Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0021051 (immunodeficiency)
 71,517 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Antiviral therapy of human immunodeficiency virus (HIV) infection is currently based on inhibition of reverse transcriptase by dideoxynucleosides, such as azidothymidine. Because of widespread toxicity it is reasonable to selectively target these drugs to infected cells. This may be accomplished utilizing drug-LDL conjugates, which are internalized via cell specific receptor pathways. With respect to HIV infection, scavenger receptors of the macrophage system seems to offer a hopeful perspective. This pathway requires chemical modification of surface polarity of the LDL. Cell experiments were conducted in HepG2 hepatocytes, which express apolipoprotein B receptors, and in P388 macrophages, which express scavenger receptors. LDL particles to be conjugated were isolated from blood donor plasma and from LDL-apheresis waste material. Non-covalent LDL conjugation with amphiphilic nucleoside derivatives produced only an unspecific nucleoside transfer to cell membranes, due to instability of the LDL conjugates. An experimental method (coincubation test) was developed to identify those conjugates that are stable in the presence of other lipophilic compartments. Covalent coupling of nucleosides to the apolipoprotein B moiety of LDL particles resulted in stable conjugates. As a consequence, the surface charge became negative, and the LDL displayed scavenger receptor affinity rather than apolipoprotein B receptor affinity. Selective targeting of nucleosides to macrophages can be accomplished by covalent coupling to LDL.
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PMID:Preparation of nucleoside-LDL-conjugates for the study of cell-selective internalization: stability characteristics and receptor affinity. 176 41

Highly-active antiretroviral therapy (HAART) has lead to a dramatic decrease in the morbidity of patients infected with the human immunodeficiency virus (HIV). However, metabolic side effects, including lipodystrophy-associated (LD-associated) dyslipidemia, have been reported in patients treated with antiretroviral therapy. This study was designed to determine whether successful HAART was responsible for a dysregulation in the homeostasis of tumor necrosis factor-alpha (TNF-alpha), a cytokine involved in lipid metabolism. Cytokine production was assessed at the single cell level by flow cytometry after a short-term stimulation of peripheral blood T cells from HIV-infected (HIV(+)) patients who were followed during 18 months of HAART. A dramatic polarization to TNF-alpha synthesis of both CD4 and CD8 T cells was observed in all patients. Because it was previously shown that TNF-alpha synthesis by T cells was highly controlled by apoptosis, concomitant synthesis of TNF-alpha and priming for apoptosis were also analyzed. The accumulation of T cells primed for TNF-alpha synthesis is related to their escape from activation-induced apoptosis, partly due to the cosynthesis of interleukin-2 (IL-2) and TNF-alpha. Interestingly, we observed that LD is associated with a more dramatic TNF-alpha dysregulation, and positive correlations were found between the absolute number of TNF-alpha CD8 T-cell precursors and lipid parameters usually altered in LD including cholesterol, triglycerides, and the atherogenic ratio apolipoprotein B (apoB)/apoA1. Observations from the study indicate that HAART dysregulates homeostasis of TNF-alpha synthesis and suggest that this proinflammatory response induced by efficient antiretroviral therapy is a risk factor of LD development in HIV(+) patients.
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PMID:Alteration of tumor necrosis factor-alpha T-cell homeostasis following potent antiretroviral therapy: contribution to the development of human immunodeficiency virus-associated lipodystrophy syndrome. 1080 87

The outcome of infection with hepatitis C virus (HCV) varies greatly. The virus associates with serum lipoproteins, including those containing apolipoprotein E (apoE) and apolipoprotein B (apoB), and may enter cells via the low-density lipoprotein receptor (LDLR). ApoE genotypes can affect the extent of damage in diseases caused by 2 other viruses--herpes simplex virus type 1 (HSV1; in Alzheimer's disease and herpes labialis) and human immunodeficiency virus (HIV). We therefore investigated whether specific apoE and apoB alleles were associated with different outcomes of HCV infection. A total of 156 anti-HCV-positive patients and 104 non-HCV-infected patients were studied. Liver biopsy specimens from patients with chronic HCV infection (n = 111) were assessed for disease severity by the Knodell system. ApoE and apoB genotypes were determined by standard polymerase chain reaction (PCR) methods. There was no significant difference among the apoE genotypes of HCV-infected subjects compared with previously published population data, or between HCV-RNA positive or negative patients. However, chronically HCV-infected subjects with mild liver disease (n = 65) had a significantly higher apoE-epsilon 4 allele frequency (20.0%) than those (n = 46) with severe disease (6.5%). ApoB alleles alone or in combination with apoE were not associated with mild or severe disease. The overall apoE allele frequencies of patients with liver disease not caused by HCV were similar to those of the total HCV group and in contrast to the HCV patients, the apoE allele frequencies were similar in those patients with no or mild fibrosis as compared with those with bridging fibrosis or cirrhosis. In conclusion, carriage of an apoE-epsilon 4 allele may be protective against liver damage caused by HCV, but not against damage due to various nonviral causes. This is yet another case in which apoE may determine the severity of a viral disease.
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PMID:Apolipoprotein E-epsilon 4 protects against severe liver disease caused by hepatitis C virus. 1464 71

This study examined the effect of human immunodeficiency virus (HIV) protease inhibitor therapy on lipoprotein production and catabolism in vivo. The HIV protease inhibitor ritonavir was given to C57BL/6 mice fed either a basal low-fat diet or a Western type high-fat diet. Fasted mice were injected with Triton WR1339 followed by hourly blood collection to monitor lipoprotein production. Results showed that ritonavir increased VLDL triglyceride production by 30% over a 4 h period when mice were fed the low-fat basal diet. The ritonavir effect was more pronounced under high-fat feeding conditions, with a 2-fold increase in VLDL triglyceride production rate. Ritonavir did not alter hepatic expression levels of diacylglycerol acyltransferase or microsomal triglyceride transfer protein, but increased hepatic apolipoprotein B (apoB) secretion rates under both low- and high-fat dietary conditions. In contrast to its effect on lipoprotein production, ritonavir did not alter triglyceride-rich lipoprotein clearance from circulation under either dietary condition. Taken together, these results indicate that the hyperlipidemic effect of HIV protease inhibitors is a direct result of increased hepatic lipoprotein production. The mechanism appears to be related to their role in preventing proteasome-mediated degradation of apoB and activated sterol regulatory element binding proteins in the liver.
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PMID:The HIV protease inhibitor ritonavir increases lipoprotein production and has no effect on lipoprotein clearance in mice. 1223 77

Viral replication usually requires that innate intracellular lines of defence be overcome, a task usually accomplished by specialized viral gene products. The virion infectivity factor (Vif) protein of human immunodeficiency virus (HIV) is required during the late stages of viral production to counter the antiviral activity of APOBEC3G (apolipoprotein B mRNA-editing enzyme, catalytic polypeptide-like 3G; also known as CEM15), a protein expressed notably in human T lymphocytes. When produced in the presence of APOBEC3G, vif-defective virus is non-infectious. APOBEC3G is closely related to APOBEC1, the central component of an RNA-editing complex that deaminates a cytosine residue in apoB messenger RNA. APOBEC family members also have potent DNA mutator activity through dC deamination; however, whether the editing potential of APOBEC3G has any relevance to HIV inhibition is unknown. Here, we demonstrate that it does, as APOBEC3G exerts its antiviral effect during reverse transcription to trigger G-to-A hypermutation in the nascent retroviral DNA. We also find that APOBEC3G can act on a broad range of retroviruses in addition to HIV, suggesting that hypermutation by editing is a general innate defence mechanism against this important group of pathogens.
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PMID:Broad antiretroviral defence by human APOBEC3G through lethal editing of nascent reverse transcripts. 1284 Jul 37

The human immunodeficiency virus type 1 (HIV-1) relies on Vif (viral infectivity factor) to overcome the potent antiviral function of APOBEC3G (apolipoprotein B mRNA-editing enzyme, catalytic polypeptide-like 3G, also known as CEM15). Using an APOBEC3G-specific antiserum, we now show that Vif prevents virion incorporation of endogenous APOBEC3G by effectively depleting the intracellular levels of this enzyme in HIV-1-infected T cells. Vif achieves this depletion by both impairing the translation of APOBEC3G mRNA and accelerating the posttranslational degradation of the APOBEC3G protein by the 26S proteasome. Vif physically interacts with APOBEC3G, and expression of Vif alone in the absence of other HIV-1 proteins is sufficient to cause depletion of APOBEC3G. These findings highlight how the bimodal translational and posttranslational inhibitory effects of Vif on APOBEC3G combine to markedly suppress the expression of this potent antiviral enzyme in virally infected cells, thereby effectively curtailing the incorporation of APOBEC3G into newly formed HIV-1 virions.
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PMID:HIV-1 Vif blocks the antiviral activity of APOBEC3G by impairing both its translation and intracellular stability. 1452 6

HIV-1 and other retroviruses occasionally undergo hypermutation, characterized by a high rate of G-to-A substitution. Recently, the human apolipoprotein B mRNA-editing, enzyme-catalytic, polypeptide-like 3G (APOBEC3G), first identified as CEM15, was shown to be packaged into retroviral virions and to deaminate deoxycytidine to deoxyuridine in newly synthesized viral minus-strand DNA, thereby inducing G-to-A hypermutation. This innate mechanism of resistance to retroviral infection is counteracted by the HIV-1 viral infectivity factor (Vif), which protects the virus by preventing the incorporation of APOBEC3G into virions by rapidly inducing its ubiquitination and proteasomal degradation. To gain insights into the mechanism by which Vif protects HIV-1 from APOBEC3G, we substituted several amino acids in human APOBEC3G with equivalent residues in simian APOBEC3Gs that are resistant to HIV-1 Vif and determined the effects of the mutations on HIV-1 replication in the presence and absence of Vif. We found that a single amino acid substitution mutant of human APOBEC3G (D128K) can interact with HIV-1 Vif but is not depleted from cells; thus, it inhibits HIV-1 replication in an HIV-1 Vif-resistant manner. Interestingly, rhesus macaque simian immunodeficiency virus 239 or HIV-2 Vif coexpression depleted the intracellular steady state levels of the D128K mutant and abrogated its antiviral activity, indicating that it can be a substrate for the proteasomal pathway. The HIV-1 Vif-resistant mutant APOBEC3G could provide a gene therapy approach to combat HIV-1 infection.
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PMID:A single amino acid substitution in human APOBEC3G antiretroviral enzyme confers resistance to HIV-1 virion infectivity factor-induced depletion. 1505 39

In the human genome the apolipoprotein B mRNA-editing enzyme catalytic polypeptide (APOBEC)3 gene has expanded into a tandem array of genes termed APOBEC3A-G. Two members of this family, APOBEC3G and APOBEC3F, have been found to have potent activity against virion infectivity factor deficient (Deltavif) human immunodeficiency virus 1 (HIV-1). These enzymes become encapsidated in Deltavif HIV-1 virions and in the next round of infection deaminate the newly synthesized reverse transcripts. The lentiviral Vif protein prevents the deamination by inducing the degradation of APOBEC3G and APOBEC3F. We report here that two additional APOBEC3 family members, APOBEC3B and APOBEC3C, have potent antiviral activity against simian immuno-deficiency virus (SIV), but not HIV-1. Both enzymes were encapsidated in HIV-1 and SIV virions and were active against Deltavif SIV(mac) and SIV(agm). SIV Vif neutralized the antiviral activity of APOBEC3C, but not that of APOBEC3B. APOBEC3B induced abundant G --> A mutations in both wild-type and Deltavif SIV reverse transcripts. APOBEC3C induced substantially fewer mutations. APOBEC3F was found to be active against SIV and sensitive to SIV(mac) Vif. These findings raise the possibility that the different APOBEC3 family members function to neutralize specific lentiviruses.
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PMID:APOBEC3B and APOBEC3C are potent inhibitors of simian immunodeficiency virus replication. 1546 72

Primate lentivirus Vif proteins function by suppressing the antiviral activity of the cell-encoded apolipoprotein B mRNA-editing enzyme-catalytic polypeptide-like (APOBEC) proteins APOBEC3G and APOBEC3F. It has been hypothesized that species-specific susceptibilities of APOBEC proteins to Vif proteins may help govern the transmission of primate lentiviruses to new host species. Consistent with this view and with previous results, we report that the Vif proteins of several diverse simian immunodeficiency viruses (SIVs) that are not known to infect humans are not effective inhibitors of human APOBEC3G or APOBEC3F when assessed in transient-transfection experiments. Unexpectedly, this lack of SIV Vif function did not prevent the replication of two vif-deficient SIVs (SIVtan and SIVmnd1; isolated from tantalus monkeys and mandrills, respectively) in a human T-cell line, HUT78, that expresses both APOBEC 3G and APOBEC3F, a finding which demonstrates that some SIVs are partially resistant to the antiretroviral effects of these enzymes irrespective of Vif function. Additional virus replication studies also revealed that the Vif protein of SIVtan is, in fact, active in human T cells, as it substantially enhanced the replication of its cognate virus and human immunodeficiency virus type 1. In sum, we now consider it improbable that species-specific restrictions to SIV Vif function can explain the lack of human infection with certain SIVs. Instead, our data reveal that the species-specific modulation of Vif function is more complex than previously envisioned and that additional (as-yet-unidentified) viral or host factors may be involved in regulating this dynamic interaction between host and pathogen.
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PMID:Further investigation of simian immunodeficiency virus Vif function in human cells. 1547 43

The human apolipoprotein B mRNA-editing enzyme, catalytic polypeptide-like 3G (APOBEC3G, or hA3G) protein, provides cells with an intracellular antiretroviral activity that is associated with the hypermutation of viral DNA through cytidine deamination. Indeed, hA3G belongs to a family of vertebrate proteins that contain one or two copies of a signature sequence motif unique to cytidine deaminases (CTDAs). We have constructed secondary structure models of the APOBEC proteins through a combination of structure prediction and subsequent alignment with nucleotide CTDAs whose structures have been solved to high resolution. Secondary structure elements common to all CTDAs are predicted, in addition to structural features that are apparently unique to the APOBEC family of proteins. Most notably, a putative looped-out helix abuts an amino acid that modulates the susceptibility of A3G proteins to the antagonistic action of the human and simian immunodeficiency virus (HIV and SIV) Vif proteins. Using the structure models as a guide, we reflect on mutagenesis studies of the APOBEC1 (A1), hA3G and activation induced deaminase (AID) proteins, with emphasis on the determinants of cytidine deamination and antiviral activities.
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PMID:Cytidine deamination and resistance to retroviral infection: towards a structural understanding of the APOBEC proteins. 1578 Aug 64


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