Dissertation Defense Announcement
To: The George Mason University Community
Candidate: Rohini Mehta
Program: PhD Biosciences
Date: Tuesday March 26, 2013
Time: 10:00 a.m.
Place: George Mason University
Prince William Campus
Bull Run Hall, Room 253
Committee Chair: Dr. Ancha Baranova
Committee members: Dr. Alan Christensen, Dr.
Patrick Gillevet, Dr. Soren Mogelsvang
Title: "A Role of Visceral Adipose and Gastric Tissue in
Inflammatory Conditions Associated with Metabolic Syndrome"
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 has reached epidemic proportions globally. Obesity is
accompanied by co-morbidities affecting multiple peripheral tissues.
Obesity associated non-alcoholic fatty liver disease (NAFLD) is the
leading cause of chronic liver disease in the US. The molecular
mechanisms underlying the development and the progression of NAFLD,
however, remain poorly understood. Stomach is an important endocrine
organ that produces a number of bioactive peptides with important roles
in the metabolism of energy. Stomach is located in the vicinity of the
liver, but so far it has been largely neglected as an organ with
potentially important role in obesity and associated NAFLD. This study
provides the evidence for the contribution of the stomach-specific
expression changes in a number of molecules previously implicated in
inflammation and energy homeostasis to the pathogenesis of
obesity-associated NAFLD.
White adipose tissue (WAT) represents the majority of adipose tissue in
humans, is the main fat storage organ. In contrast, brown adipose
tissue (BAT) has a unique ability to spend energy through producing
heat in mitochondrial “uncoupling”. The facultative nature of BAT
activity and its distribution within WAT depots complicate the
detection of BAT in adult humans. In this study, the expression of
genes involved in transcriptional regulation of brown
adipocyte-specific UCP1 gene and BAT differentiation was assessed as
quantitative indicator of BAT activity in adipose of adult humans.
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