Interleukin-8 (IL-8), a potent neutrophil chemotactic peptide, has been found in association with human disease, but its contribution to chemotactic activity in humans is not yet known. We asked whether IL-8 is present in inflammatory human pleural effusions, and to what extent it contributes to pleural liquid neutrophil chemotactic activity. Because tumor necrosis factor alpha (TNF-alpha) is a strong inducer of IL-8, we also asked whether TNF-alpha was present. For this prospective study, we collected pleural liquid from 51 patients (empyema, 14; parapneumonic, four; tuberculous, eight; malignant, nine; miscellaneous exudative, seven; and transudative, nine), counted pleural neutrophils, and measured IL-8 and TNF-alpha concentrations in the supernatant. To determine the contribution of IL-8 to chemotactic activity in empyema, we measured the neutrophil migration induced by empyemic liquids before and after addition of anti-IL-8 F(ab')2 antibody fragments or control anti-IL-6 F(ab')2. We found that IL-8 concentrations were higher in empyema (61.3 +/- 21.0 ng/ml [SEM]) than in all other effusions (1.1 +/- 0.5 ng/ml) (p = 0.0001). All empyema liquids had IL-8 concentrations above 2.5 ng/ml, which was true for only three of the other 37 effusions (two parapneumonic, one tuberculous). IL-8 levels correlated with the pleural neutrophil count (r = 0.46; p = 0.007) and the neutrophil chemotactic activity of pleural liquid (r = 0.43; p = 0.008). Anti-IL-8 antibodies decreased chemotactic activity in empyema liquids by 65 +/- 5%, whereas the control antibody had no effect (0 +/- 5% decrease) (p = 0.0005).(ABSTRACT TRUNCATED AT 250 WORDS)
One possible explanation for the growth failure in children with idiopathic short stature (ISS) is reduced peripheral responsiveness to GH. In Laron syndrome, growth retardation is caused by GH resistance due to GH receptor (GH-R) defects, which are associated in most cases with absent or low serum concentrations of the GH-R-related GH-binding protein (GHBP). We tested the hypothesis that some children with ISS have reduced serum concentrations of GHBP and that this may reflect decreased sensitivity to GH. A ligand-mediated immunofunctional assay was used to measure biochemically active GHBP in serum from 1549 children, including 773 controls, 573 with ISS, 107 with GH deficiency (GHD), and 96 with Turner syndrome (TS). Ages ranged from 1-17 yr. Serum GHBP concentrations in children with GHD, ISS, and TS were converted to SD scores and compared to controls by analysis of variance. In male and female ISS subjects, approximately 90% had GHBP concentrations below the age- and sex-adjusted mean for controls, and 20% had GHBP concentrations below the normal range. The mean serum GHBP SD score was lower in both males and females with GHD (-0.6) or ISS (-1.2) than in controls (both P < 0.005). The mean for ISS males was significantly lower than that for GHD males (P < 0.0001). The mean GHBP SD score for girls with TS (-0.3) did not differ significantly from that of the control females. The decreased levels of serum GHBP in some children with idiopathic short stature suggest that these children could have a defect at the level of the GH-R.
Human blood contains a high affinity GH binding protein (GHBP) which corresponds to the extracellular domain of he GH-receptor. It has been suggested that GHBP can modify the biological actions of GH, and alter the distribution of GH in the body. To study the hormonal regulation of growth, it is therefore necessary to measure GHBP as well as GH. We recently developed a ligand-mediated immunofunctional assay (LIFA) which allows separate quantitation of total GHBP (free and GH-bound) and the complex formed by GH and GHBP (GH/GHBP-complex) in human blood. We have now used the ligand-mediated immunofunctional assay to measure GHBP levels in plasma profiles from healthy children. GH was measured by immunoradiometric assay. Fifteen 24-h plasma profiles from 12 healthy children (3 girls and 9 boys) of different ages (6-15 yr), heights (-2.5 to +3.0 SD scores) and pubertal stages (1-4) were examined. Blood was withdrawn continuously for 24 h and collected in 20-min fractions. Time series for GH, GHBP, and GH/GHBP-complex were analyzed by cross-correlation and Fourier analysis. GH was secreted in a pulsatile fashion in all subjects. The concentration of the GH/GHBP-complex varied during the sampling period, and the changes correlated significantly with the GH pulses with correlation coefficients reaching maximum at zero time lag. In contrast, the changes in the total GHBP concentration were minor (coefficients of variation approximately 10%), and not correlated to GH pulses. Fourier analysis showed similar spectral power patterns for GH and GH/GHBP-complex, suggesting a diurnal rhythm (12- to 24-h periods) as well as components of higher frequencies (around 4-h periods). Although there were only subtle fluctuations in the total GHBP concentration, Fourier transformation revealed a diurnal rhythm with nadir during the night, while components of higher frequencies were much less abundant. We conclude that variations in total GHBP as measured by LIFA during a 24-h sampling period are small and that the concentration can be estimated from a single random blood sample.
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