Abstract

The objective of this proposal is to study the biological function of glucose transporters in the parasite Leishmania mexicana. Leishmania species cause disease in an estimated 12 million individuals worldwide and are a major public health problem. Identification of genes and proteins that serve essential functions for the parasite is critical for the identification of targets for development of novel drugs. Previous work has demonstrated that the glucose transporters of L. mexicana, integral membrane proteins that mediate the uptake of glucose and related hexose sugars, are essential in the amastigote stage of the life cycle that infects vertebrates and causes disease. Hence, this proposal will focus upon the biochemical functions of parasite glucose transporters and attempt to explain why they are essential for the disease causing stage of the parasite life cycle.
The first aim will examine each of the 3 principal fates of glucose in the cell and determine which of them is/are impaired by when glucose transporters are genetically ablated by targeted gene deletion. These fates of glucose include: i) incorporation into glycoconjugates and complex carbohydrates, ii) metabolism via the pentose phosphate pathway to generate NADPH and ribose phosphate, and iii) metabolism via glycolysis. These experiments will establish which of these 3 pathways are affected by the inability of a glucose transporter null mutant to import hexoses and which of these deficiencies may contribute to the non-viability of this null mutant as amastigotes.
The second aim will investigate the specific functions of the 3 glucose transporter isoforms GT1, GT2, and GT3. Null mutants in each of these genes will be prepared and their phenotypes assessed in both the promastigote and amastigote stages of the life cycle. These experiments will help elucidate distinct functions for each of the 3 glucose transporters expressed by this parasite. Overall, this proposal will provide a detailed biochemical and genetic dissection of glucose transporter function and the essential role of these permeases in the parasite life cycle.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI025920-22
Application #
7617046
Study Section
Special Emphasis Panel (ZRG1-PTHE-K (01))
Program Officer
Rogers, Martin J
Project Start
1991-09-01
Project End
2011-05-31
Budget Start
2009-06-01
Budget End
2010-05-31
Support Year
22
Fiscal Year
2009
Total Cost
$366,733
Indirect Cost

  Institution

Name
Oregon Health and Science University
Department
Microbiology/Immun/Virology
Type
Schools of Medicine
DUNS #
096997515
City
Portland
State
OR
Country
United States
Zip Code
97239

  Publications

Landfear, Scott M; Tran, Khoa D; Sanchez, Marco A (2015) Flagellar membrane proteins in kinetoplastid parasites. IUBMB Life 67:668-76
Rodriguez-Contreras, Dayana; Aslan, Hamide; Feng, Xiuhong et al. (2015) Regulation and biological function of a flagellar glucose transporter in Leishmania mexicana: a potential glucose sensor. FASEB J 29:11-24
Rodriguez-Contreras, Dayana; Landfear, Scott M (2014) Transporters, channels and receptors in flagella. Channels (Austin) 8:477-8
Tran, Khoa D; Rodriguez-Contreras, Dayana; Vieira, Danielle P et al. (2013) KHARON1 mediates flagellar targeting of a glucose transporter in Leishmania mexicana and is critical for viability of infectious intracellular amastigotes. J Biol Chem 288:22721-33
Feng, Xiuhong; Rodriguez-Contreras, Dayana; Polley, Tamsen et al. (2013) 'Transient' genetic suppression facilitates generation of hexose transporter null mutants in Leishmania mexicana. Mol Microbiol 87:412-29
Tran, Khoa D; Rodriguez-Contreras, Dayana; Shinde, Ujwal et al. (2012) Both sequence and context are important for flagellar targeting of a glucose transporter. J Cell Sci 125:3293-8
Blume, Martin; Hliscs, Marion; Rodriguez-Contreras, Dayana et al. (2011) A constitutive pan-hexose permease for the Plasmodium life cycle and transgenic models for screening of antimalarial sugar analogs. FASEB J 25:1218-29
Vince, James E; Tull, Dedreia; Landfear, Scott et al. (2011) Lysosomal degradation of Leishmania hexose and inositol transporters is regulated in a stage-, nutrient- and ubiquitin-dependent manner. Int J Parasitol 41:791-800
Feng, Xiuhong; Feistel, Torben; Buffalo, Cosmo et al. (2011) Remodeling of protein and mRNA expression in Leishmania mexicana induced by deletion of glucose transporter genes. Mol Biochem Parasitol 175:39-48
Landfear, S M (2010) Transporters for drug delivery and as drug targets in parasitic protozoa. Clin Pharmacol Ther 87:122-5

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