and as a result of changes to the host’s response to the pathogen. These results have been used in part to justify recently initiated clinical trials of MON-DNJ as a dengue antiviral therapy.

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