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Uncontrolled inflammatory responses in the immature gut may play a role in the pathogenesis of many intestinal inflammatory syndromes that present in newborns or children, such as necrotizing enterocolitis (NEC), idiopathic inflammatory bowel diseases (IBD), or infectious enteritis. Consistent with previous reports that murine intestinal function matures over the first 3 weeks of life, we show that inflammatory signaling in the neonatal mouse gut increases during postnatal maturation, with peak responses occurring at 2-3 weeks. Probiotic bacteria can block inflammatory responses in cultured epithelia by inducing the generation of reactive oxygen species (ROS), which inhibit NF-kappaB activation through oxidative inactivation of the key regulatory enzyme Ubc12. We now report for the first time that the probiotic Lactobacillus rhamnosus GG (LGG) can induce ROS generation in intestinal epithelia in vitro and in vivo. Intestines from immature mice gavage fed LGG exhibited increased GSH oxidation and cullin-1 deneddylation, reflecting local ROS generation and its resultant Ubc12 inactivation, respectively. Furthermore, prefeeding LGG prevented TNF-alpha-induced intestinal NF-kappaB activation. These studies indicate that LGG can reduce inflammatory signaling in immature intestines by inducing local ROS generation and may be a mechanism by which probiotic bacteria can prevent NEC in premature infants or reduce the severity of IBD in children.
Pubmed ID: 19660542 RIS Download
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Confocal microscopy can improve conventional fluorescence images by recording fluorescence generated from the focal plane within the sample, while rejecting all other light coming from above or below the focal plane. The efficient point-scan/pinhole-detection confocal optics of the FluoView systems virtually eliminate out of focus light to produce high-contrast images with superb resolution. The FluoView systems are fully integrated workstations that incorporate user-friendly image acquisition and image analysis software with high-resolution confocal optics that require no user alignment. An , Windows-based graphic user interface allows new users to quickly generate images in various scan modes, such as XY, XZ, XT, XYZ, XYT, and XYZT. Standard image formats, including TIFF and AVI, permit easy, direct export of FluoView images to off-line analysis packages. XY scanning is performed with a pair of galvanometric mirrors, yielding a wide scanning range to cover up to a field number of 20. The optical zoom (up to 10x magnification) can be performed by narrowing the scanning range while maintaining the maximum pixel resolution of up to 2048 x 2048 pixels.
View all literature mentionsConfocal microscopy can improve conventional fluorescence images by recording fluorescence generated from the focal plane within the sample, while rejecting all other light coming from above or below the focal plane. The efficient point-scan/pinhole-detection confocal optics of the FluoView systems virtually eliminate out of focus light to produce high-contrast images with superb resolution. The FluoView systems are fully integrated workstations that incorporate user-friendly image acquisition and image analysis software with high-resolution confocal optics that require no user alignment. An , Windows-based graphic user interface allows new users to quickly generate images in various scan modes, such as XY, XZ, XT, XYZ, XYT, and XYZT. Standard image formats, including TIFF and AVI, permit easy, direct export of FluoView images to off-line analysis packages. XY scanning is performed with a pair of galvanometric mirrors, yielding a wide scanning range to cover up to a field number of 20. The optical zoom (up to 10x magnification) can be performed by narrowing the scanning range while maintaining the maximum pixel resolution of up to 2048 x 2048 pixels.
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