Tam J scite author profile

Tam J

2Publications

19Citation Statements Received

93Citation Statements Given

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Affiliations

MSD (Canada), University of North Carolina at Chapel Hill

Publications

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Renin and Prorenin Activate Pathways Implicated in Organ Damage in Human Mesangial Cells Independent of Angiotensin II Production

Boie

et al. 2009

Am J Nephrol

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Background: The mechanism by which an activated renin-angiotensin system (RAS) leads to the development of renal diseases, such as fibrosis, is only partially explained by the downstream effects of angiotensin II. The discovery of a receptor that binds renin and prorenin, and the consequent production of profibrotic molecules, revealed a novel axis within the RAS pathway that may contribute to the pathogenesis of organ damage in patients with elevated renin and/or prorenin levels. Methods: To better understand the genes and networks underlying the receptor-mediated effects of renin and prorenin, a gene expression profiling study was performed on human mesangial cells in the presence of angiotensin-II-blocking agents. Results: Renin and prorenin induce highly overlapping gene expression signatures that are dependent, only in part, on the presence of the (pro)renin receptor. We found that 2 distinct pathways were activated by renin and prorenin: a TGFβ-dependent pathway and a TGFβ-independent pathway. Bioinformatic analysis was used to show that both pathways are highly enriched with genes implicated in fibrosis, hypertrophy and atherosclerosis. Conclusions: This study suggests that both renin and inactive prorenin are capable of inducing genetic programs that could contribute to end-organ damage and atherogenesis, through receptor-mediated angiotensin-independent mechanisms.

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Protective and aggressive bacterial subsets and metabolites modify hepatobiliary inflammation and fibrosis in PSC

Awoniyi

Wang

et al. 2021

Preprint

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ObjectiveConflicting microbiota data exist for primary sclerosing cholangitis (PSC) and experimental models. Goal: Define complex interactions between resident microbes and their association in PSC patients by studying antibiotic-treated specific pathogen-free (SPF) and germ-free (GF) multi-drug-resistant 2 deficient (mdr2-/-) mice.DesignWe measured weights, liver enzymes, RNA expression, histological, immunohistochemical and fibrotic biochemical parameters, fecal 16s rRNA gene profiling, and metabolomic endpoints in gnotobiotic and antibiotic-treated SPF mdr2-/- mice and targeted metagenomic analysis in PSC patients.ResultsGF mdr2-/- mice had exaggerated hepatic inflammation and fibrosis with 100% mortality by 8 weeks; early SPF autologous stool transplantation rescued liver-related mortality. Broad-spectrum antibiotics and vancomycin alone accelerated disease in weanling SPF mdr2-/- mice, indicating that vancomycin-sensitive resident microbiota protect against hepatobiliary disease. Vancomycin treatment selectively decreased Lachnospiraceae and short-chain fatty acids (SCFAs) but expanded Enterococcus and Enterobacteriaceae. Antibiotics increased cytolysin-expressing E. faecalis and E. coli liver translocation; colonization of gnotobiotic mdr2-/- mice with translocated E. faecalis and E. coli strains accelerated liver inflammation and mortality. Lachnospiraceae colonization of antibiotic pre-treated mdr2-/- mice reduced liver fibrosis, inflammation and translocation of pathobionts, while Lachnospiraceae-produced SCFA decreased fibrosis. Fecal E. faecalis/ Enterobacteriaceae was positively and Lachnospiraceae was negatively associated with PSC patients’ clinical severity Mayo risk scores.ConclusionsWe identified specific functionally protective and detrimental resident bacterial species in mdr2-/- mice and PSC patients with associated clinical outcomes. These insights may guide personalized targeted therapeutic interventions in PSC patients.

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Tam J

Renin and Prorenin Activate Pathways Implicated in Organ Damage in Human Mesangial Cells Independent of Angiotensin II Production

Protective and aggressive bacterial subsets and metabolites modify hepatobiliary inflammation and fibrosis in PSC

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