Richard S. Kornbluth scite author profile

An adjuvant role for certain short bacterial immunostimulatory DNA sequences (ISSs) has recently been proposed on the basis of their ability to stimulate T helper-1 (Th1) responses in gene-vaccinated animals. We report here that noncoding, ISS-enriched plasmid DNAs or ISS oligonucleotides (ISS-ODNs) potently stimulate immune responses to coadministered antigens. The ISS-DNAs suppress IgE synthesis, but promote IgG and interferon-gamma (IFN-gamma) production. They furthermore initiate the production of IFN-gamma, IFN-alpha, IFN-beta, and interleukins 12 and 18, all of which foster Th1 responses and enhance cell-mediated immunity. Consideration should be given to adding noncoding DNA adjuvants to inactivated or subunit viral vaccines that, by themselves, provide only partial protection from infection.

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The nuclear localization signal of the matrix protein of human immunodeficiency virus type 1 allows the establishment of infection in macrophages and quiescent T lymphocytes.

Schwedler

Kornbluth

Trono

1994

Proc. Natl. Acad. Sci. U.S.A.

260

194

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Lentiviruses, including human immunodeficiency virus type 1 (HIV-1), are unusual among retroviruses in their ability to infect nondividing cells. The matrix proteins of several lentiviruses contain a short stretch of amino acids reminiscent of known nuclear localization signals. In HIV-1, this motif has been shown to function as a nuclear targeting sequence when conjugated to a heterologous protein, and to permit the active nuclear import of the HIV-1 preintegration complex in growth-arrested cells. In the present work, mutations were introduced in the matrix nuclear localizaion region of T-cell-and macrophage-tropic HIV-1 clones. The resulting viral mutants replicated with normal or even accelerated kinetics in dividing cells, including activated peripheral blood lymphocytes. However, in sharp contrast with wild-type virus, the mutants could not grow efficiently in terminally differentiated macrophages or establish a stable and inducible infection intermediate in unstimulated peripheral blood lymphocytes.Because macrophages represent a major viral reservoir in vivo, and because at any given time most T cells in the body are quiescent, these results strongly suggest that the karyophilic properties ofthe matrix protein are critical for the spread ofthe virus in HIV-infected individuals, and consequently for AIDS pathogenesis.

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Interferons and bacterial lipopolysaccharide protect macrophages from productive infection by human immunodeficiency virus in vitro.

et al. 1989

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To determine the effects of immunomodulatory agents upon HIV replication in macrophages, cultured monocyte-derived macrophages were treated with various substances and then infected with a macrophage-tropic strain of HIV-1. Pretreatment with rIFN-alpha, IFN-beta, and IFN-gamma, or bacterial LPS prevented viral replication in macrophages. In treated cultures, little or no infectious HIV or p24 core antigen was released into the supernatant, no virions were seen by electron microscopy, no viral RNA or DNA was detectable in the cell lysates, and no cytopathology (as determined by multinucleated giant cell formation) occurred. In contrast, pretreatment with a wide dose range of recombinant IL-1 beta, IL-2, IL-4, IL-6, M-CSF, TNF, or lymphotoxin failed to protect macrophages from productive infection by HIV. A consistent effect of granulocyte/macrophage-CSF on HIV replication in macrophages was not observed. In dose response studies, pretreatment with approximately 100 U/ml of IFN-alpha, approximately 10 U/ml of IFN-beta, or approximately 100 U/ml of IFN-gamma was sufficient to prevent virion release maximally and to prevent cytopathology completely. In kinetic studies, IFN-alpha, IFN-gamma, or LPS were added to the macrophage cultures either before or after infection with HIV. Even when added 3 d after infection with a multiplicity of 1 50% tissue-culture infectious dose per cell, all three treatments markedly reduced virion release, suggesting that these agents act at a point in the viral life cycle beyond the early events of virus binding, penetration, and uncoating. These data indicate that HIV replication in previously uninfected macrophages may be regulated by an inducible host cell mechanism. These findings may explain the restricted replication of HIV in macrophages in vivo and suggest an antiviral role for interferons in the therapy of HIV infection.

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Apoptosis as a mechanism of cell death in cultured T lymphoblasts acutely infected with HIV-1.

Terai

Kornbluth²,

Pauza³

et al. 1991

J. Clin. Invest.

417

180

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The mechanisms by which HIV-1 infection kills T lymphocytes are not clearly established. Apoptosis is an internally programmed cell death pathway that may regulate both T cell development and senescence, and that is characterized by cleavage of DNA at internucleosomal regions. The present experiments show that acute HIV-1 infection of MT2 lymphoblasts and activated normal peripheral blood mononuclear cells induces apoptosis.

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Multimeric Soluble CD40 Ligand and GITR Ligand as Adjuvants for Human Immunodeficiency Virus DNA Vaccines

Stone¹,

Barzee²,

Snarsky³

et al. 2006

J Virol

115

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For use in humans, human immunodeficiency virus (HIV) DNA vaccines may need to include immunostimulatory adjuvant molecules. CD40 ligand (CD40L), a member of the tumor necrosis factor (TNF) superfamily (TNFSF), is one candidate adjuvant, but it has been difficult to use because it is normally expressed as a trimeric membrane molecule. Soluble trimeric forms of CD40L have been produced, but in vitro data indicate that multimeric, many-trimer forms of soluble CD40L are more active. This multimerization requirement was evaluated in mice using plasmids that encoded either 1-trimer, 2-trimer, or 4-trimer soluble forms of CD40L. Fusion with the body of Acrp30 was used to produce the 2-trimer form, and fusion with the body of surfactant protein D was used to produce the 4-trimer form. Using plasmids for secreted HIV-1 antigens Gag and Env, soluble CD40L was active as an adjuvant in direct proportion to the valence of the trimers (1 < 2 < 4). These CD40L-augmented DNA vaccines elicited strong CD8 ؉ T-cell responses but did not elicit significant CD4 ؉ T-cell or antibody responses. To test the applicability of the multimeric fusion protein approach to other TNFSFs, a 4-trimer construct for the ligand of glucocorticoid-induced TNF family-related receptor (GITR) was also prepared. Multimeric soluble GITR ligand (GITRL) augmented the CD8 ؉ T-cell, CD4 ؉ T-cell, and antibody responses to DNA vaccination. In summary, multimeric CD40L and GITRL are new adjuvants for DNA vaccines. Plasmids for expressing multimeric TNFSF fusion proteins permit the rapid testing of TNFSF molecules in vivo.

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