In adipose tissue from both obese mice and humans, plasminogen activator inhibitor 1 (PAI-1) expression has been reported to be upregulated to levels of increased plasma PAI-1. This elevated expression has been shown to be partly controlled by tumor necrosis factor (TNF)-␣ in mice. In humans, increased PAI-1 expression is associated with insulin resistance characterized by visceral fat accumulation. Therefore, the aim of this study was to investigate the expression pattern of PAI-1 and TNF-␣ (antigen and mRNA) in visceral human adipose fat in comparison with subcutaneous (SC) fat. Because transforming growth factor (TGF)- 1 is a potent inducer of PAI-1 synthesis and has been shown to influence adipocyte metabolism, this work was extended to TGF- 1 quantification. A total of 32 obese individuals (BMI 42 ± 6.8 kg/m 2 ) were investigated. Freshly collected visceral adipose tissue did not exhibit a higher content of PAI-1 or TGF- 1 than did SC tissue. Although most of the TNF-␣ values were at the detection limit of the methods, TNF-␣ antigen was 3-fold higher and TNF-␣ mRNA was 1.2-fold higher in visceral fat. The levels of tissue TGF- 1 antigen correlated well with those of PAI-1 antigen, regardless of the fat depot studied (SC tissue: n = 21, r = 0.72, P = 0.0006; visceral tissue: n = 20, r = 0.49, P < 0.03), and they were both significantly associated with BMI. Conversely, no relationship was observed between the levels of TNF-␣ and PAI-1 or TNF-␣ and BMI. Tissue PAI-1 levels were also significantly correlated with those of circulating PAI-1. These results describe, in severe obesity, a proportional increase in tissue PAI-1 and TGF- 1 in visceral and SC tissues. This increased PAI-1 expression could be the result of tissue cytokine disturbances, such as elevated TGF- 1 expression.
The etiologic agent of chancroid is Haemophilus ducreyi. To fulfill its obligate requirement for heme, H. ducreyi uses two TonB-dependent receptors: the hemoglobin receptor (HgbA) and a receptor for free heme (TdhA). Expression of HgbA is necessary for H. ducreyi to survive and initiate disease in a human model of chancroid. In this study, we used a swine model of H. ducreyi infection to demonstrate that an experimental HgbA vaccine efficiently prevents chancroid, as determined by several parameters. Histological sections of immunized animals lacked typical microscopic features of chancroid. All inoculated sites from mock-immunized pigs yielded viable H. ducreyi cells, whereas no viable H. ducreyi cells were recovered from inoculated sites of HgbA-immunized pigs. Antibodies from sera of HgbA-immunized animals bound to and initiated antibodydependent bactericidal activity against homologous H. ducreyi strain 35000HP and heterologous strain CIP542 ATCC; however, an isogenic hgbA mutant of 35000HP was not killed, proving specificity. Anti-HgbA immunoglobulin G blocked hemoglobin binding to the HgbA receptor, suggesting a novel mechanism of protection through the limitation of heme/iron acquisition by H. ducreyi. Such a vaccine strategy might be applied to other bacterial pathogens with strict heme/iron requirements. Taken together, these data suggest continuing the development of an HgbA subunit vaccine to prevent chancroid.
Treatment of vascular smooth muscle cells (SMC) with angiotensin II (AII) leads to an increase in the tyrosine phosphorylation of multiple cellular substrates. Here, we have demonstrated that AII stimulates tyrosine phosphorylation of the focal adhesion-associated protein paxillin in rat aortic SMC. AII-induced phosphorylation of paxillin was detectable within 1 min and was sustained up to 60 min. Preincubation with the AT1-selective antagonist losartan abolished this response. The stimulatory effect of AII on paxillin tyrosine phosphorylation was observed only in aortic SMC and not in other target cells such as adrenal zona glomerulosa cells, chromaffin cells, or hepatocytes. The effect of AII was dependent on the activation of phospholipase C. Chelation of intracellular calcium completely inhibited the ability of AII to stimulate paxillin tyrosine phosphorylation, while selective inhibition of protein kinase C partially attenuated the response. In contrast, treatment of the cells with pertussis toxin had no effect on AII-induced paxillin tyrosine phosphorylation. These findings identify paxillin as a new substrate for AII-stimulated tyrosine phosphorylation and suggest a role for cytoskeleton-associated proteins in the growth response of aortic SMC.
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