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ABSTRACT Whole genome sequencing has revealed that the genome ofStaphylococcus aureuspossesses an uncharacterized 5-gene operon (SAOUHSC_00088–00092 in strain 8325 genome) that encodes factors with functions related to polysaccharide biosynthesis and export, indicating the existence of a new extracellular polysaccharide species. We designate this locus assscfor staphylococcal surface carbohydrate. We found that thesscgenes were weakly expressed and highly repressed by the global regulator MgrA. To characterize Ssc, Ssc was heterologously expressed inEscherichia coliand extracted by heat treatment. Ssc was also conjugated to AcrA fromCampylobacter jejuniinE. coliusing protein glycan coupling technology (PGCT). Analysis of the heat-extracted Ssc and the purified Ssc-AcrA glycoconjugate by tandem mass spectrometry revealed that Ssc is likely a polymer consisting ofN-acetylgalactosamine. We further demonstrated that the expression of thesscgenes inS. aureusaffected phage adsorption and susceptibility, suggesting that Ssc is surface-exposed. IMPORTANCESurface polysaccharides play crucial roles in the biology and virulence of bacterial pathogens.Staphylococcus aureusproduces four major types of polysaccharides that have been well-characterized. In this study, we identified a new surface polysaccharide containing N-acetylgalactosamine (GalNAc). This marks the first report of GalNAc-containing polysaccharide inS. aureus. Our discovery lays the groundwork for further investigations into the chemical structure, surface location, and role in pathogenesis of this new polysaccharide. 

Abstract People living with HIV (PLWH) experience increased vulnerability to premature aging and inflammation-associated comorbidities, even when HIV replication is suppressed by antiretroviral therapy (ART). However, the factors associated with this vulnerability remain uncertain. In the general population, alterations in theN-glycans on IgGs trigger inflammation and precede the onset of aging-associated diseases. Here, we investigate the IgGN-glycans in cross-sectional and longitudinal samples from 1214 women and men, living with and without HIV. PLWH exhibit an accelerated accumulation of pro-aging-associated glycan alterations and heightened expression of senescence-associated glycan-degrading enzymes compared to controls. These alterations correlate with elevated markers of inflammation and the severity of comorbidities, potentially preceding the development of such comorbidities. Mechanistically, HIV-specific antibodies glycoengineered with these alterations exhibit a reduced ability to elicit anti-HIV Fc-mediated immune activities. These findings hold potential for the development of biomarkers and tools to identify and prevent premature aging and comorbidities in PLWH.