UMLS:C0019693 - FACTA Search

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Query: UMLS:C0019693 (HIV)
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A characteristic feature of human intestinal spirochetosis (IS) is the colonization of the mucosa of the large intestine with intestinal spirochetes of the genus Brachyspira. The joining of the brachyspirae with the apical cellular membrane of enterocytes resembles in histological slides a false brush border of the intestinal mucosa. Various symptoms related to the involvement of the large gut were found with invasive IS. From the cultures of these cases were isolated Brachyspira aalborgii and B. pilosicoli. The frequency of the incidence of brachyspirae depended on the socio-economic living conditions of people. Colonization of the mucosa of the large gut was found more often in human populations in the developing countries; it was fairly rare in countries with high hygienic standards. An exception were men of homosexual orienation and patients presenting with a HIV infection. Isolation of brachyspirae from the faeces and biopsy of the mucosa of the large gut are fairly demanding jobs, especially with B. aalborgii. Most documented IS cases of this aetiology were diagnosed using immunohistochemical methods and amplification of the genus-specific region of the gene 16S rRNA. Isolation of B. pilosicoli tends to be simpler, it requires anaerobic incubation on selective blood agars for a period of 3-6 days at 37 degrees C. When manual haemoculture systems were used, patients in a critical state presented a translocation of brachyspirae into blood circulation, while automatic systems don't necessarily diagnose spirochetaemia. In the management of described cases of invasive IS particularly successful proved metronidazole and beta-lactam antibiotics. In isolated B. pilosicoli, in vitro tests confirmed sensitivity to metronidazole, ceftriaxone, meropenem, tetracycline, moxifloxacine and chloramphenicol. A varying frequency of resistance was found with clindamycin and amoxicillin, which how ever was efficacious in combination with clavulanic acid.
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PMID:[Human intestinal spirochetosis]. 1514 83

The image of HIV spreading throughout the body rarely conjures up images of a person's gut. Yet the gut is one of the primary target sites, perhaps especially when a person is infected with HIV through rectal intercourse, oral sex, or ingestion of infected breast milk.
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PMID:Investigators learn how HIV targets the gut. Findings may explain inflammatory effects. 1544 33

Most molecules involved in the recognition and elimination of pathogens by the immune system are glycoproteins. Oligosaccharides attached to glycoproteins initiate biological functions through mechanisms that involve multiple interactions of the monosaccharide residues with receptors. For example, calreticulin, a quality-control lectin-like chaperone, interacts with glucosylated mannose glycans presented by empty major histocompatibility complex (MHC) class I molecules, retaining them in the endoplasmic reticulum (ER) until antigenic peptide is loaded. Clusters of specific IgG glycoforms, present in increased amounts in rheumatoid arthritis, bind mannose-binding lectin (MBL), providing a potential route to inflammation through activation of the complement pathway. Secretory IgA glycans bind gut bacteria, and an unusual cluster of mannose residues on gp120, the surface coat protein of the HIV virus, is recognized by the novel 'domain-swapped' IgG 2G12 serum antibody.
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PMID:Sugar-mediated ligand-receptor interactions in the immune system. 1545 Jul 46

We investigated the hypothesis that host immunosuppression due to advancing human immunodeficiency virus (HIV) disease favors the direct development of infective larvae of Strongyloides stercoralis, which may facilitate hyperinfection and, hence, disseminated strongyloidiasis. To do this, we sought correlations between the immune status of the subjects and the development of S. stercoralis infections. Among 35 adults, there were significant negative rank correlations between CD4+ cell counts and the proportions of free-living male and female worms. Thus, in individuals with preserved immune function, direct development of S. stercoralis is favored, whereas, in individuals with lesser immune function, indirect development is relatively more common. These results may explain the notable absence of disseminated strongyloidiasis in advanced HIV disease. Because disseminated infection requires the direct development of infective larvae in the gut, the observed favoring of indirect development in individuals immunosuppressed by advancing HIV disease is not consistent with the promotion of disseminated infection.
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PMID:Why does HIV infection not lead to disseminated strongyloidiasis? 1571 83

The gastrointestinal tract is the site of early abundant HIV replication and associated marked CD4 T-cell depletion. The aim of this study was to characterize the basis for the increased HIV replication in this compartment. Isolated mononuclear cells of the peripheral blood (PBMCs), the intestinal lamina propria (LPMCs), and purified gut lamina propria CD4 T-cell subpopulations (LP T cells) were isolated, phenotypically characterized, and infected in vitro with 2 different HIV-1 strains. T-cell subpopulations were analyzed by fluorescence-activated cell sorter. HIV-1 core protein p24 was determined in supernatants after in vitro infection. Furthermore the effect of T-cell stimulation on the replication of M- and T-tropic HIV strains was studied. In vitro replication of HIV-1 was significantly increased in CD69 compared with CD69 CD4 LP T cells, while there was no difference between CD103 and CD103 CD4 LP T cells. Experimental stimulation of LPMCs, which mimics activation by intestinal pathogens frequently present in the bowel of HIV-infected patients, further dramatically enhances HIV replication (24.5-fold) compared with nonstimulated LPMCs. M-tropic HIV-1 showed a preferential replication in LPMCs, while T-tropic HIV-1 strain showed a preferential replication in PBMCs. Thus, the elevated activation state of target cells in the intestine and not the expression of the homing marker CD103 is directly linked to massive HIV production.
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PMID:Replication of M-tropic HIV-1 in activated human intestinal lamina propria lymphocytes is the main reason for increased virus load in the intestinal mucosa. 1560 20

Apart from fusion inhibitors, 'conventional' antiretrovirals such as nucleoside reverse transcriptase inhibitors (NRTIs), non-nucleoside reverse transcriptase inhibitors (NNRTIs) and protease inhibitors (PIs) act on intracellular targets. Intracellular concentrations of these agents may be an important determinant of antiviral activity, and the pharmacokinetics of intracellular drug accumulation (including binding to cytosolic proteins, intracellular-free fraction, influx and efflux kinetics and intracellular drug metabolism) are likely to impact upon efficacy and toxicity. To date, intracellular drug accumulation has been poorly studied in vivo, due to methodological difficulties and the relatively large volumes of blood required. NRTIs require intracellular conversion to their active phosphorylated metabolites: interactions between these agents, or with other drugs may impact upon efficacy. PIs are metabolised by cytochrome P450 enzymes in gut and liver; some intracellular metabolism by P450 isoforms is also possible. PIs are also substrates for drug efflux transporters such as P-gp and MRP1. We have previously observed a hierarchy of intracellular accumulation of PIs, most probably related to physiochemical characteristics of these drugs such as lipophilicity and plasma protein binding. Comparatively, little is known about the intracellular pharmacokinetics of NNRTIs. These drugs probably do not accumulate inside cells to any significant degree. The study of intracellular pharmacokinetics of HIV drugs is central to investigating putative sanctuary sites where HIV may replicate with little selective pressure. However, stringent methodological procedures need to be applied, and techniques for measuring intracellular drug are in their infancy. Moreover, failure to differentiate between truly intracellular drug and drug bound to cell membranes render results difficult to interpret.
J HIV Ther 2004 Nov
PMID:Intracellular pharmacokinetics of antiretroviral agents. 1573 42

New information on the crystal structures of the HIV and the simian immunodeficiency virus (SIV) envelopes represented one of the scientific highlights of the 12th Annual Conference on Retroviruses and Opportunistic Infections. Numerous presentations also underscored the increasing recognition of the central role of gut-associated lymphoid tissue in AIDS pathogenesis and helped reveal a better understanding of the multiple mechanisms underlying CD4+ T lymphocyte depletion in AIDS. Progress on vaccine development was largely incremental but was strongly influenced by the impact of an expanding array of flow cytometric assays that have revealed significant functional and phenotypic differences in virus-specific CD8+ cells. The interplay between host cellular and humoral immune responses and virus evolution was another prominent theme, and it underscored the challenge facing host immune responses and vaccine developers in attempting to thwart an ever-mutating virus.
Top HIV Med
PMID:HIV pathogenesis and vaccine development. 1584 68

To assess the immunomodulatory activity of the HIV Tat transduction peptide for enhancement of suppression of Type 1 autoimmune diabetes, the 11 amino acid HIV-1 Tat transduction peptide was genetically linked to the major islet autoantigens proinsulin (INS) and glutamic acid decarboxylase (GAD). The Tat-autoantigen fusion proteins were synthesized in Escherichia coli and characterized by acrylamide gel separation and immunoblot analysis. Histological examination of pancreatic islets isolated from juvenile NOD mice inoculated orally with the Tat-autoantigen conjugates revealed a significant reduction in islet inflammation (insulitis) in comparison with islets from unimmunized mice. Increased serum IgG1 antibody isotype titers detected in Tat-autoantigen inoculated mice suggest that the transduction peptide-autoantigen fusion proteins stimulate Th2 lymphocyte mediated bystander suppression. The reduction of islet insulitis observed in Tat-autoantigen inoculated mice suggests that the adjuvant effect of the Tat transduction peptide resides in Tat enhanced delivery of linked autoantigens through enterocytes to lymphocytes in the gut-associated lymphoid tissues.
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PMID:An HIV-1 tat-autoantigen fusion protein suppresses insulitis in NOD mice. 1598 47

On August 29-31, 2004, 84 academic and industry scientists from 16 countries gathered in Copper Mountain, Colorado USA to discuss certain issues at the forefront of the science of probiotics and prebiotics. The format for this invitation only meeting included six featured lectures: engineering human vaginal lactobacilli to express HIV-inhibitory molecules (Peter Lee, Stanford University), programming the gut for health (Thaddeus Stappenbeck, Washington University School of Medicine), immune modulation by intestinal helminthes (Joel Weinstock, University of Iowa Hospitals and Clinics), hygiene as a cause of autoimmune disorders (G. A. Rook, University College London), prebiotics and bone health (Connie Weaver, Purdue University) and prebiotics and colorectal cancer risk (Ian Rowland, Northern Ireland Centre for Food and Health). In addition, all participants were included in one of eight discussion groups on the topics of engineered probiotics, host-commensal bacteria communication, 'omics' technologies, hygiene and immune regulation, biomarkers for healthy people, prebiotic and probiotic applications to companion animals, development of a probiotic dossier, and physiological relevance of prebiotic activity. Brief conclusions from these discussion groups are summarized in this paper.
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PMID:Selected topics in probiotics and prebiotics: meeting report for the 2004 international scientific association for probiotics and prebiotics. 1610 38

HIV-1 and simian immunodeficiency virus (SIV), as well as their hosts, face perils at mucosal front lines in early infection. At these sites, 'resting' CD4+ memory T cells fuel infection (because they are hosts for virus), depleting CD4+ memory T cells throughout the lymphoid tissues, particularly in the gut, and eliciting an immunosuppressive regulatory T-cell response that impairs host defence. But HIV-1 and SIV also risk elimination at the earliest stage of infection, at the mucosal point of entry, if founder populations of infected cells do not expand sufficiently to establish a self-propagating infection. Microbicides and vaccines could increase these viral vulnerabilities at mucosal front lines.
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PMID:Perils at mucosal front lines for HIV and SIV and their hosts. 1620 81

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