McManus Mc scite author profile

HIV-1-associated disruption of intestinal homeostasis is a major factor contributing to chronic immune activation and inflammation. Dendritic cells (DCs) are crucial in maintaining intestinal homeostasis, but the impact of HIV-1 infection on intestinal DC number and function has not been extensively studied. We compared the frequency and activation/maturation status of colonic myeloid DC (mDC) subsets (CD1c+ and CD1cneg) and plasmacytoid DCs in untreated HIV-1-infected subjects with uninfected controls. Colonic mDCs in HIV-1-infected subjects had increased CD40 but decreased CD83 expression, and CD40 expression on CD1c+ mDCs positively correlated with mucosal HIV-1 viral load, with mucosal and systemic cytokine production, and with frequencies of activated colon and blood T cells. Percent of CD83+CD1c+ mDCs negatively correlated with frequencies of IFN-γ-producing colon CD4+ and CD8+ T cells. CD40 expression on CD1c+ mDCs positively associated with abundance of high prevalence mucosal Prevotella copri and P. stercorea, but negatively associated with a number of low prevalence mucosal species including Rumminococcus bromii. CD1c+ mDC cytokine production was greater in response to in vitro stimulation with Prevotella species relative to R. bromii. These findings suggest that during HIV infection, colonic mDCs become activated upon exposure to mucosal pathobiont bacteria leading to mucosal and systemic immune activation.

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Mechanisms of bacterial resistance to antimicrobial agents

1997

164

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Human platelet calmodulin-binding proteins: identification and calcium-dependent proteolysis upon platelet activation

Rw¹,

Ea²,

Mc³

1987

Biochemistry

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Calmodulin-binding proteins have been identified in human platelets by using Western blotting techniques and 125I-calmodulin. Ten distinct proteins of 245, 225, 175, 150, 90, 82 (2), 60, and 41 (2) kilodaltons (kDa) bound 125I-calmodulin in a Ca2+-dependent manner; the binding was blocked by ethylene glycol bis(beta-aminoethyl ether)-N,N,N'N'-tetraacetic acid (EGTA), trifluoperazine, and nonradiolabeled calmodulin. Proteins of 225 and 90 kDa were labeled by antisera against myosin light chain kinase; 60- and 82-kDa proteins were labeled by antisera against the calmodulin-dependent phosphatase and caldesmon, respectively. The remaining calmodulin-binding proteins have not been identified. Calmodulin-binding proteins were degraded upon addition of Ca2+ to a platelet homogenate; the degradation could be blocked by either EGTA, leupeptin, or N-ethylmaleimide which suggests that the degradation was due to a Ca2+-dependent protease. Activation of intact platelets by thrombin, adenosine 5'-diphosphate, and collagen under conditions which promote platelet aggregation (i.e., stirring with extracellular Ca2+) also resulted in limited proteolysis of calmodulin-binding proteins including those labeled with antisera against myosin light chain kinase and the calmodulin-dependent phosphatase. Activation by the Ca2+ ionophores A23187 and ionomycin also promoted degradation of the calmodulin-binding proteins in the presence of extracellular Ca2+; however, degradation in response to the ionophores did not require stirring of the platelet suspension to promote aggregation. Many Ca2+/calmodulin-regulated enzymes are irreversibly activated in vitro by limited proteolysis. Our data indicate that limited proteolysis of Ca2+/calmodulin-regulated enzymes also occurs in the intact platelet and suggest that the proteolysis is triggered by an influx of extracellular Ca2+ associated with platelet aggregation.

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Neuromuscular blockers in surgery and intensive care, Part 1

2001

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Neuromuscular blockers in surgery and intensive care, Part 2

2001

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McManus Mc

Gut dendritic cell activation links an altered colonic microbiome to mucosal and systemic T-cell activation in untreated HIV-1 infection

Mechanisms of bacterial resistance to antimicrobial agents

Human platelet calmodulin-binding proteins: identification and calcium-dependent proteolysis upon platelet activation

Neuromuscular blockers in surgery and intensive care, Part 1

Neuromuscular blockers in surgery and intensive care, Part 2

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