Abstract

Recent studies conducted in several countries have come to the unanimous conclusion that fibrinogen levels are a major risk factor for cardiovascular disease. The risk associated with elevated levels equals or exceeds the risk for serum cholesterol, high blood pressure, smoking, diabetes and obesity. Furthermore, the epidemiologic data suggest that elevated fibrinogen levels play a role in the pathogenesis of cardiovascular disease and correlate with a restriction polymorphism in the fibrinogen locus. Production of fibrinogen is in large part controlled by the transcription factor, hepatocyte nuclear factor 1 or HNF-1, which interacts with the control regions for the fibrinogen genes as well as other liver-specific genes. We have isolated a cDNA for HNF-1 and found that it contains a homeodomain similar to that found in genes responsible for pattern formation in invertebrates, and also is a distant member of the POU family of transcriptional activators. Our goal is to understand how this protein functions and how it is developmentally regulated. Specifically, we will begin by completing the sequencing of the cDNA and gene. This information will be used to dissect the functional regions of HNF-1 by analysis of alanine-substitution mutations and by using portions of HNF-1 to complement the function of well- characterized mutations is known transcriptional activators. The role of HNF-1 in hepatocyte differentiation and development will be explored by determining if expression of the protein in dedifferentiated cells leads to expression of endogenous fibrinogen genes. In a second approach we will determine if the inductive influences that are responsible for the formation of the liver and other organs operate by directly controlling HNF-1 n the developing embryo. Finally, we will make use of the observation that retinoic acid induces the production of HNF-1 in the F9 cell line to define the events that are required for the developmental regulation of HNF-1 and the molecules which cooperate with HNF-1 to activate liver-specific genes. At the end of this five year period, we hope to have characterize the cellular and molecular events that regulate HNF-1 during developing and to have a precise understanding of its role in organogenesis and the activation of the fibrinogen and other liver- specific genes.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
5R01HL033942-08
Application #
3346356
Study Section
Molecular Biology Study Section (MBY)
Project Start
1990-07-01
Project End
1995-06-30
Budget Start
1992-07-01
Budget End
1993-06-30
Support Year
8
Fiscal Year
1992
Total Cost
Indirect Cost

  Institution

Name
Stanford University
Department
Type
Schools of Medicine
DUNS #
800771545
City
Stanford
State
CA
Country
United States
Zip Code
94305

  Publications

Northrop, J P; Ullman, K S; Crabtree, G R (1993) Characterization of the nuclear and cytoplasmic components of the lymphoid-specific nuclear factor of activated T cells (NF-AT) complex. J Biol Chem 268:2917-23
Milatovich, A; Mendel, D B; Crabtree, G R et al. (1993) Genes for the dimerization cofactor of hepatocyte nuclear factor-1 alpha (DCOH) are on human and murine chromosomes 10. Genomics 16:292-5
Chung, J; Kuo, C J; Crabtree, G R et al. (1992) Rapamycin-FKBP specifically blocks growth-dependent activation of and signaling by the 70 kd S6 protein kinases. Cell 69:1227-36
Northrop, J P; Crabtree, G R; Mattila, P S (1992) Negative regulation of interleukin 2 transcription by the glucocorticoid receptor. J Exp Med 175:1235-45
Mendel, D B; Khavari, P A; Conley, P B et al. (1991) Characterization of a cofactor that regulates dimerization of a mammalian homeodomain protein. Science 254:1762-7
Kuo, C J; Mendel, D B; Hansen, L P et al. (1991) Independent regulation of HNF-1 alpha and HNF-1 beta by retinoic acid in F9 teratocarcinoma cells. EMBO J 10:2231-6
Ullman, K S; Flanagan, W M; Edwards, C A et al. (1991) Activation of early gene expression in T lymphocytes by Oct-1 and an inducible protein, OAP40. Science 254:558-62
Mendel, D B; Hansen, L P; Graves, M K et al. (1991) HNF-1 alpha and HNF-1 beta (vHNF-1) share dimerization and homeo domains, but not activation domains, and form heterodimers in vitro. Genes Dev 5:1042-56
Verweij, C L; Guidos, C; Crabtree, G R (1990) Cell type specificity and activation requirements for NFAT-1 (nuclear factor of activated T-cells) transcriptional activity determined by a new method using transgenic mice to assay transcriptional activity of an individual nuclear factor. J Biol Chem 265:15788-95
Fiering, S; Northrop, J P; Nolan, G P et al. (1990) Single cell assay of a transcription factor reveals a threshold in transcription activated by signals emanating from the T-cell antigen receptor. Genes Dev 4:1823-34

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