The liver is the body's metabolic center that converts food into chemicals required for life and synthesizes countless compounds that are released into the circulation for use by other organs. The liver is also the major detoxifying center, ridding the body of xenobiotics and endogenous waster products. Most of these functions are carried out in hepatocytes, the major epithelial cell of the liver. These cells form a barrier between the internal and external environments by cementing themselves together by the formation of tight junctions that restrict distinct activities to specific plasma membrane (PM) domains: the basolateral and apical. The basolateral surface faces the blood (the internal environment) whereas the apical surface faces the bile (the external environment), the complex molecular """"""""soap"""""""" that helps in absorption of dietary fats and waste removal. The functional asymmetry (or polarity) is mirrored by the asymmetrical distribution of PM proteins; each domain is characterized by distinct subsets of proteins. Because proper liver function depends on hepatocyte polarity, this proposal asks how is polarity established and maintained? The answer, in part, comes from understanding polarized membrane trafficking. Our focus is to identify regulators of hepatic apical protein delivery. Unlike simple epithelial cells that directly target newly synthesized proteins from the TGN to the apical PM, hepatocytes mainly use an indirect pathway where apical proteins are first delivered to the basolateral PM, retrieved by endocytosis and then transcytosed to the apical surface. We determined that hepatic transcytotic sorting requires cholesterol and glycosphingolipids. Because MAL2 (myelin and lymphocyte protein 2) was identified as a regulator of transcytosis and because its activity requires cholesterol and glycosphingolipids, we have been examining how MAL2 functions in apical delivery. For these studies, WIF-B cells will be used. This cell line is an excellent polarized, hepatic model system.
Aim 1 is aimed at identifying what steps in the indirect pathway are under the regulation of MAL2.
Aim 2 examines what structural features of MAL2 are important and asks whether the cytoplasmic N- and C-termini are required for function.
Aim 3 seeks to identify new and characterize known MAL2 binding proteins that collaborate in regulating apical protein trafficking.
In Aims 3 A and B, studies are proposed to characterize interactions between MAL2 and a known interactor, tumor protein D52.
In Aim 3 C, experiments are described that will identify new binding partners using the split-ubiquitin yeast two-hybrid system. Because our WIF-B cells are a great polarized, hepatic model system and because we have many important tools and reagents, we are well- poised to perform these experiments and hope to provide fundamental advances in our understanding of apical protein targeting.
Understanding epithelial cells and epithelial cell processes is fundamental to biomedical science. Epithelial tissue accounts for approximately 50% of total cell mass in humans and greater than 80% of all human cancers are epithelial in origin. Cancerous cells are characterized by a loss of epithelial cell polarity such that understanding how polarity is established and maintained is of major biomedical importance.
|Striz, Anneliese C; Tuma, Pamela L (2016) The GTP-bound and Sumoylated Form of the rab17 Small Molecular Weight GTPase Selectively Binds Syntaxin 2 in Polarized Hepatic WIF-B Cells. J Biol Chem 291:9721-32|
|Tuma, Pamela L (2016) A Researcher at an AREA Grant-Eligible Institution. Cell Mol Gastroenterol Hepatol 2:260-262|
|In, Julie G; Striz, Anneliese C; Bernad, Antonio et al. (2014) Serine/threonine kinase 16 and MAL2 regulate constitutive secretion of soluble cargo in hepatic cells. Biochem J 463:201-13|
|Weis, Victoria G; Petersen, Christine P; Mills, Jason C et al. (2014) Establishment of novel in vitro mouse chief cell and SPEM cultures identifies MAL2 as a marker of metaplasia in the stomach. Am J Physiol Gastrointest Liver Physiol 307:G777-92|
|In, Julie G; Ihrke, Gudrun; Tuma, Pamela L (2012) Analysis of polarized membrane traffic in hepatocytes and hepatic cell lines. Curr Protoc Cell Biol Chapter 15:Unit 15.17|
|Ramnarayanan, Sai P; Tuma, Pamela L (2011) MAL, but not MAL2, expression promotes the formation of cholesterol-dependent membrane domains that recruit apical proteins. Biochem J 439:497-504|
|In, Julie G; Tuma, Pamela L (2010) MAL2 selectively regulates polymeric IgA receptor delivery from the Golgi to the plasma membrane in WIF-B cells. Traffic 11:1056-66|