> *Dissertation Defense Announcement
> To: The George Mason University Community*
>
> *Candidate: Sandra J. Page
> Program: PhD Biosciences
> *
> *Date: Monday August 29, 2011
> Time: 2:00 p.m.
> Place: George Mason University
> ** Discovery Hall Auditorium
> Prince William campus <http://www.gmu.edu/resources/visitors/findex.html>
>
> *Dissertation Chair: Dr. Ancha Baranova
> Committee members: Dr. Emanuel Petricoin III, Dr. James D. Willett, Dr. Gregory Foster
> *
> Title: **"Novel Biomarkers for Non-Alcoholic Fatty Liver Disease
> and Associated Symptoms"
>
> *The dissertation is on reserve in the Johnson Center Library, Fairfax campus.
> The doctoral project will not be read at the meeting, but should be read in advance.
> /**/
> *All members of the George Mason University community are invited to attend.*
>
>
> *ABSTRACT: *
>
>
> Obesity is on the rise in populations across the world, and represents
> a major health concern. It is a component of Metabolic Syndrome, a
> collection of risk factors that predispose to diabetes and
> cardiovascular disease. Metabolic Syndrome is often accompanied by
> non-alcoholic fatty liver disease (NAFLD), a spectrum of liver disease
> ranging from simple steatosis, to non-alcoholic steatohepatitis (NASH)
> and liver fibrosis. Currently, the gold standard for NASH and liver
> fibrosis diagnostics is liver biopsy; thus, a non-invasive procedure
> for detecting and staging NAFLD is greatly needed. The dissertation
> work to be presented involved evaluating various kinds of serum-based,
> soluble molecules as biomarkers of NASH, NASH-related fibrosis, or its
> associated symptoms. In the first study, a biomarker panel for NASH
> and NASH-related fibrosis was developed by screening several proteins
> previously associated with liver disease but never tested in
> combination; these included hormones derived from adipose tissue
> (adipokines) and proteins involved in fibrogenesis and cell death. The
> resulting panel outperformed previously reported biomarkers of NASH
> and hepatic fibrosis, and it is anticipated that subsequent testing of
> this panel on larger populations of NAFLD patients will ultimately
> support its use in clinical settings.
>
> A second study was conducted with the goal of discovering
> novel, as-of-yet untested biomarkers of NASH and NASH-related fibrosis
> that may be tied to the deregulation of cell signaling pathways in
> adipose tissue. A previous study using a phosphoproteomic approach
> showed that several kinase-driven pathways were deregulated in the
> adipose tissue of patients with NASH and NASH-related fibrosis.
> Enrichment analysis on this data set showed that these pathways were
> linked to the regulation of cell functions by insulin. A subsequent
> pathway analysis was then conducted to identify a set of secreted,
> soluble proteins associated with these pathways. From this analysis
> two promising candidates were selected based on extensive literature
> searches; these were the chemokine CCL-2/MCP-1, and soluble Fas
> ligand. These candidates were then tested on a small cohort of
> patients with NASH and NASH-related fibrosis to determine if they had
> the potential to be diagnostically predictive, and it was discovered
> that both worked reasonably well as biomarkers of fibrosis.
> Consequently, these molecules may be released at abnormal levels by
> adipose tissue in patients with NAFLD and may in turn play a role in
> fibrogenesis associated with NASH; they would therefore be good
> candidates to test in future development of biomarker panels for
> NASH-related fibrosis.
>
> A third study was undertaken to evaluate the association
> between levels of various soluble molecules and fatigue in patients
> with NAFLD or hepatitis C. Specifically, we correlated self-reported
> assessments of fatigue dissecting this condition into fatigue
> associated with physical activity (peripheral fatigue) or more global
> lack of energy and motivation (central fatigue) with measures of
> inflammation, or with abnormalities of glucose and lipid metabolism.
> The study demonstrated that a substantial majority of patients with
> chronic liver disease report significant peripheral fatigue. This type
> of fatigue was linked to elevated serum levels of IL-6 and IL-8,
> linking it to an inflammatory component, which is not the case for
> central fatigue.
>
> ###
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