Early microbial translocation blockade reduces SIV-mediated inflammation and viral replication
Jan Kristoff, George Haret-Richter, Dongzhu Ma, Ruy M. Ribeiro, Cuiling Xu, Elaine Cornell, Jennifer L. Stock, Tianyu He, Adam D. Mobley, Samantha Ross, Anita Trichel, Cara Wilson, Russell Tracy, Alan Landay, Cristian Apetrei, Ivona Pandrea
Jan Kristoff, George Haret-Richter, Dongzhu Ma, Ruy M. Ribeiro, Cuiling Xu, Elaine Cornell, Jennifer L. Stock, Tianyu He, Adam D. Mobley, Samantha Ross, Anita Trichel, Cara Wilson, Russell Tracy, Alan Landay, Cristian Apetrei, Ivona Pandrea
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Brief Report

Early microbial translocation blockade reduces SIV-mediated inflammation and viral replication

Abstract

Damage to the intestinal mucosa results in the translocation of microbes from the intestinal lumen into the circulation. Microbial translocation has been proposed to trigger immune activation, inflammation, and coagulopathy, all of which are key factors that drive HIV disease progression and non-HIV comorbidities; however, direct proof of a causal link is still lacking. Here, we have demonstrated that treatment of acutely SIV-infected pigtailed macaques with the drug sevelamer, which binds microbial lipopolysaccharide in the gut, dramatically reduces immune activation and inflammation and slightly reduces viral replication. Furthermore, sevelamer administration reduced coagulation biomarkers, confirming the contribution of microbial translocation in the development of cardiovascular comorbidities in SIV-infected nonhuman primates. Together, our data suggest that early control of microbial translocation may improve the outcome of HIV infection and limit noninfectious comorbidities associated with AIDS.

Authors

Jan Kristoff, George Haret-Richter, Dongzhu Ma, Ruy M. Ribeiro, Cuiling Xu, Elaine Cornell, Jennifer L. Stock, Tianyu He, Adam D. Mobley, Samantha Ross, Anita Trichel, Cara Wilson, Russell Tracy, Alan Landay, Cristian Apetrei, Ivona Pandrea

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Figure 2

Impact of sevelamer treatment on the microbial translocation in SIVsab-infected PTMs.

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Impact of sevelamer treatment on the microbial translocation in SIVsab-i...
Comparison between the levels of microbial translocation in axillary LNs of SIVsab-infected PTMs receiving sevelamer and untreated controls. Representative images (original magnification, ×50) of the LNs stained for LPS core antigen (brown). Note the extensive accumulation of microbial products within the macrophages located around the subcapsular and medullary sinuses and in the paracortical parenchyma of the lymphatic tissues in untreated controls and that there is almost no increase in the levels of LPS in the LNs of PTMs treated with sevelamer. dpi, day after infection.