A Mechanistic In Vivo/Ex Vivo Pharmacokinetic-Pharmacodynamic Model of Tenofovir for HIV Prevention.

Defining tissue and plasma-specific prophylactic drug concentrations is central to pre-exposure prophylaxis product development for sexual transmission of HIV-1. Pharmacokinetic (PK) data from study RMP-02/MTN-006 comparing single dose oral tenofovir disoproxil fumarate with single and multiple dose rectal tenofovir (TFV) gel administration in HIV-1 seronegative adults was used to construct a multicompartment plasma-rectal tissue population PK model for TFV and tenofovir-diphosphate (TFVdp) in plasma and rectal tissue. PK data were collected in five matrices: TFV (plasma, rectal tissue homogenate), TFVdp (peripheral blood mononuclear cells, rectal mononuclear cells (MMCs), rectal tissue homogenate). A viral growth compartment and a delayed effect compartment for p24 antigen expression measured from an ex vivo explant assay described HIV-1 infection and replication. Using a linear PK/pharmacodynamic model, MMC TFVdp levels over 9,000 fmol/million cells in the explant assay provided apparent viral replication suppression down to 1%. Parameters were estimated using NONMEM version 7.4.

Activity of the small modified amino acid alpha-hydroxy glycineamide on in vitro and in vivo human immunodeficiency virus type 1 capsid assembly and infectivity.

Upon maturation of the human immunodeficiency virus type 1 (HIV-1) virion, proteolytic cleavage of the Gag precursor protein by the viral protease is followed by morphological changes of the capsid protein p24, which will ultimately transform the virus core from an immature spherical to a mature conical structure. Virion infectivity is critically dependent on the optimal semistability of the capsid cone structure. We have reported earlier that glycineamide (G-NH(2)), when added to the culture medium of infected cells, inhibits HIV-1 replication and that HIV-1 particles with aberrant core structures were formed. Here we show that it is not G-NH(2) itself but a metabolite thereof, alpha-hydroxy-glycineamide (alpha-HGA), that is responsible for the antiviral activity. We show that alpha-HGA inhibits the replication of clinical HIV-1 isolates with acquired resistance to reverse transcriptase and protease inhibitors but has no effect on the replication of any of 10 different RNA and DNA viruses. alpha-HGA affected the ability of the HIV-1 capsid protein to assemble into tubular or core structures in vitro and in vivo, probably by binding to the hinge region between the N- and C-terminal domains of the HIV-1 capsid protein as indicated by matrix-assisted laser desorption ionization-mass spectrometry results. As an antiviral compound, alpha-HGA has an unusually simple structure, a pronounced antiviral specificity, and a novel mechanism of antiviral action. As such, it might prove to be a lead compound for a new class of anti-HIV substances.

Evidence for predominance of CCR5-using HIV-1 strains during highly active antiretroviral therapy.

BACKGROUND: Very little is known about the influence of Highly Active Antiretroviral Therapy (HAART) on the surface expression of CCR5 and CXCR4 with respect to receptor tropism and replication kinetics of autologous HIV strains, during continuous therapy and structured treatment interruption (STI) regimens. OBJECTIVES: The main objectives of this study were to assess whether continuous therapy and STI regimens had any modulatory effects on expression of CCR5 and CXCR4 on T lymphocytes. STUDY DESIGN: We studied 6 patients on continuous HAART, 4 patients on STI and 1 treatment-naïve patient. Sequential peripheral blood mononuclear cells (PBMC) samples were analyzed to determine viral replication kinetics, the genotype influencing tropism of the autologous strain, in vitro co-receptor usage patterns in relation to the surface expression of each co-receptor. RESULTS: Our data suggest that predominant CCR5 expression and tropism, during therapy, but significant down-modulation of CXCR4 expression. During the off-therapy phases of STI, CXCR4 expression increased, which correlated with increased CXCR4 tropism of isolates from these time points. In-vitro tropism during therapy was consistent with the HIV-1 V3 genotype, which was characteristic of CCR5 using strains. CONCLUSIONS: These results suggest that certain HAART regimens influence the surface expression of CXCR4, which may have profound implications for antiretroviral treatment.

Proteomic analysis of the effects of cocaine on the enhancement of HIV-1 replication in normal human astrocytes (NHA).

The US is experiencing an epidemic of cocaine use entangled with HIV-1 infection. Normal human astrocytes (NHA) are susceptible to HIV-1 infection. We utilized LTR-R/U5 amplification, p24 antigen assay and the proteomic method of difference gel electrophoresis (DIGE) combined with protein identification through HPLC-MS/MS to investigate the effect of cocaine on HIV-1 infectivity and the proteomic profile of NHA, respectively. Data demonstrate that cocaine significantly upregulates HIV-1 infection in NHA as measured by LTR-R/U5 amplification and p24 antigen assay. Further, our results show for the first time that cocaine differentially regulates the expression of a number of proteins by NHA that may play a role in the neuropathogenesis of HIV-1 disease.

Bifunctional anti-human immunodeficiency virus type 1 small molecules with two novel mechanisms of action.

A class of betulinic acid derivatives was synthesized to target two critical steps in the human immunodeficiency virus type 1 (HIV-1) replication cycle, entry and maturation. Each mechanism of HIV-1 inhibition is distinct from clinically available anti-HIV therapeutics. The viral determinants of the antientry and antimaturation activities are the bridging sheet of HIV-1 gp120 and the P24/p2 cleavage site, respectively.

Oxytocin and prostaglandins F2alpha and E2 do not enhance HIV antigen production in vitro.

Oxytocin and prostaglandins (PGs) are hormones involved in labor and are used clinically for its induction. In this study the effect of oxytocin, PGF(2alpha), and PGE(2) on Humour immunodeficiency virus-1 production in acutely and persistently infected cells was measured. No significant effect on p24 antigen production was found with oxytocin or PGs, except for a transient decrease in persistently infected cells treated with 1 micro M PGF(2alpha). These results showed that oxytocin and PGs could be used clinically for labor induction without any direct enhancement in viral production. Besides, the results with PGF(2alpha) at the highest concentration studied may indicate a pharmacological effect.

Emergence of resistance to protease inhibitor amprenavir in human immunodeficiency virus type 1-infected patients: selection of four alternative viral protease genotypes and influence of viral susceptibility to coadministered reverse transcriptase nucleoside inhibitors.

Previous data have indicated that the development of resistance to amprenavir, an inhibitor of the human immunodeficiency virus type 1 protease, is associated with the substitution of valine for isoleucine at residue 50 (I50V) in the viral protease. We present further findings from retrospective genotypic and phenotypic analyses of plasma samples from protease inhibitor-naïve and nucleoside reverse transcriptase inhibitor (NRTI)-experienced patients who experienced virological failure while participating in a clinical trial where they had been randomized to receive either amprenavir or indinavir in combination with NRTIs. Paired baseline and on-therapy isolates from 31 of 48 (65%) amprenavir-treated patients analyzed demonstrated the selection of protease mutations. These mutations fell into four distinct categories, characterized by the presence of either I50V, I54L/I54M, I84V, or V32I+I47V and often included accessory mutations, commonly M46I/L. The I50V and I84V genotypes displayed the greatest reductions in susceptibility to amprenavir, although each of the amprenavir-selected genotypes conferred little or no cross-resistance to other protease inhibitors. There was a significant association, for both amprenavir and indinavir, between preexisting baseline resistance to NRTIs subsequently received during the study and development of protease mutations (P = 0.014 and P = 0.031, respectively). Our data provide a comprehensive analysis of the mechanisms by which amprenavir resistance develops during clinical use and present evidence that resistance to concomitant agents in the treatment regimen predisposes to the development of mutations associated with protease inhibitor resistance and treatment failure.

Inhibition of human immunodeficiency virus type 1 activity in vitro by a new self-stabilized oligonucleotide with guanosine-thymidine quadruplex motifs.

An oligonucleotide with a dimeric hairpin guanosine quadruplex (basket type structure) (dG3T4G3-s), containing phosphorothioate groups, was able to inhibit human immunodeficiency virus type 1 (HIV-1)-induced syncytium formation and virus production (as measured by p24 core antigen expression) in peripheral blood mononuclear cells. This oligonucleotide lacks primary sequence homology with the complementary (antisense) sequences to the HIV-1 genome. Furthermore, this oligonucleotide may have increased nuclease resistance. The activity of this oligonucleotide was increased when the phosphodiester backbone was replaced with a phosphorothioate backbone. In vivo results showed that dG3T4G3-s was capable of blocking the interaction between gp120 and CD4. We also found that dG3T4G3-s specifically inhibits the entry of T-cell line-tropic HIV-1 into cells. This compound is a viable candidate for evaluation as a therapeutic agent against HIV-1 in humans.

Potent antiretroviral therapy initiates normalization of hypergammaglobulinemia and a decline in HIV type 1-specific antibody responses.

Next to a profound T cell immunodeficiency, HIV-1 infection induces activation and dysfunction of B cells, resulting in hypergammaglobulinemia. Whereas T cell immune reconstitution with potent antiretroviral therapy has been extensively documented, limited data are available on B cell immune reconstitution. We studied the effect of potent antiretroviral therapy on antibody titers to the viral proteins gp120 and p24 and on total IgG concentrations. Three retrospectively chosen groups were studied: a successfully treated group, untreated controls, and subjects with virological failure after several months of successful therapy. In the successfully treated group, the median total IgG concentrations normalized, whereas they remained elevated in the untreated group and rebounded after an initial decline in the therapy failure group. The HIV-1-specific antibody titers declined in the successfully treated group and followed the rebound of the HIV RNA levels in the therapy failure group. With potent antiretroviral therapy the hypergammaglobulinemia normalized whereas HIV-1-specific immune responses were weakened. The weakening of antiviral immunity with therapy may be relevant for current attempts to gain immunological control over the virus through structured treatment interruptions or therapeutic vaccinations.

In vivo anti-HIV activity of (+)-calanolide A in the hollow fiber mouse model.

In vivo anti-HIV efficacy of (+)-calanolide A has been evaluated in a hollow fiber mouse model. It was demonstrated that the compound was capable of suppressing virus replication in two distinct and separate physiologic compartments (i.p. and s.c.) following oral or parenteral administration on a once- or twice-daily treatment schedule. A synergistic effect was observed for the combination of (+)-calanolide A and AZT.

A critical analysis of the pharmacology of AZT and its use in AIDS.

The triphosphorylated form of the nucleoside analogue 3'-azido-3'-deoxythymidine (Zidovudine, AZT) is claimed to interrupt the HIV replication cycle by a selective inhibition of viral reverse transcriptase, thereby preventing the formation of new proviral DNA in permissive, uninfected cells. Given that initial HIV infection of an individual instigates abundant HIV replication from inception until death, and that the life of infected T-cells is only several days, the administration of AZT should lead both in vitro and in vivo (i) to decreased formation of proviral DNA; and thus (ii) to decreased frequencies of 'HIV isolation' (detection of p24 or reverse transcription or both) in stimulated cultures/cocultures of T-cells from seropositive individuals; (iii) to decreased synthesis of HIV p24 and RNA ('antigenaemia', 'plasma viraemia', 'viral load') ultimately resulting in low or absent levels of all three parameters; and (iv) to a perfect and direct correlation between all these parameters. A critical analysis of the presently available data shows that no such evidence exists, an outcome not unexpected given the pharmacological data on AZT. HIV experts all agree that only the triphosphorylated form of AZT (AZTTP) and not the unphosphorylated form administered to patients, nor its mono- or diphosphate, is the active agent. Furthermore, the mechanism of action is the ability of AZTTP to halt the formation of HIV-DNA (chain termination). However, although this claim was posited from the outset, AZT underwent clinical trials and was introduced as a specific anti-HIV drug many years before there were any data proving that the cells of patients are able to triphosphorylate the parent compound to a level considered sufficient for its putative pharmacological action. Notwithstanding, from the evidence published since 1991 it has become apparent that no such phosphorylation takes place and thus AZT cannot possess an anti-HIV effect. However, the scientific literature does elucidate: (i) a number of biochemical mechanisms which predicate the likelihood of widespread, serious toxicity from use of this drug; (ii) in vitro data proving that AZT has significant antibacterial and antiviral properties which confound interpretation of its effects when administered to patients. Based on all these data it is difficult if not impossible to explain why AZT was introduced and still remains the most widely recommended and used anti-HIV drug.

Increased PGE2 production mediates the in vitro inhibitory effect of the human immunodeficiency virus P24 immunosuppressive heptapeptide Ch7.

Previous work from our laboratory demonstrated that a synthetic heptapeptide (Ch7), corresponding to a conserved sequence of human immunodeficiency virus (HIV) core protein p24 (amino acids 232-238), was able to specifically abrogate antigen-induced responses in cultures of normal human peripheral blood lymphocytes (PBL). Addition of recombinant human interferon-gamma (IFN-gamma) to Ch7-suppressed cultures restored the capacity to mount an antigen-specific antibody response, suggesting that a cytokine imbalance may be at the basis of the Ch7 immunosuppressive activity. In the present paper we show that the Ch7-dependent in vitro immunosuppression was accompanied by a significant up-regulation of prostaglandin E2 (PGE2) production and induction of interleukin-10 (IL-10)-secreting cells. In the presence of the PGE2 inhibitor indomethacin, IL-10 up-regulation was prevented and the induction of a specific antibody response was partially restored. PGE2 is indeed an important regulator of immune responses with the ability to differentially affect cytokine production. Thus, our results demonstrate that the Ch7 immunosuppressive epitope may primarily act by up-regulating PGE2 production and, through this mediator, by causing a cytokine dysregulation, finally responsible for immune response suppression.

Cortisol upregulates HIV p24 antigen production in cultured human monocyte-derived macrophages.

HIV infection is associated with hypercortisolemia. Since glucocorticoids have been shown to stimulate the replication of several viruses, we examined the effects of cortisol on HIV replication in cultured monocyte-derived macrophages (MDM), a cell type that has been proposed to serve as a viral reservoir. Our data revealed that physiological concentrations of cortisol upregulate viral replication in MDM. Because the dose-response curve for cortisol on HIV replication in vivo is not known, the clinical relevance of these findings remain uncertain. Clinical studies are needed to characterize the effects of corticosteroid therapy on viral burden in vivo.

Antiviral potency of drug-gene therapy combinations against human immunodeficiency virus type 1.

Gene therapy for the treatment of human immunodeficiency virus type 1 (HIV-1) infection using intracellular immunization strategies is currently being tested in clinical trials. With the continuing development of potent antiretroviral drugs (e.g., reverse transcriptase [RT] and protease [PR] inhibitors), it is likely that HIV-1 gene therapy will be applied to humans concurrently receiving such antiretroviral medication. In this study, we assessed the in vitro antiviral efficacy of two gene therapy strategies (trans-dominant RevM10, Gag antisense RNA) in combination with clinically relevant RT (AZT, ddC) or PR (indinavir) inhibitors. Retrovirally transduced, human T cell lines expressing antiviral gene constructs were inoculated with high doses of HIV-1HXB3 in the presence or absence of inhibitors. The combination of RevM10 or Gag antisense RNA with antiviral drugs inhibited HIV-1 replication 10-fold more effectively than the single antiviral drug regimen alone. More importantly, we also addressed whether gene therapy strategies are effective against drug-resistant HIV-1 isolates. Both the RevM10 and Gag antisense RNA strategies showed antiviral efficacy against several RT inhibitor-resistant HIV-1 isolates equivalent to their inhibition of HIV-1HXB3 replication. In summary, our data demonstrate the greater than additive antiviral efficacy of gene therapy strategies and RT or PR inhibitors, and that gene therapy approaches are effective against drug-resistant HIV-1 viral isolates.

Interferon-gamma (IFN-gamma) can counteract the in vitro inhibitory effect of an HIV p24 immunosuppressive heptapeptide.

Previous work from our laboratory demonstrated that a synthetic heptapeptide (Ch7), corresponding to a conserved sequence of HIV core protein p24 (aa 232-238), was able to specifically abrogate antigen-induced responses in cultures of normal human peripheral blood lymphocytes (PBL). In the present study we show that Ch7 did not inhibit the induction of IFN-gamma-secreting cells nor the accumulation of IFN-gamma mRNA in antigen-stimulated cultures. However, delayed addition of recombinant human IFN-gamma to Ch7-suppressed cultures was able to restore fully the capacity to mount an antigen-specific antibody response. Thus, although the Ch7 immunosuppressive effect may not be directly related to a decreased production of IFN-gamma, an increased level of this cytokine is certainly able to counteract the negative effect of the peptide.

Antiseptic myramistin possesses the strong anti-HIV properties.

The anti-HIV properties of cation detergent myramistin were studied. The dose-dependent slowing down both of the HIV antigens accumulation in supernatants and the virus-dependent cell death was shown at myramistin concentrations 30 micrograms/ml and 50 micrograms/ml in the MT-4 cell line. Simultaneous addition of the trace amount of the detergents and HIV-1 to the cells of Jurkat-tat line did not stimulate the HIV p24 production for 4 days of the experiment.

Lamivudine in children with human immunodeficiency virus infection: a phase I/II study. The National Cancer Institute Pediatric Branch-Human Immunodeficiency Virus Working Group.

The safety, tolerability, pharmacokinetic profile, and preliminary activity of lamivudine (2'-deoxy-3'-thiacytidine), a novel cytidine nucleoside analogue with antiretroviral activity, in human immunodeficiency virus (HIV)-infected children beyond the neonatal period were studied. Ninety children received dosages of 1-20 mg/kg/day. Pharmacokinetic evaluation demonstrated serum and cerebrospinal fluid concentrations that increased proportionally to dose. As of January 1994, 11 children had been withdrawn from study for disease progression and 10 because of possible lamivudine-related toxicity, and 6 had died. CD4 and CD8 cell counts remained stable over 24 weeks in therapy-naive children and decrease slightly in previously treated children. Quantitative immune complex-dissociated p24 antigen and HIV RNA were decreased significantly at 12 and 24 weeks. In vitro resistance to lamivudine was documented in sequential virus isolates from some patients by 12 weeks. Lamivudine was well-tolerated and exhibited virologic activity in children, although future use in children is likely to be in combination antiretroviral regimens.

In vitro inhibition of the replication of human immunodeficiency virus type 1 by beta-mercaptoethylamine (cysteamine).

This study investigates the effects of cysteamine alone and in association with zidovudine or didanosine on the replication of human immunodeficiency virus type 1 (HIV-1). More than 90% viral inhibition was obtained by 200 microM cysteamine in lymphocytes and 100 microM cysteamine in macrophages against 4 primary isolates and 2 laboratory strains of HIV-1. Polymerase chain reaction analysis demonstrated that cysteamine interferes with early steps of HIV-1 replication, before proviral DNA formation. The use of cysteamine in conjunction with zidovudine or didanosine brought about an additive antiviral effect without concomitant increases in toxicity. The concentrations of cysteamine that are effective against HIV-1 in vitro have been well tolerated over long periods by patients under treatment for cystinosis, an inherited disorder. These observations suggest that cysteamine alone or in combination with zidovudine or didanosine could be a new potential treatment of HIV-1 infection.

Effect of interleukin 12 on in vitro HIV type 1 replication depends on clinical stage.

CD8-depleted PBMCs from 20 HIV-1-seropositive donors were incubated in the presence of no cytokines, rIL-2, rIL-12, or both. HIV-1 replication, measured by culture supernatant p24 Ag, was increased to a comparable extent by either rIL-2 or rIL-12 in five of seven asymptomatic subjects and was not induced by either cytokine in the remaining two asymptomatic subjects. Recombinant IL-2 induced increased p24 in cultures from 8 of 13 symptomatic subjects, but rIL-12 did only in cell lines from 5 symptomatic subjects and then only marginally. In IL-2 containing cultures from subjects with minor symptoms of HIV infection, the mean p24 Ag was 320 +/- 217 pg/ml versus 27 +/- 6 in IL-12-containing cultures (p = 0.03). When rIL-12 was added with rIL-2, p24 Ag levels were reduced fourfold compared to cultures from this group incubated with only rIL-2 (p = 0.03). Neither cytokine had much effect on viral replication in CD8-depleted PBMCs from subjects who had had a major AIDS infection, although the number of CD4 cells in four of six of those cultures was markedly reduced. IL-4, IFN-gamma, and IL-10 production induced by exposure to IL-2 and/or IL-12 were also measured. In CD8-depleted cultures from all infected asymptomatic donors and from some symptomatic donors, addition of rIL-12 to rIL-2 decreased IL-4 and increased both IFN-gamma and IL-10 production. Cytokine-induced production of IL-4, IFN-gamma, and IL-10 was greater in cultures from asymptomatic donors than in cultures from symptomatic subjects. Our results suggest that IL-12 immunotherapy may be complicated by enhancement of viral expression in asymptomatic individuals.

Substance P modulates human immunodeficiency virus replication in human peripheral blood monocyte-derived macrophages.

Substance P (SP), a member of the tachykinin family of neuropeptides, is an important immunomodulator of lymphocyte and monocyte/macrophage function. We have examined the effects of SP on human immunodeficiency virus type 1 (HIV-1) infection of peripheral blood monocyte-derived macrophages (MDMs) in vitro. Human monocytes isolated by Ficoll gradient followed by adherence were maintained in vitro for 10 days and infected with HIV-1. The addition of SP resulted in a 2- to 8-fold-enhanced HIV-1 expression in the MDMs isolated from 7 of 13 healthy donors as determined by reverse transcriptase (RT) activity and p24 protein expression assays, as compared to control cultures incubated with HIV-1 alone. There was no correlation observed, however, between SP-stimulated TNF production and HIV-1 expression in MDMs obtained from a subset of these donors. These effects of SP on HIV-1 expression in MDMs in vitro may have in vivo implications relevant to modulation of monocyte/macrophage functions, to HIV-1 infection of monocytes/macrophages, and to the immunopathogenesis of HIV-1 infection.