HIV infects activated CD4 ؉ T cells and induces their depletion. Progressive HIV infection leading to AIDS is fueled by chronic immune hyperactivation, mediated by inflammatory cytokines like TNF␣. This has been related to intestinal epithelial damage and microbial LPS translocation into the circulation. Using 11-color flow cytometry, cell sorting, and cell culture, we investigated the numbers and TNF␣ production of fully defined circulating dendritic cell and monocyte populations during HIV-1 infection. In 15 viremic, untreated patients, compared with 8 treated, virologically suppressed patients or to 13 healthy blood donors, circulating CD141 (BDCA-3) ؉ and CD1c (BDCA-1) ؉ dendritic cell counts were reduced. Conversely, CD14 ؉ CD16 ؉؉ monocyte counts were increased, particularly those expressing M-DC8, while classical CD14 ؉؉ CD16 ؊ M-DC8 ؊ monocyte numbers were unchanged. Blood mononuclear cells from viremic patients produced more TNF␣ in response to LPS than those from virologically suppressed patients. M-DC8 ؉ monocytes were mostly responsible for this overproduction. Moreover, M-DC8 ؉ monocytes differentiated in vitro from classical monocytes using M-CSF and GM-CSF, which is increased in viremic patient's plasma. This M-DC8 ؉ monocyte population, which is involved in the pathogenesis of chronic inflammatory diseases like Crohn disease, might thus be considered as a major actor in the immune hyperactivation fueling HIV infection progression. (Blood. 2012;120(11): 2259-2268) IntroductionHIV-1 infection induces the depletion of CD4 ϩ T lymphocytes in blood and lymphoid organs, particularly in the gut-associated lymphoid tissue. [1][2][3] The absence of immune activation during the chronic phase of the infection distinguishes nonprogressive from progressive infections in patients as well as in nonhuman primate models of HIV infection. [4][5][6] Systemic immune activation is correlated to the increased translocation of gut luminal microbial products such as the Gram-negative bacterial lipopolysaccharide (LPS). 7 LPS stimulates the production of proinflammatory cytokines, particularly TNF␣. In HIV-1-infected patients, TNF␣ serum levels increase in correlation with disease progression and drop to normal levels after treatment only in patients with good virologic and immunologic responses. 3,8 By activating the NF-B pathway, TNF␣ induces viral replication in HIV-infected CD4 ϩ T lymphocytes. 3,9 In chronic inflammatory bowel diseases, TNF␣ affects mucosal integrity, leading to microbial product systemic translocation. 10 Granulocyte/macrophage colony-stimulating factor (GM-CSF) and LPS also induce HIV replication in infected myeloid cells. 11,12 GM-CSF and TNF␣ are produced by monocytes and dendritic cells (DCs) after LPS stimulation.During chronic HIV infection, circulating plasmacytoid and myeloid DC (pDC and mDC) numbers are reduced. [13][14][15] Myeloid DCs were mostly studied in HIV-infected patients using CD11c as a marker. Now, they are further subdivided into BDCA-1 ϩ and BDCA-3 ϩ mDC subsets, the latter r...
Pseudomonas aeruginosa (Pa) is one of the major bacterial pathogens causing nosocomial infections. During the past few decades, multidrug-resistant (MDR) and extensively drug-resistant (XDR) lineages of Pa have emerged in hospital settings with increasing numbers. However, it remains unclear which determinants of Pa facilitated this spread. A total of 211 clinical XDR and 38 susceptible clinical Pa isolates (nonXDR), as well as 47 environmental isolates (EI), were collected at the Heidelberg University Hospital. We used RAPD PCR to identify genetic clusters. Carriage of carbapenamases (CPM) and virulence genes were analyzed by PCR, biofilm formation capacity was assessed, in vitro fitness was evaluated using competitive growth assays, and interaction with the host's immune system was analyzed using serum killing and neutrophil killing assays. XDR isolates showed significantly elevated biofilm formation (p < 0.05) and higher competitive fitness compared to nonXDR and EI isolates. Thirty percent (62/205) of the XDR isolates carried a CPM. Similarities in distribution of virulence factors, as well as biofilm formation properties, between CPM+ Pa isolates and EI and between CPM- and nonXDR isolates were detected. Molecular typing revealed two distinct genetic clusters within the XDR population, which were characterized by even higher biofilm formation. In contrast, XDR isolates were more susceptible to the immune response than nonXDR isolates. Our study provides evidence that the ability to form biofilms is an outstanding determinant for persistence and endemic spread of Pa in the hospital setting.
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