The long term objective of this applications are to understand the movement and metabolism of compounds of the vitamin A family, the retinoids. The retinoids play essential roles in embryogenesis, morphogenesis, and maintenance of many tissues of the mature animal, by regulating the expression of specific genes. Retinoic acid is perhaps the major hormonal form of vitamin A but much is still to be learned about the mechanism, site, and control of its production. Specific binding our career proteins are involved in the movement and metabolism of retinoids. For retinoic acid production, deliver of its precursor, retinol, by the extracellular protein, retinol-binding protein (RBP), is important. For production and export of retinoic acid from the cells that snythesize it, the intracellular protein, cellular retinoic acid-binding protein, type two [CRABP(II)] appears to be important. In this proposal, several model systems from the pseudopregnant rat will be used to study the production of retinoic acid for function as a hormone. Results will be contrasted to retinoic acid production by the liver and kidney, hypothesized here to be for the purpose of retinol catabolism. The work proposed will: 1. Characterize the metabolic pathway and enzymology that leads to the production of retinoic acid from retinol provided to cultured cells as a complex with RBP. Uterine and ovarian cells that synthesize retinoic acid will be the source for determining the pathway and enzymology by standard biochemical techniques. 2. Characterize the role that CRABP(II) plays in the cell's ability to synthesize and secrete retinoic acid. Cultured cells will be deprived of CRABP(II) by antisense technology to study the effect on retinoic acid production/export. 3. Identify the mechanism of delivery of retinol, from the retinol-RBP complex, to the epithelial cells that make retinoic acid. Possible internalization of RBP will be characterized by following labelled protein. 4. Seek to establish the existence of a specific membrane transporter that controls the secretion of retinoic acid from the cells that synthesize it. If identified by uptake studies, expression cloning will be utilized to isolate its cDNA.

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
Research Project (R01)
Project #
5R01DK032642-16
Application #
2838071
Study Section
Nutrition Study Section (NTN)
Program Officer
May, Michael K
Project Start
1983-08-01
Project End
2001-11-30
Budget Start
1998-12-05
Budget End
1999-11-30
Support Year
16
Fiscal Year
1999
Total Cost
Indirect Cost
Name
Vanderbilt University Medical Center
Department
Biochemistry
Type
Schools of Medicine
DUNS #
004413456
City
Nashville
State
TN
Country
United States
Zip Code
37212
Everts, Helen B; Sundberg, John P; King Jr, Lloyd E et al. (2007) Immunolocalization of enzymes, binding proteins, and receptors sufficient for retinoic acid synthesis and signaling during the hair cycle. J Invest Dermatol 127:1593-604
He, Quanhua; Alexeev, Dmitriy; Estevez, Maureen E et al. (2006) Cyclic nucleotide-gated ion channels in rod photoreceptors are protected from retinoid inhibition. J Gen Physiol 128:473-85
Swift, Larry L; Kakkad, Bharati; Boone, Cordelia et al. (2005) Microsomal triglyceride transfer protein expression in adipocytes: a new component in fat metabolism. FEBS Lett 579:3183-9
Swift, Larry L; Jovanovska, Aneta; Kakkad, Bharati et al. (2005) Microsomal triglyceride transfer protein expression in mouse intestine. Histochem Cell Biol 123:475-82
Everts, Helen B; Sundberg, John P; Ong, David E (2005) Immunolocalization of retinoic acid biosynthesis systems in selected sites in rat. Exp Cell Res 308:309-19
Everts, Helen B; King Jr, Lloyd E; Sundberg, John P et al. (2004) Hair cycle-specific immunolocalization of retinoic acid synthesizing enzymes Aldh1a2 and Aldh1a3 indicate complex regulation. J Invest Dermatol 123:258-63
Li, Xiao-Hong; Kakkad, Bharati; Ong, David E (2004) Estrogen directly induces expression of retinoic acid biosynthetic enzymes, compartmentalized between the epithelium and underlying stromal cells in rat uterus. Endocrinology 145:4756-62
Li, Xiao-Hong; Ong, David E (2003) Cellular retinoic acid-binding protein II gene expression is directly induced by estrogen, but not retinoic acid, in rat uterus. J Biol Chem 278:35819-25
Rexer, Brent N; Ong, David E (2002) A novel short-chain alcohol dehydrogenase from rats with retinol dehydrogenase activity, cyclically expressed in uterine epithelium. Biol Reprod 67:1555-64
Kuppumbatti, Y S; Rexer, B; Nakajo, S et al. (2001) CRBP suppresses breast cancer cell survival and anchorage-independent growth. Oncogene 20:7413-9

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