F Samad1, D J Loskutoff. 1. Scripps Research Institute, Department of Vascular Biology, La Jolla, California 92037, USA.
Abstract
BACKGROUND: Although elevated plasminogen activator inhibitor-1 (PAI-1) is associated with obesity and may be a risk factor for cardiovascular disease, the mechanism(s) that lead to this elevation, and the tissue/cellular origins of this increase, remain to be defined. In this report, we have addressed these questions using genetically obese mice (ob/ob) and their lean counterparts (+/?). MATERIALS AND METHODS: PAI-1 activity and antigen levels were determined using a tissue-type plasminogen activator (t-PA) binding assay and Western blotting. The concentration of PAI-1 mRNA in tissues was determined by quantitative reverse transcriptase-polymerase chain reaction (RT-PCR), and the cellular localization of PAI-1 was evaluated using in situ hybridization, immunohistochemistry, and cell fractionation. RESULTS: PAI-1 activity was approximately 4-fold higher in plasma from ob/ob mice than in that obtained from their lean counterparts, and this difference increased further with age (i.e., 6-fold at 3 months). PAI-1 mRNA levels were elevated 4- to 5-fold in the adipose tissues of obese mice, and these differences in mRNA also increased with age. The elevated PAI-1 mRNA in the adipose tissues of obese mice was localized to mature adipocytes as well as to vascular smooth muscle cells and occasional endothelial cells. Obesity is often associated with hyperinsulinemia, and acute injection of insulin into lean mice increased PAI-1 mRNA 6- to 8-fold in the epididymal fat in cells that morphologically resembled adipocytes. Insulin did not increase PAI-1 in large vessel endothelial or smooth muscle cells. The adipocyte response to insulin was confirmed in cell culture studies where PAI-1 synthesis by mature 3T3-L1 adipocytes was increased 5- to 6-fold by insulin. CONCLUSIONS: Our results suggest that elevated PAI-1 associated with obesity may result in part from insulin-induced induction of PAI-1 specifically by adipocytes within the fat itself.
BACKGROUND: Although elevated plasminogen activator inhibitor-1 (PAI-1) is associated with obesity and may be a risk factor for cardiovascular disease, the mechanism(s) that lead to this elevation, and the tissue/cellular origins of this increase, remain to be defined. In this report, we have addressed these questions using genetically obesemice (ob/ob) and their lean counterparts (+/?). MATERIALS AND METHODS:PAI-1 activity and antigen levels were determined using a tissue-type plasminogen activator (t-PA) binding assay and Western blotting. The concentration of PAI-1 mRNA in tissues was determined by quantitative reverse transcriptase-polymerase chain reaction (RT-PCR), and the cellular localization of PAI-1 was evaluated using in situ hybridization, immunohistochemistry, and cell fractionation. RESULTS:PAI-1 activity was approximately 4-fold higher in plasma from ob/ob mice than in that obtained from their lean counterparts, and this difference increased further with age (i.e., 6-fold at 3 months). PAI-1 mRNA levels were elevated 4- to 5-fold in the adipose tissues of obesemice, and these differences in mRNA also increased with age. The elevated PAI-1 mRNA in the adipose tissues of obesemice was localized to mature adipocytes as well as to vascular smooth muscle cells and occasional endothelial cells. Obesity is often associated with hyperinsulinemia, and acute injection of insulin into lean mice increased PAI-1 mRNA 6- to 8-fold in the epididymal fat in cells that morphologically resembled adipocytes. Insulin did not increase PAI-1 in large vessel endothelial or smooth muscle cells. The adipocyte response to insulin was confirmed in cell culture studies where PAI-1 synthesis by mature 3T3-L1 adipocytes was increased 5- to 6-fold by insulin. CONCLUSIONS: Our results suggest that elevated PAI-1 associated with obesity may result in part from insulin-induced induction of PAI-1 specifically by adipocytes within the fat itself.
Authors: H Wada; Y Mori; T Kaneko; Y Wakita; T Nakase; K Minamikawa; M Ohiwa; S Tamaki; M Tanigawa; S Kageyama Journal: Am J Hematol Date: 1993-10 Impact factor: 10.047
Authors: Prachi Singh; Timothy E Peterson; Kara R Barber; Fatima Sert Kuniyoshi; Andrus Jensen; Michal Hoffmann; Abu S M Shamsuzzaman; Virend K Somers Journal: Biochem Biophys Res Commun Date: 2010-01-05 Impact factor: 3.575