The expression of the hypoxia-responsive transcription factor hypoxia-inducible factor (HIF)-1 during acute inflammation was investigated in experimental wounds. HIF-1alpha mRNA was maximally expressed in wound cells 6 h after injury. HIF-1alpha protein was detectable in wound cells 1 and 5 days after injury. Cells from 1-day-old wounds were not hypoxic, as determined by lack of pimonidazole hydrochloride adduct formation. Tumor necrosis factor (TNF)-alpha, but not interleukin-1beta, increased the HIF-1alpha protein content of cells isolated 1 and 5 days after injury, and also of glycogen-elicited peritoneal cells, but not HIF-1alpha mRNA. HIF-1alpha did not accumulate in TNF-alpha-treated HeLa, NIH/3T3, NR8383, or RAW 264.7 cells. Nitric oxide from S-nitrosoglutathione did not induce HIF-1alpha accumulation or modulate the response to TNF-alpha. TNF-alpha did not increase oxygen consumption or result in the production of reactive oxygen intermediates by day 1 wound cells. Vascular endothelial growth factor mRNA in wound cells peaked 24 h after wounding. HIF-1 expression in early wounds may contribute to the regulation of inducible nitric oxide synthase and vascular endothelial growth factor, two HIF-1-responsive genes intimately related to the process of repair.
Experiments were performed to identify arginase isoforms expressed in primary and transformed rodent macrophages and to determine the molecular mechanisms for the previously observed increase in arginase activity in macrophages cultured in hypoxia or anoxia. Results demonstrate the following: 1) mRNA and protein for hepatic-type AI arginase are expressed in primary cultures of rat and mouse peritoneal macrophages and are enhanced seven- and ninefold, respectively, by lipopolysaccharide (LPS). 2) mRNA for extrahepatic-type AII arginase is constitutively expressed in mouse, but not rat, peritoneal macrophages and is detected in RAW264.7 cells after LPS treatment; neither J774A.1 nor P388D1 cells contain arginase mRNA. 3) AI arginase mRNA, arginase activity in cell lysates, andl-arginine flux through arginase in intact cells are all increased in rat wound-derived and mouse peritoneal macrophages by hypoxic or anoxic culture; AII arginase mRNA is, in contrast, suppressed >50% by O2deprivation. 4) Expression of thel-arginine transporter mCAT-2 is increased greater than twofold by reduced O2 culture. These results demonstrate substantial variability in arginase isoform expression among primary and transformed rodent macrophages. They also identify AI and AII arginase and the mCAT-2 l-arginine transporter as O2-regulated genes.
Despite extensive data from randomized controlled trials supporting the efficacy of evidence-based treatments (EBTs), the adoption of these interventions in the Department of Veterans Affairs (VA) and the Department of Defense has been markedly slow. Qualitative interviews were conducted with a nationally representative sample of 38 directors of specialized posttraumatic stress disorder outpatient programs in VA medical centers about implementation of two EBTs. Every director confirmed that EBTs, specifically prolonged exposure and cognitive processing therapy, were provided in their program. It was nearly universal, however, for these treatments to be preceded by preparatory groups. The consensus among directors was that these groups improve readiness for trauma-focused EBTs, help veterans to make informed decisions about their treatment plans, improve coping skills and symptom management, and decrease the likelihood of no-shows for scheduled EBTs. The concept of readiness for trauma-focused EBTs guided program development and flow throughout the programs. Implications for increased implementation of EBTs include developing and disseminating standardized ways of explaining their rationale and expected outcomes. Future research directions, such as empirically identifying veterans who are willing to participate in and benefit from these EBTs, are also noted.
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