Vaccine antigens modulate the innate response of monocytes to Al(OH)3.

Aluminum-based adjuvants have widely been used in human vaccines since 1926. In the absence of antigens, aluminum-based adjuvants can initiate the inflammatory preparedness of innate cells, yet the impact of antigens on this response has not been investigated so far. In this study, we address the modulating effect of vaccine antigens on the monocyte-derived innate response by comparing processes initiated by Al(OH)3 and by Infanrix, an Al(OH)3-adjuvanted trivalent combination vaccine (DTaP), containing diphtheria toxoid (D), tetanus toxoid (T) and acellular pertussis (aP) vaccine antigens. A systems-wide analysis of stimulated monocytes was performed in which full proteome analysis was combined with targeted transcriptome analysis and cytokine analysis. This comprehensive study revealed four major differences in the monocyte response, between plain Al(OH)3 and DTaP stimulation conditions: (I) DTaP increased the anti-inflammatory cytokine IL-10, whereas Al(OH)3 did not; (II) Al(OH)3 increased the gene expression of IFNγ, IL-2 and IL-17a in contrast to the limited induction or even downregulation by DTaP; (III) increased expression of type I interferons-induced proteins was not observed upon DTaP stimulation, but was observed upon Al(OH)3 stimulation; (IV) opposing regulation of protein localization pathways was observed for Al(OH)3 and DTaP stimulation, related to the induction of exocytosis by Al(OH)3 alone. This study highlights that vaccine antigens can antagonize Al(OH)3-induced programming of the innate immune responses at the monocyte level

Temperature sensitivity of Ge-B-SiO₂ waveguide Bragg gratings on a crystallized glass substrate

Waveguide Bragg gratings were fabricated by plasma-enhanced chemical-vapor deposition followed by irradiation with KrF excimer laser light through a phase mask. The period of the Bragg grating was 0.53 µm, and the Bragg wavelength was 1.53 µm. The temperature dependence of the Bragg wavelength was 11 pm/°C for a 10 GeO2 - 90SiO2 (mol.%) core waveguide on a Si substrate, and the Bragg wavelength shift was successfully reduced to 5.0 pm/°C by use of a 14GeO2 - 12B2O3 - 74SiO2 (mol.%) core and a crystallized glass substrate with a thermal-expansion coefficient of -2.0 x 10-6 (/°C)

Nonlinear-laser chi((3))- and chi((2))-effects in fine-grained highly transparent optical Ba(Mg,Zr,Ta)O(3) ceramics and their microhardness

STIMULATED RAMAN-SCATTERING; CRYSTALS; DISORDER; STOKES; SC2O3; ION