Biosynthesis of medium chain fatty acids by cell free fractions in adenocarcinomas and normal mouse mammary tissue

Kendra, Albert

03 June 2011

Ball State University LibrariesLibrary services and resources for knowledge buildingMasters ThesesThere is no abstract available for this thesis.

Fatty acids -- Synthesis.

Thioesterase II.

Ball State University. Thesis (M.S.)

Gene Delivery of Rat Thioesterase II in Hepatocytes

Lin, Hsiu-Chu

31 July 2003

Obesity is a disorder of energy imbalance and the most prevalent nutritional diseases in developed countries. Besides, obesity is also strongly associated with health problems such as type 2 diabetes (NIDDM), hypertension, hyperlipidaemia, cardiovascular diseases and cancers. However, the defects in lipid metabolism underlying obesity-related disorders are extremely complicated. Thus, extensive studies on the mechanism of endogenous fatty acids synthesis would be one of the keys to elucidate molecular pathogenesis of obesity. In liver or adipose, fatty acid synthase (FAS) utilizes acetyl-CoA, malonyl-CoA and NADPH to synthesize long-chain fatty acids (C16 or C18), which can be converted to triglycerides and stored as fat. During lactation, thioesterase II (TE II) expresses in mammary glands and interacts with FAS to produce medium-chain fatty acid (primarily C10) in milk, which provides immune protection and energy for the newborn. TE II causes premature termination of fatty acid synthesis catalyzed by FAS and releases medium-chain fatty acids. Unlike long-chain fatty acids, medium-chain fatty acids can enter mitochondria directly for beta-oxidation to generate ATP, thus provide energy more efficiently. Since TE II gene expression is under strict regulation, we utilized adenovirus gene transfer techniques to deliver and express TE II in hepatocytes. It was postulated that expression of TE II in hepatocytes might result in the increase of ATP and reduction of long-chain fatty acids, subsequently decrease the fat production. Recombinant adenovirus was used as gene delivery system for TE II because of its high titer, wide host range, and transduction efficiency. In the present study, we have generated and characterized the recombinant Ad-TE II by PCR, western blot analysis, and enzymatic assay, respectively. By using Ad-GFP, we have determined the optimal multiplicity of infection (MOI) for adenovirus to infect HepG2 cells is about 100-200. Adenovirus-mediated TE II expression in hepatocytes was demonstrated by western blot as well as TE II enzymatic assay. We have demonstrated that the adenovirus-mediated TE II expression was slightly cytotoxic to hepatocytes. Besides, an increase of free fatty acids, asparate transaminase, lactate dehydrogenase levels, as well as ATP synthesis was also noted in the TE II-expressed hepatocytes. The enhanced the release of asparate transaminase (AST/GOT) and lactate dehydrogenase (LDH) after TE II expression in the hepatocytes further supported its cytotoxcity to hepatocytes. In the future, we will carry out experiments to further characterize the effects of TE II expression on cellular lipid metabolism through adenovirus gene delivery. We hope that the present studies will not only provide further insights into mammalian lipid metabolism, but also enable us to evaluate the therapeutic potential of TE II on the treatment of obesity and its related disorders.

gene therapy

thioesterase II

adenovirus

obesity

fatty acid synthase