Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

HIV-1 envelope glycoproteins (Env), expressed at the cell surface, induce apoptosis of uninfected CD4+ T cells, contributing to the development of AIDS. Here we demonstrate that, independently of HIV replication, transfected or HIV-infected cells that express Env induced autophagy and accumulation of Beclin 1 in uninfected CD4+ T lymphocytes via CXCR4. The same phenomena occurred in a T cell line and in transfected HEK.293 cells that expressed both wild-type CXCR4 and a truncated form of CD4 that is unable to bind the lymphocyte-specific protein kinase Lck. Env-mediated autophagy is required to trigger CD4+ T cell apoptosis since blockade of autophagy at different steps, by either drugs (3-methyladenine and bafilomycin A1) or siRNAs specific for Beclin 1/Atg6 and Atg7 genes, totally inhibited the apoptotic process. Furthermore, CD4+ T cells still underwent Env-mediated cell death with autophagic features when apoptosis was inhibited. These results suggest that HIV-infected cells can induce autophagy in bystander CD4+ T lymphocytes through contact of Env with CXCR4, leading to apoptotic cell death, a mechanism most likely contributing to immunodeficiency.
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PMID:Autophagy is involved in T cell death after binding of HIV-1 envelope proteins to CXCR4. 1688 53

VLPs (virus-like particles) are promising delivery vectors for molecular therapy, since they combine the major advantages of viral vectors with significantly fewer viral vector disadvantages. The present paper describes the molecular construction of chimaeric VLPs based on minimal SIV (simian immunodeficiency virus) and HIV1 components. A chimaeric protein was constructed by fusion of SIV matrix protein (p17) and HIV1 p6 protein, and we demonstrated that the chimaeric proteins assemble as 80 nm nanoparticles containing approximately 7700 chimaeric protein units. Chimaeric VLPs are released from HEK-293T cells (human embryonic kidney cells expressing the large T-antigen of simian virus 40) and are fully encapsulated with lipid membrane. Chimaeric VLPs are produced at 3.7-fold higher levels when compared with SIV p17 VLPs owing to duplication of a PTAP (Pro-Thr-Ala-Pro) domain previously shown as essential for virus particle release. The chimaeric VLPs constructed in the present paper were efficiently pseudotyped with vesicular-stomatitis-virus glycoprotein, as shown by immunoprecipitation assays.
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PMID:Molecular construction of bionanoparticles: chimaeric SIV p17-HIV I p6 nanoparticles with minimal viral protein content. 1739 Nov 1

Gag proteins are necessary and sufficient to direct human immunodeficiency virus type 1 (HIV-1) particle assembly and budding. Recent evidence suggests that Gag targeting to late endosomal/multivesicular body (LE/MVB) compartments occurs prior to viral particle budding at the plasma membrane (PM). However, the route that Gag follows before reaching its steady-state destinations still remains a subject of debate. Using a subcellular fractionation method that separates PM from LE/MVB combined with pulse-chase labeling, we analyzed Gag trafficking in HIV-1-producing HEK 293T cells. Our results reveal that the majority of newly synthesized Gag is primarily targeted to the PM. While PM-targeted Gag was efficiently released, a significant fraction of the remaining cell surface-associated Gag was found to be subsequently internalized to LE/MVB, where it accumulated, thus accounting for the majority of LE/MVB-associated Gag. Importantly, this accumulation of Gag in LE/MVB was found to be cholesterol dependent since it was sensitive to the sterol-binding drugs filipin and methyl-beta-cyclodextrin. These results point towards the PM as being the primary site of productive HIV-1 assembly in cells that also support Gag accumulation in intracellular compartments.
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PMID:Productive human immunodeficiency virus type 1 assembly takes place at the plasma membrane. 1750 89

The HIV-1 Rev response element (RRE), a highly structured RNA sequence consisting of five stemloops, is found in all spliced and partially spliced human immunodeficiency virus (HIV) mRNA transcripts. The RRE interacts with HIV-encoded Rev protein, which facilitates exit of the transcripts from the nucleus to the cytoplasm. Because the Rev/RRE interaction is critical to virus function, it is considered a potential target for therapeutic drugs. We have investigated the interactions of antisense oligonucleotides with stem-loop II, a region that contains the high-affinity binding site for Rev. Oligo-2'-O-methylribonucleotides terminating in a nuclease resistant 3'-methylphosphonate internucleotide linkage were targeted to the 5'- or 3'-side of stem-loop IIB, which is adjacent to the Rev binding site. Thermal denaturation experiments showed that oligonucleotides of this type form highly stable duplexes with complementary single-stranded RNA. Gel electrophoretic mobility shift assays (EMSA) showed that the oligonucleotides bound with high affinity and specificity at 37 degrees C to RRE stem-loop II RNA with apparent dissociation constants, K(D), in the low nM range. A 16-mer, 2-1mp, whose K(D) is 46 nM, competitively inhibited binding of Rev peptide to RRE stem-loop II RNA as shown by EMSA experiments. When transfected into HEK 293T cells, 2-1mp inhibited RRE mediated expression of chloramphenicol acetyl transferase (CAT) by 60% at a concentration of 300 nM oligonucleotide. These results are consistent with a mechanism by which 2-1mp blocks access of Rev to the RRE/CAT transcript thus preventing nuclear export and subsequent translation.
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PMID:Allosteric inhibition of the HIV-1 Rev/RRE interaction by a 3'-methylphosphonate modified antisense oligo-2'-O-methylribonucleotide. 1785 68

Expression of the human immunodeficiency virus type 1 genome requires several cellular factors regulating transcription, alternative splicing, RNA stability, and intracellular localization of the viral transcripts. In vitro and ex vivo approaches have identified SR proteins and hnRNPs of the A/B and H subfamilies as cellular factors that regulate different aspects of viral mRNA metabolism. To understand the role of these protein families within the context of the full replicating virus, we altered the expression levels of hnRNPs H, F, 2H9, GRSF1, A1, A2, and A3 and SR proteins SC35, SF2, and SRp40 in HEK 293 cells transfected with the proviral clone pNL4-3. Quantitative and semiquantitative PCR analyses showed that overexpression as well as downregulation of these proteins disrupted the balance of alternatively spliced viral mRNAs and may alter viral transcription. Furthermore, expression of hnRNPs H, F, 2H9, A1, and A2 and SR proteins SF2 and SRp40 increased nuclear localization of the unspliced Gag/Pol mRNA, while the same factors increased the cytoplasmic localization of the partially spliced Env mRNA. We also report that overexpression of hnRNPs A1 and A2 and SR proteins SF2, SC35, and SRp40 causes a dramatic decrease in virion production. Finally, utilizing a reporter TZM-bl cell line, we show that virion infectivity may be also impacted by deregulation of expression of most SR proteins and hnRNPs. This work demonstrates that cellular factors regulating mRNA processing have wide-ranging effects on human immunodeficiency virus type 1 replication and should be considered novel therapeutic targets.
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PMID:Role of cellular RNA processing factors in human immunodeficiency virus type 1 mRNA metabolism, replication, and infectivity. 1900 59

The interferon-induced protein kinase RNA activated (PKR) is activated after virus infection. This activation is transient during the human immunodeficiency virus type 1 (HIV-1) infection of lymphocytes, and the protein is not activated at the peak of infection. We observed that interferon-induced adenosine deaminase acting on RNA 1-p150 (ADAR1-p150) and ADAR1-p110 expression increases while the virus replicates actively. Furthermore, both forms of ADAR1 show enhanced interactions with PKR at the peak of HIV infection, suggesting a role for this protein in the regulation of PKR activation. We observed that ADAR1-p150, as previously shown for the TAR RNA binding protein (TRBP), reverses the PKR inhibition of HIV expression and production in HEK 293T cells. This activity requires the Z-DNA binding motif and the three double-stranded RNA binding domains but not the catalytic domain. In astrocytic cells, ADAR1-p150 increased HIV expression and production to an extent similar to that of TRBP. Small interfering RNAs against ADAR1-p150 moderately decreased HIV production. These results indicate that two interferon-induced proteins, ADAR1 and PKR, have antagonistic functions on HIV production. They suggest that ADAR1 and TRBP belong to a multiprotein complex that inhibits PKR during the HIV infection of lymphocytes.
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PMID:ADAR1 interacts with PKR during human immunodeficiency virus infection of lymphocytes and contributes to viral replication. 1960 74

The human immunodeficiency virus (HIV)-1 protein Tat acts as a transcription transactivator that stimulates expression of the infected viral genome. It is released from infected cells and can similarly affect neighboring cells. The nucleocapsid is an important protein that has a related significant role in early mRNA expression, and which contributes to the rapid viral replication that occurs during HIV-1 infection. To investigate the interaction between the Tat and nucleocapsid proteins, we utilized cDNA microarrays using pTat and flag NC cotransfection in HEK 293T cells and reverse transcription-polymerase chain reaction to validate the microarray data. Four upregulated genes and nine downregulated genes were selected as candidate genes. Gene ontology analysis was conducted to define the biological process of the input genes. A proteomic approach using PathwayStudio determined the relationship between Tat and nucleocapsid; two automatically built pathways represented the interactions between the upregulated and downregulated genes. The results indicate that the up- and downregulated genes regulate HIV-1 replication and proliferation, and viral entry.
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PMID:Pathway analysis in HEK 293T cells overexpressing HIV-1 tat and nucleocapsid. 1988 66

RNA-based compounds are promising agents to inactivate viruses. New specific hepatitis delta virus (HDV)-derived ribozymes are natural molecules that can be engineered to specifically target a viral RNA. We have designed specific on-off adaptor (SOFA)-HDV ribozymes targeting the tat and rev sequences of the human immunodeficiency virus type 1 (HIV-1) RNA. We show that the SOFA-HDV ribozymes cleave their RNA target in vitro. They inhibit the Tat-mediated transactivation of HIV-1 from 62% to 86% in different assays. In vivo, the amount of HIV RNA was decreased by 60 and 86% with two distinct ribozymes, which indicates that the inhibition of HIV production is directly correlated to the decline in spliced and unspliced viral RNAs. These SOFAHDV- ribozymes inhibited the expression and the viral production of four HIV-1 strains, indicating an extended potential to act on multiple HIV variants. In HEK 293T and HeLa cells transfected with pNL4-3 and the SOFA-HDV-ribozymes, the reduced RNA levels consequently decreased the Gag protein expression in the cell and virus production in the supernatant. When transfected before HIV-1 infection, the ribozymes prevented the incoming virus from being expressed. The ribozymes inhibited HIV production up to 90% when transfected in combination with the HIV protease inhibitor Atazanavir. Our results strongly suggest that SOFA-HDV ribozymes have a great potential to target HIV-1 and to be used as therapeutic agents in combination therapy.
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PMID:In vitro and in vivo cleavage of HIV-1 RNA by new SOFA-HDV ribozymes and their potential to inhibit viral replication. 2142 17

Non-infectious but antigenic human immunodeficiency virus 1 (HIV-1) particles are essential tool for the research on many topics associated with this virus. Here we report the construction of plasmid containing the HIV-1 genome mutated in the pol gene, which was co-transfected with plasmids expressing the pol gene products reverse transcriptase (RT) and integrase (IN), and the glycoprotein G of vesicular stomatitis virus (VSV-G). The virions produced in HEK 293 T cells were antigenic, but able to replicate only for one cycle, e.g. first generation single-cycle replicable (SCR) virions. The presence of VSV-G in the envelope of these virions had to ensure a wider spectrum of susceptible cell types for the replication of SCR. Replication of the first generation SCR virions in HEK 293T, MT-2, and mouse spleen cells was examined by p24-capture ELISA, syncytium formation assay, and electron microscopy (EM). HEK 293T and MT-2 cell lines showed a similar replication capacity, while primary cultures of mouse spleen cells were much less effective. The infection of MT-2 cells with the first generation of SCR virions yielded the second generation SCR virions, which were non-infectious. Summing up, the HIV-1 SCR virions represent the useful tool for HIV-1 research facilitating a better biological safety. Moreover, considering their antigenic composition and limited replication, SCR virions may be a promising candidate for the vaccine studies.
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PMID:Development of single-cycle replicable human immunodeficiency virus 1 mutants. 2143 1

Human immunodeficiency virus (HIV) infects the host cells by the fusion of viral and cell membranes. Blocking the combining between HIV and the receptors can prevent HIV from entering the host cells. We designed an invasion-inhibitor for HIV-1 targeting dendritic cell (DC), including 2 important HIV-1 receptors CD4 and CCR5, and 2 molecules Flt3-L and Mip-3alpha. With the synthetic gene of the inhibitor, 2 eukaryotic expression vectors pABK-CKR5-CD4/Flt3L-Mip3alpha (pABK-HIV-MF) and pABK-CKR5-CD4 (pABK-HIV-MT) were constructed and transfected into HEK 293 cells for expression. Results from RT-PCR, immunofluorescent assay, ELISA and Western blot approved that the invasion-inhibitor for HIV-1 was successfully and exactly expressed in the eukaryotic cells. Current study formed a solid base for the further research on the function of inhibitors for HIV-1 and elimination targeting DC.
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PMID:[Design and expression of an inhibitor for HIV-1 targeting dendritic cell]. 2209 8


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