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The Effects of Metabolic Perturbations on Fatty Acid Transport Protein Cellular Location

Fatty acid (FA) transport proteins are important regulators of FA uptake at the cell surface and the mitochondria where they are oxidized. Tight regulation of this process is necessary in order to meet metabolic requirements, while preventing excess lipid accumulation. In an obese state, there is an increase in FA uptake and increased storage of lipids in skeletal muscle, including diacylglycerol (DAG) and ceramides, which interfere with insulin-stimulated glucose uptake. Leptin administration has been shown to reduce muscle triacylglycerol accumulation and restore insulin response in obese rodents. However, it is not known whether this is mediated through a redistribution of the FA transport proteins to the cell surface and mitochondria. In addition to hyperglycemia, post-prandial lipidemia is also observed in the obese state, suggesting a resistance to insulin-stimulated FA uptake. The possibility that insulin-stimulated FA transporter translocation is impaired has received little attention. Lastly, while recent studies have demonstrated that the transverse (t)-tubules may be an important site for glucose uptake in muscle, this has not yet been examined with regards to the FA transporters.
In the first study of this thesis, the recovery of insulin response with short-term (2 week) chronic leptin administration in high-fat fed rats was associated with a decrease in muscle reactive lipid species (DAG, ceramide) and an increase in markers of oxidative capacity. Contrary to our expectations, this was not mirrored by an alteration in the distribution of FA transport proteins (FAT/CD36 or FABPpm) at the sarcolemma or the two major mitochondrial populations. To gain further insight into FA transporters and their localization at the cell surface, the second study of this thesis analyzed both the sarcolemma and t-tubules (constitute 40 and 60% of the cell surface, respectively). The novel observation was made that the t-tubules contain FA transport proteins (FAT/CD36, FABPpm, FATP1 and FATP4), and that the distribution and response of these transporters to acute metabolic stimuli (insulin and muscle contraction) was unique from that of the sarcolemma. The third study of this thesis characterized the translocation of FA transport proteins in response to insulin in the obese, insulin resistant Zucker rat. FA transport proteins were chronically increased on both membrane fractions in muscle from the obese rats. Furthermore, a blunting of the insulin-induced translocation of FA transporters to both cell surface domains was observed, demonstrating that insulin resistance extends to the movement of FA as well as glucose transport proteins. The t-tubules appear to play an important role regarding substrate uptake.
Together the data from this thesis suggests that a chronic elevation in FA transporters at both cell surface domains contributes to lipid accumulation in obese skeletal muscle, and that reduced sensitivity of both FA and glucose transport proteins to translocate in response to insulin may explain the lipidemia and hyperglycemia that often characterizes post-prandial situations in the obese condition. As the prevalence of obesity reaches epidemic proportions, research into the functional role of FA transport proteins in the progression of obesity related pathologies is warranted as we work to further our knowledge of this significant health issue. / Natural Sciences and Engineering Research Council, Canadian Institute of Health Research

Identiferoai:union.ndltd.org:LACETR/oai:collectionscanada.gc.ca:OGU.10214/3888
Date29 August 2012
CreatorsStefanyk, Leslie Elizabeth
ContributorsDyck, David J
Source SetsLibrary and Archives Canada ETDs Repository / Centre d'archives des thèses électroniques de Bibliothèque et Archives Canada
LanguageEnglish
Detected LanguageEnglish
TypeThesis

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