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  • Title: Release of tumor necrosis factor-alpha from coronary smooth muscle: activation of NF-kappaB and inhibition by elevated cyclic AMP.
    Author: Newman WH, Zhang LM, Lee DH, Dalton ML, Warejcka DJ, Castresana MR, Leeper-Woodford SK.
    Journal: J Surg Res; 1998 Dec; 80(2):129-35. PubMed ID: 9878303.
    Abstract:
    BACKGROUND: Evidence suggests that tumor necrosis factor-alpha (TNF-alpha) is involved in heart diseases such as atherosclerosis. We used porcine coronary arteries and smooth muscle cells cultured from these vessels to study the regulation of production of TNF-alpha. The aims were to determine if bacterial lipopolysaccharide (LPS) could stimulate production; if activation of the nuclear regulatory factor, NF-kappaB, was associated with production; and if intracellular cAMP regulates TNF-alpha in coronary vasculature through a mechanism involving NF-kappaB. MATERIAL AND METHODS: LPS was used to stimulate TNF-alpha production. Forskolin (FSK) and 8-Br-cAMP were added to tissue and cells in order to elevate intracellular cAMP. TNF-alpha release into the bathing medium was measured by the L929 cell cytotoxicity assay. Intracellular cAMP was determined by radioimmunoassay. NF-kappaB activation was determined in whole cell extracts by electrophoretic mobility shift assay. RESULTS: In segments of coronary arteries, LPS stimulated TNF-alpha release which increased with time to a maximum at 6 h (485 +/- 19 units/g tissue) and remained elevated at this level for 24 h. In contrast, the level of TNF-alpha measured at 24 h in medium from coronary tissue not exposed to LPS was 11.1 +/- 4.1 units/g tissue. In the presence of LPS, both FSK and 8-Br-cAMP significantly reduced TNF-alpha release. For instance at 6 h in the presence of LPS and FSK or 8-Br-cAMP, TNF-alpha was 126 +/- 24 and 71.6 +/- 22 units/g tissue, respectively (P < 0.05 vs LPS alone). Tissue levels of cAMP were significantly elevated in the presence of FSK. Similar results were obtained with smooth muscle cells cultured from the coronary arteries; i.e., LPS stimulated TNF-alpha release which was inhibited in a concentration-dependent manner by a rise in intracellular cAMP induced by FSK. In cultured cells release of TNF-alpha stimulated by LPS was associated with activation of NF-kappaB. Neither FSK nor 8-Br cAMP inhibited activation of NF-kappaB by LPS. CONCLUSIONS: Porcine coronary arteries produce TNF-alpha from a smooth muscle cell source. Production stimulated by LPS was inhibited by elevated intracellular cAMP and was associated with activation of NF-kappaB. However, activation of NF-kappaB was not inhibited by elevated cAMP, suggesting that the regulatory action of this cyclic nucleotide could lie downstream from activation of the TNF-alpha gene. These results support the view that coronary vessels can be a source of TNF-alpha possibly involved in heart disease.
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