Integrated genomic approaches implicate osteoglycin (Ogn) in the regulation of left ventricular mass.

Left ventricular mass (LVM) and cardiac gene expression are complex traits regulated by factors both intrinsic and extrinsic to the heart. To dissect the major determinants of LVM, we combined expression quantitative trait locus1 and quantitative trait transcript (QTT) analyses of the cardiac transcriptome in the rat. Using these methods and in vitro functional assays, we identified osteoglycin (Ogn) as a major candidate regulator of rat LVM, with increased Ogn protein expression associated with elevated LVM. We also applied genome-wide QTT analysis to the human heart and observed that, out of 22,000 transcripts, OGN transcript abundance had the highest correlation with LVM. We further confirmed a role for Ogn in the in vivo regulation of LVM in Ogn knockout mice. Taken together, these data implicate Ogn as a key regulator of LVM in rats, mice and humans, and suggest that Ogn modifies the hypertrophic response to extrinsic factors such as hypertension and aortic stenosis.

Detection and quantification of sulfated disaccharides from keratan sulfate and chondroitin/dermatan sulfate during chick corneal development by ESI-MS/MS.

PURPOSE: To identify and quantify changes in keratan sulfate (KS) and chondroitin/dermatan sulfate (CS/DS) sulfated disaccharides in the developing chick cornea using electrospray ionization tandem mass spectrometry (ESI-MS/MS). METHODS: Cryostat sections of fresh nonfixed corneas were obtained from White Leghorn embryonic day (E)8 to E20 chicks, and from 4- and 70-week-old chickens. Tissue sections on glass slides were incubated with selected glycosidase enzymes. Digest solutions were analyzed directly by ESI-MS/MS. RESULTS: The concentration of KS monosulfated disaccharide (MSD) Gal-beta-1,4-GlcNAc(6S) in E8 cornea equaled that at E20, declined to its lowest level by E10, increased to a second peak by E14, decreased to a second low by E18, peaked again by E20, and remained high in adult corneas. A similar concentration profile was observed for KS disulfated disaccharide (DSD) Gal(6S)-beta-1,4-GlcNAc(6S), and thus also for total sulfated KS disaccharides. The molar percent of DSD was higher than that of MSD from E8 to E18, equivalent at E20, and less than that of MSD in adult corneas. In contrast, total concentration of CS/DS Deltadi-4S plus Deltadi-6S decreases as development progresses and is lowest in adult corneas. Concentration and molar percent of Deltadi-6S is highest at E8, then decreases through development as the concentration and molar percent of Deltadi-4S increases from E8 and exceeds that of Deltadi-6S after E14. CONCLUSIONS: New, rapid, direct chemical analysis of extracellular matrix components obtained from sections from embryonic and adult chick corneas reveals heretofore undetected changes in sulfation characteristics of KS and CS/DS disaccharides during corneal development.