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Query: UMLS:C0021051 (
immunodeficiency
)
71,517
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Synthetic multibranched peptides derived from the V3 domain of human
immunodeficiency
virus type 1 (HIV-1) gp120 inhibit HIV-1 entry into CD4+ and CD4- cells by two distinct mechanisms: competitive inhibition of HIV-1 binding to CD4-/GalCer+ colon cells and postbinding inhibition of HIV-1 fusion with CD4+ lymphocytes. In the present study, we have characterized the cellular binding sites for the V3 peptide
SPC3
, which possesses eight V3 consensus motifs GPGRAF radially branched on a neutral polyLys core matrix. These binding sites are glycosphingolipids that share a common structural determinant, i.e., a terminal galactose residue with a free hydroxyl group in position 4: GalCer/sulfatide on CD4-/GalCer+ colon cells; LacCer and its sialosyl derivatives GM3 and GD3 on CD4+ human lymphocytes. These data suggest that the V3 peptide binds to the GalCer/sulfatide receptor for HIV-1 gp120 on HT-29 cells and thus acts as a competitive inhibitor of virus binding to these CD4- cells, in full agreement with previously published virological data. In contrast,
SPC3
does not bind to the CD4 receptor, in agreement with the data showing that the peptide inhibits HIV-1 infection of CD4+ cells by acting at a postattachment step. The binding of
SPC3
to LacCer, GM3, and GD3, expressed by CD4+ lymphocytes, suggests a role for these glycosphingolipids in the fusion process between the viral envelope and the plasma membrane of CD4+ cells. Since the multivalent peptide can theoretically bind to several of these glycosphingolipids, we hypothesize that the resulting cross-linking of membrane components may affect the fluidity of the plasma membrane and/or membrane curvature, altering the virus-cell fusion mechanism.
...
PMID:SPC3, a V3 loop-derived synthetic peptide inhibitor of HIV-1 infection, binds to cell surface glycosphingolipids. 896 29
A multibranched peptide construct (
SPC3
) derived from the conserved sequence of the third variable domain (V3) of the human
immunodeficiency
virus (HIV) envelope (Env) inhibits HIV infectivity. It is being tested in phase II clinical trials (FDA protocol 257A). Because some Env-derived peptides inhibit HIV infectivity through alteration of Env biosynthetic pathway, we studied whether
SPC3
displays its activity through interference with Env biosynthesis or with its functions at the membrane. Syncytium formation was impaired when human CD4+ cells expressed recombinant HIV Env in the presence of
SPC3
. This inhibition was not due to an effect of
SPC3
on the amount of Env expressed at the cell membrane. As assessed using antibodies, the conformation of the receptor binding site and of V3 presented on membrane Env was not affected by the presence of
SPC3
during biosynthesis. Finally, despite the ability of
SPC3
to bind to CD4+ cell membrane,
SPC3
did not interfere with Env binding to CD4. These data suggest that
SPC3
interferes with the infection process at a post-CD4 binding step, and not with the folding of Env.
...
PMID:Properties of HIV envelope expressed in the presence of SPC3, an Env-derived peptide drug under phase II clinical trials. 983 6
SPC3
is a peptide construct (eight branches of the GPGRAF motif) derived from the consensus sequence present at the apex of the third variable domain of the human
immunodeficiency
virus (HIV) envelope (Env). It presents a potent anti-HIV activity and is currently tested in phase II clinical trials (FDA protocol 257A). Its mode of action remains unclear. It was thought that
SPC3
exerts its effect both during HIV interaction with CD4+ cells but also through interference either with a post-binding event or with Env processing. Accordingly,
SPC3
was supposed to be able to bind and to enter CD4+ cells. In this work, we addressed these points.
SPC3
was found to interact with CD4+ cell membrane with a K0.5 value in the range of 500 nM. The binding of
SPC3
to CD4+ cells involves its interaction with a cell membrane associated protein which is pronase sensitive and different from CD4. This interaction was similar from 2 to 37 degrees C. The maximum binding occurred at acidic pH whereas the interaction was inhibited in alkaline conditions. We observed also that
SPC3
was internalized rapidly into the cells - the maximal intracell amount was reached within 30 min - where it remained stable for at least 24 h. Altogether, these data suggest that
SPC3
can exert its antiviral activity via interference with events occurring at the cell surface but also into the target cell.
...
PMID:SPC3, an anti-HIV peptide construct derived from the viral envelope, binds and enters HIV target cells. 992 54
SPC3
, a synthetic multibranched peptide including the GPGRAF consensus motif of the human
immunodeficiency
virus type 1 (HIV-1) gp120 V3-loop is a potent inhibitor of HIV infection of human CD4+ lymphocytes, macrophages and CD4-/galactosylceramide+ human colon epithelial cells and is currently tested in phase II clinical trials (FDA protocol 257 A). The antiviral property of
SPC3
was further investigated for its ability to inhibit LAV-2/B, an HIV-2 clone with a CD4-independent tropism.
SPC3
inhibited the LAV-2/B-mediated infection of B-cell line which does not express the CD4 and the galactosylceramide molecules on their cell surface, suggesting an
SPC3
-sensitive CD4/galactosylceramide-independent pathway of viral infection in HIV susceptible cells. The molecular mechanism of the peptide inhibition was also investigated. The data suggested that the
SPC3
-mediated inhibition does not result from a direct competition between
SPC3
and gp120 binding to the cell surface of the target cell.
...
PMID:V3 loop-derived peptide SPC3 inhibits infection of CD4- and galactosylceramide- cells by LAV-2/B. 1040 39
SPC3
is a multibranched peptide containing eight identical GPGRAF motifs which are derived from the human
immunodeficiency
virus (HIV)-1 gp120 V3 loop consensus sequence. This molecule was reported to prevent the infection of CD4+ cells by various HIV-1 and HIV-2 strains. However, the molecular mode of action of
SPC3
remains unclear. Here, we investigated the possibility that
SPC3
could interact with alpha/beta-chemokine receptors following observations that, first, the V3 loop is likely to be involved in alpha/beta-chemokine receptor-dependent HIV entry and, second, natural ligands of these receptors are potent inhibitors of cell infection. To address this point, we examined the effects of
SPC3
on Xenopus oocytes either uninjected or expressing exogenous human CXCR4 alpha-chemokine receptors. Extracellular applications of micromolar concentrations of
SPC3
onto Xenopus oocytes trigger potent inward chloride currents which can be inhibited by increasing extracellular Ca2+ concentration. This effect can be blocked by chloride channel antagonists and is highly specific to
SPC3
as it is not triggered by structural analogs of
SPC3
. The
SPC3
-induced chloride conductance in oocytes is alpha/beta-chemokine receptor dependent because: (i)
SPC3
alters the sensitivity of this channel to external applications of human recombinant MIP-1alpha, a natural ligand of human CCR5 receptor, and (ii) the amplitude of the inward current could be increased by the expression of exogenous human CXCR4 chemokine receptor. The effect of
SPC3
appears to rely on the activation of a phospholipase A2 signaling pathway, but is not affected by changes in cytosolic Ca2+ concentration, or by alterations in Gi/Go protein, adenylate cyclase, phospholipase C or protein kinase C activity. Altogether, the data indicate that
SPC3
is capable of activating a surface alpha/beta-chemokine-like receptor-mediated signaling pathway in competent cells, thereby triggering, either directly or indirectly, a Ca2+-inactivated chloride conductance.
...
PMID:Ion channel activation by SPC3, a peptide derived from the HIV-1 gp120 V3 loop. 1115 2
