Dipyridamole augments the antiinflammatory response during human endotoxemia

Adenosine is formed inside cells or on their surface, mostly by breakdown of adenine nucleotides. The formation of adenosine increases in different conditions of stress and distress. Adenosine acts on four G-protein coupled receptors: two of them, A(1) and A(3), are primarily coupled to G(i) family G proteins; and two of them, A(2A) and A(2B), are mostly coupled to G(s) like G proteins. These receptors are antagonized by xanthines including caffeine. Via these receptors it affects many cells and organs, usually having a cytoprotective function. Joel Linden recently grouped these protective effects into four general modes of action: increased oxygen supply/demand ratio, preconditioning, anti-inflammatory effects and stimulation of angiogenesis. This review will briefly summarize what is known and what is not in this regard. It is argued that drugs targeting adenosine receptors might be useful adjuncts in many therapeutic approaches.

Although inflammatory and immunological reactions protect the host from invasion by microorganisms and eliminate debris at sites of tissue injury, they can also be responsible for significant tissue damage. Thus, regulatory mechanisms that limit damage from an overly exuberant immune response have evolved. It is increasingly apparent that adenosine, a purine nucleoside that is elaborated at injured and inflamed sites, has a central role in the regulation of inflammatory responses and in limiting inflammatory tissue destruction. Adenosine, called a 'retaliatory metabolite' because it is a regulatory autocoid that is generated as a result of cellular injury or stress, interacts with specific G protein-coupled receptors on inflammatory and immune cells to regulate their function. The effects of adenosine, acting at its receptors, on the functions of the cells that mediate innate immune responses, will be reviewed.

To determine gender differences in the innate immune response and vascular reactivity during human endotoxemia. Clinical experimental study. University medical center intensive care research unit. Fifteen female and 15 male volunteers. Intravenous injection of 2 ng/kg Escherichia coli lipopolysaccharide. C-reactive protein, leukocytes, and cytokines were measured at regular time intervals as indicators of inflammation. Heart rate and blood pressure were continuously monitored. Forearm blood flow and the responsiveness of forearm vessels to the intrabrachial infusion of norepinephrine (1-3-10-30 ng/min/dL) were measured before and 4 hrs after the administration of endotoxin using venous occlusion plethysmography. Differences were tested with repeated-measures analysis of variance. Females showed a more proinflammatory response to lipopolysaccharide than males, illustrated by a higher rise in C-reactive protein (42 +/- 3 vs. 29 +/- 3 mg/L, p = .002) and more leukocyte sequestration (leukopenia 1.8 +/- 0.1 x 10 vs. 2.4 +/- 0.1 x 10, p = .003). The increase in cytokine levels showed a more proinflammatory pattern in females as reflected by a higher increase in tumor necrosis factor-alpha (965 +/- 193 vs. 411 +/- 35 pg/mL, p < .0001), whereas the increase of the anti-inflammatory interleukin-10 was not significantly different (95 +/- 15 pg/mL in females vs. 129 +/- 15 pg/mL in males, p = .288). Females exhibited higher baseline levels (9.9 +/- 1.1 vs. 7.0 +/- 0.8 pg/mL in males, p = .042) and an augmented increase in lipopolysaccharide-binding protein, which may explain the more pronounced inflammatory response in females. The lipopolysaccharide-induced change in heart rate was not significantly different between the genders, whereas blood pressure decreased more in females (p < .0001). Lipopolysaccharide administration significantly attenuated the norepinephrine sensitivity in males (p = .002), whereas no lipopolysaccharide-induced effect was observed in females (p = .552; difference between groups, p = .045). During experimental human endotoxemia, females showed a more pronounced proinflammatory innate immune response associated with less attenuation of norepinephrine sensitivity. These findings may be relevant in view of the profound and incompletely explained differences in incidence and outcome of sepsis among male and female patients.