L-ficolin binding and lectin pathway activation by acetylated low-density lipoprotein

L-ficolin, like mannan-binding lectin (MBL), is a lectin pathway activator present in normal human plasma. Upon binding ligand, l-ficolin similarly initiates C4 cleavage via the serine protease MBL-associated serine protease-2 (MASP-2). We sought further insight into l-ficolin binding reactions and MASP-2 activation by passing plasma through GlcNAc-derivatized Sepharose. l-Ficolin bound in 1.0 M NaCl-ethylenediamine tetraacetic acid (EDTA), and remained bound in NaCl-free EDTA, while MASP-2 eluted in proenzyme form ( approximately 20% yield, > 40 000-fold purification). L-Ficolin was eluted with GlcNAc in 1.0 M NaCl ( approximately 10% yield, > 3000-fold purification), with trace amounts of C3, alpha(2)-macroglobulin and both native and activated MASP-2. These preparations were utilized to investigate l-ficolin reactivities with acetylated low-density lipoprotein (A-LDL) as a model ligand in albumin-free systems. L-Ficolin bound strongly to A-LDL in the absence as well as presence of calcium, including saline-EDTA, and was optimal in 1.0 M NaCl-EDTA, but binding failed to occur in EDTA in the absence of NaCl. The addition of l-ficolin to immobilized A-LDL resulted in activation of MASP-2 in unmodified but not ficolin-depleted plasma unless l-ficolin was restored. We conclude that A-LDL is a useful ligand for investigation of l-ficolin function; both binding and activation are optimally examined in systems free of albumin; and ligand binding in 1.0 M NaCl in EDTA can be useful in the isolation of l-ficolin and native MASP-2.

Multiple CD4+ cell kinetic patterns and their relationships with baseline factors and virological responses in HIV type 1 patients receiving highly active antiretroviral therapy

This exploratory analyses characterizes patterns of lymphocyte recovery in HIV-1-infected patients treated with highly active antiretroviral therapy (HAART) and investigates their relationship with baseline indices and virologic responses. We modeled kinetics of total CD4+ lymphocytes, as well as naive (CD45RA+ CD62L+), and memory (CD45RA- CD45RO+) subsets in 48 patients treated with AZT/3TC/Ritonavir for 48 weeks in ACTG protocol 315. Cell kinetic indices were estimated by nonlinear regression methods and were correlated with baseline factors and virologic responses. Five different kinetic patterns were identified, including biphasic growth, growth-plateau, growth-depletion, decay-recovery, and biphasic decay. Although overall mean lymphocyte responses showed a biphasic increase in cell number, a careful investigation reveals that only one-third of patients actually followed the biphasic growth pattern in CD4+ cell response, while 44% of 48 patients from this study followed the growth-depletion pattern. CD4+ cell recovery during the first phase and the 48-week study period were negatively correlated with baseline CD4+ cell counts, and positively correlated with baseline viral load. Memory CD4+ cell recovery during the first phase was also negatively correlated with baseline memory CD4+ and total CD4+ cell number, but the recovery rate of memory CD4+ cells during the second phase was positively correlated with baseline CD4+ cell number. Patients with a decay in CD4+ cell count during treatment were more likely to have experienced virological rebound (58%) than patients with nondecay patterns (24%). The rate and magnitude of the absolute increase in total CD4+ and memory CD4+ cell number (but not naive CD4+ cells) during the second phase were lower in patients with viral rebound compared with patients with persistent viral suppression. These results show that the kinetics of lymphocyte reconstitution in response to potent antiretroviral therapy in individual patients vary considerably from the "classic" biphasic increase that characterizes the mean or median response pattern. Pattern analysis of lymphocyte kinetics may be useful for testing relationships among factors that modulate the response to treatment.

Human immunodeficiency virus type 1 stimulatory activity by Gardnerella vaginalis: relationship to biotypes and other pathogenic characteristics

Stimulation of human immunodeficiency virus (HIV) type 1 expression by Gardnerella vaginalis is one possible cause for an increase in the amount of virus in the genital tract. The ability of G. vaginalis to induce HIV expression in chronically infected U1 cells was investigated, along with its possible relationship to biotype, genotype, and resistance to metronidazole and bacteriocin. Significant HIV stimulatory activity was found in 5 (50%) lysates of G. vaginalis. The ability to induce HIV expression in U1 cells was statistically associated with G. vaginalis biotype (P=.048) but not with genotype or resistance to metronidazole and bacteriocin. Further studies to explore the in vivo relevance of HIV activation by G. vaginalis in the female genital tract are warranted, since prevention strategies of bacterial vaginosis and colonization by certain biotypes of G. vaginalis may be valuable in reducing the risk of sexual transmission of HIV.

Myeloid-related protein (MRP)-8 from cervico-vaginal secretions activates HIV replication

OBJECTIVES

To identify a substance found in female genital tract secretions that enhances HIV expression in infected cells.

DESIGN

Cervico-vaginal lavages (CVL), collected in sterile normal saline, were fractionated and tested for HIV-inducing activity using HIV-infected monocytes.

METHODS

To purify the component(s) of CVL that enhance HIV production, Mono-Q ion exchange chromatography followed by Superose-12 molecular sieve analysis, and SDS--PAGE were performed. The purified protein was identified by amino acid sequence analysis.

RESULTS

SDS--PAGE of bioactive fractions showed a 14 kDa polypeptide band. Amino acid sequence analysis of selected peptides from the 14 kDa band showed 100% homology with the myeloid-related protein (MRP)-8, an inflammatory protein found in mucosal secretions. Western blot analysis revealed that bioactive CVL contained more immunoreactive MRP-8 than samples without bioactivity. The HIV-inducing activity of MRP-8 was further confirmed by showing that human recombinant MRP-8 increased HIV expression by up to 40-fold.

CONCLUSIONS

MRP-8 in cervico-vaginal secretions stimulates HIV production. Strategies aimed at blocking MRP-8 activity in the genital tract could reduce risk of sexual as well as maternal--infant transmission of HIV.

Human antibodies to major histocompatibility complex alloantigens mediate lysis and neutralization of HIV-1 primary isolate virions in the presence of complement

Cellular proteins, including major histocompatibility complex (MHC) class I and class II antigens, are incorporated into the membrane of HIV-1 when virions bud from infected cells. Experiments were performed to determine whether human sera that contained MHC class I and/or class II antibodies would lyse or neutralize a primary isolate of HIV. These results demonstrate that in the presence of complement, sera from some alloimmunized persons mediated significant anti-viral activity against an HIV primary isolate. Both lysis and neutralization of virus were observed. The antiviral effects were complement dependent because heat inactivation eliminated most anti-viral effects. Antiviral activity mediated by sera containing MHC alloantibodies in the presence of complement was > or = activity due to sera from HIV-infected persons as reported in this and a previous study. High levels of antibodies to both MHC class I and class II were present in sera that mediated the highest levels of anti-viral activity. Absorption of serum with platelets (which express class I but not class II antigens) substantially reduced their lytic activity. These studies suggest that MHC antibodies mediate potent anti-viral effects on primary isolates of HIV and support the possibility that deliberately alloimmunizing humans might protect against HIV infection.

CD4-Negative cells bind human immunodeficiency virus type 1 and efficiently transfer virus to T cells

The ability of human immunodeficiency virus strain MN (HIV(MN)), a T-cell line-adapted strain of HIV, and X4 and R5 primary isolates to bind to various cell types was investigated. In general, HIV(MN) bound to cells at higher levels than did the primary isolates. Virus bound to both CD4-positive (CD4(+)) and CD4-negative (CD4(-)) cells, including neutrophils, Raji cells, tonsil mononuclear cells, erythrocytes, platelets, and peripheral blood mononuclear cells (PBMC), although virus bound at significantly higher levels to PBMC. However, there was no difference in the amount of HIV that bound to CD4-enriched or CD4-depleted PBMC. Virus bound to CD4(-) cells was up to 17 times more infectious for T cells in cocultures than was the same amount of cell-free virus. Virus bound to nucleated cells was significantly more infectious than virus bound to erythrocytes or platelets. The enhanced infection of T cells by virus bound to CD4(-) cells was not due to stimulatory signals provided by CD4(-) cells or infection of CD4(-) cells. However, anti-CD18 antibody substantially reduced the enhanced virus replication in T cells, suggesting that virus that bound to the surface of CD4(-) cells is efficiently passed to CD4(+) T cells during cell-cell adhesion. These studies show that HIV binds at relatively high levels to CD4(-) cells and, once bound, is highly infectious for T cells. This suggests that virus binding to the surface of CD4(-) cells is an important route for infection of T cells in vivo.

Expression of MHC class II in T cells is associated with increased HIV-1 expression

HIV-1 replicates in activated T cells at significantly higher levels than in resting cells. Thus, certain molecules up-regulated during T cell activation appear to be important for HIV-1 replication. In this study, we present evidence suggesting that expression of MHC class II (class II) molecules on CD4+ T cells facilitate HIV-1 replication. T cells that expressed class II supported greater virus replication than T cells lacking class II. The class II+ cells, when either infected with HIV-1 or transfected with an env-minus HIV-1 provirus plasmid, produced 10-20-fold greater virus expression than class II- cells. Anti-class II antibody markedly inhibited virus expression in class II+ cells (but not class II- cells) and also decreased the nuclear binding activity of AP-1, an inducible transcription factor important in T cell activation and HIV-1 expression. Most importantly, the induction of class II expression by transfection of the MHC class II transactivator (CIITA) stimulated HIV-1 replication in Jurkat T cells. Taken together, these data suggest that expression of MHC class II molecules and/or CIITA in T cells enhances HIV-1 transcription.

Induction of human immunodeficiency virus type 1 expression by anaerobes associated with bacterial vaginosis

Bacterial vaginosis (BV) is a common disorder characterized by increased levels of anaerobic bacteria in the genital tract. BV has been associated with an increased rate of sexual transmission of human immunodeficiency virus (HIV). The effects of BV-associated anaerobic bacteria on HIV expression in monocytoid cells and T cells were examined. Peptostreptococcus asaccharolyticus and Prevotella bivia stimulated HIV expression in monocytoid cells, whereas Bacteroides ureolyticus, Peptostreptococcus anaerobius, and Lactobacillus acidophilus did not enhance HIV expression. P. asaccharolyticus also enhanced HIV expression in T cells and activated HIV long-terminal-repeat transcription in U38 cells. This report suggests a mechanism by which disturbances in vaginal flora could lead to a higher rate of sexual transmission of HIV. Furthermore, this study supports the idea that treatment of BV might serve as a preventive measure to reduce the risk of HIV transmission.

Cutting edge: activation of HIV-1 transcription by the MHC class II transactivator

Both macrophages and activated CD4+ T cells can be productively infected by HIV-1, and both cell types express MHC class II molecules. Expression of MHC class II proteins in these cells is regulated by a specific transcriptional coactivator, the class II transactivator (CIITA). In this study, we report for the first time that CIITA expression profoundly influences HIV-1 replication. Stable expression of CIITA in Jurkat cells markedly increased 1) HIV-1 replication as assessed by the p24 Ag production and 2) luciferase expression after transfection with full-length provirus or long terminal repeat constructs. Similarly, transient expression of CIITA increased provirus expression as well as long terminal repeat promoter activity in 293 and HeLa-T4 cells. In contrast, mutant forms of CIITA did not increase HIV-1 expression. This study shows that expression of CIITA increases HIV-1 replication through a transcriptional mechanism.

Interaction of mannose-binding lectin with primary isolates of human immunodeficiency virus type 1

Mannose-binding lectin (MBL) is present in human serum and plays an important role in innate immunity by binding to carbohydrate on micro-organisms. Whereas the gp120/gp41 of human immunodeficiency virus type 1 (HIV-1) contains numerous N-linked glycosylation sites and many of these sites contain high-mannose glycans which could interact with MBL, the interaction between MBL and primary isolates (PI) of HIV-1 has not been studied. To determine if PI of HIV bind to MBL, a virus capture assay was developed in which virus was incubated in MBL-coated microtitre wells followed by detection of bound virus with an ELISA for p24 antigen. The X4 HIV-1(MN) T cell line-adapted strain and PI of HIV (R5 and X4) bound to MBL. Binding of virus to MBL was via the carbohydrate-recognition domain of MBL since binding did not occur in the absence of Ca(2+) and was blocked by preincubation of MBL-coated wells with soluble mannan. The interaction of virus with MBL-coated wells was also inhibited by preincubation of virus with soluble MBL, indicating that both immobilized and soluble forms of MBL bound to HIV. Although host cell glycoproteins are incorporated into the membrane of HIV, binding of virus to immobilized MBL required expression of gp120/gp41 on virus particles, suggesting the presence of either an unusually high carbohydrate density and/or a unique carbohydrate structure on gp120/gp41 that is the target of MBL. This study shows that PI of HIV bind to MBL and suggests that MBL can selectively interact with HIV in vivo via carbohydrate structures on gp120/gp41.

Detection and molecular mass determination of an HIV replication-enhancing female genital tract factor using a blot bioassay

We previously reported that cervicovaginal lavages (CVL) contain a factor that enhances the replication of human immunodeficiency virus (HIV) by increasing virus transcription in T cells and monocytoid cells. This factor was named the HIV-inducing factor (HIF). To determine the molecular mass of HIF, we adapted a blot technique that involves nonreducing SDS-PAGE of CVL samples and electrophoretic transfer onto nitrocellulose paper followed by incubation of paper slices with HIV-infected monocytoid U1 cells. The slices with HIF bioactivity were detected by increased HIV production and measured by an HIV core protein (p24) ELISA. We refer to this technique as the "BioBlot" assay. The BioBlot assay successfully detected bioactivity of HIF anchored onto nitrocellulose and determined that HIF has a molecular mass of about 14 kDa. Paper slices with HIF-negative CVL samples as well as nitrocellulose paper samples without CVL did not enhance HIV production. This finding suggested that SDS-PAGE and nitrocellulose binding do not functionally alter the bioactive domain(s) of HIF structure. In addition to the detection of HIF bioactivity anchored to nitrocellulose and HIF molecular mass determination, the BioBlot technique offers an alternative, rapid method for other applications. These include the study of receptor-ligand interactions of mucosal proteins, direct bioactivity testing and molecular mass determination of secretory substances.

Immune complexes containing human immunodeficiency virus type 1 primary isolates bind to lymphoid tissue B lymphocytes and are infectious for T lymphocytes

This study investigated the interaction of tonsil B lymphocytes with immune complexes containing human immunodeficiency virus (HIV IC) primary isolates and the infectivity of the B cell-bound HIV IC. Treatment of virus with a source of antibody and complement increased HIV IC binding to B cells by 5.6-fold. Most of the HIV IC that bound to B cells were not internalized but remained on the cell surface and were gradually released over 72 h. Cell-bound HIV IC were highly infectious for T cells while virus released by cultured B cells was only slightly infectious. Removal of HIV IC from the B-cell surface by protease treatment reduced the infection of T cells to near-background levels, indicating that infectious virus remained on the B-cell surface. These studies show that B lymphocytes can carry and transfer infectious HIV IC to T cells and thus suggest a novel mode of infection of T cells in lymphoid tissue that could be important for pathogenesis during HIV infection.

Association of indicators of bacterial vaginosis with a female genital tract factor that induces expression of HIV-1

OBJECTIVE

The aim of this study was to determine the relationship of bacterial vaginosis and bacterial vaginosis-associated microorganisms with an HIV-inducing factor (HIF) found in cervicovaginal lavage.

DESIGN

A total of 26 cervicovaginal lavage specimens collected from 17 women were used in this study to determine if HIF was significantly associated with features consistent with bacterial vaginosis.

METHODS

Patients were evaluated for various clinical features including age, HIV status and stage, CD4 cell counts, clinical diagnosis of gynecological infections, vaginal pH, Gram stains of vaginal fluid, phase of menstruation, and presence of cervical dysplasia. Cervicovaginal lavage specimens were analyzed for the presence of HIF by U1 bioassay. The presence of Gardnerella vaginalis, and general Mycoplasmataceae, and specifically Mycoplasma hominis, Ureaplasma urealyticum, M. fermentans, M. genitalium in cervicovaginal lavage were determined by semiquantitative PCR.

RESULTS

Eleven cervicovaginal lavage samples from seven women were HIF-positive and 15 cervicovaginal lavage samples from 11 women were HIF-negative (patient No. 8 had two HIF-negative cervicovaginal lavage and one HIF-positive cervicovaginal lavage). The following parameters were significantly associated with HIF: abnormal vaginal fluid pH (>4.5) (P = 0.006), Gram stains indicative of bacterial vaginosis (P = 0.007), normal menstrual cycle (P = 0.0007) and PCR detection and relative quantity of M. hominis (P = 0.0003, P = 0.002).

CONCLUSIONS

This study indicates that HIF is closely associated with features of bacterial vaginosis.

Bacterial vaginosis-associated microflora isolated from the female genital tract activates HIV-1 expression

Alteration of cervicovaginal microbial flora can lead to vaginosis, which is associated with an increased risk of HIV-1 transmission. We recently characterized a soluble HIV-inducing factor (HIF) from the cervicovaginal lavage (CVL) samples of women. The goals of this study were to determine the effect of cervicovaginal microflora on HIV-1 expression and to elucidate the relationship between HIF activity and microflora. Physiologically relevant microorganisms, Mycoplasma, diphtheroid-like bacteria, Gardnerella vaginalis, Streptococcus agalactiae, and Streptococcus constellatus, cultured from the CVL of a representative woman with a clinical condition of bacterial vaginosis and possessing HIF activity, induced HIV-1 expression. The magnitude of virus induction varied widely with the greatest stimulation induced by diphtheroid-like bacteria and Mycoplasma. The transcriptional induction by Mycoplasma was mediated by activation of the KB enhancer, an activation mechanism shared with HIF. Also as with HIF, Mycoplasma induced AP-1 dependent transcription. Polymerase chain reaction (PCR)-based speciation showed that the isolate was M. hominis. Our data indicate that bacterial vaginosis-associated microflora can enhance HIV-1 transcription and replication and identify M. hominis as a potential source for HIF activity. The virus-enhancing activities associated with the microflora and HIF may increase genital tract viral load, potentially contributing to HIV transmission.

Activation of human immunodeficiency virus type 1 expression by Gardnerella vaginalis

Bacterial vaginosis (BV) is associated with an increased rate of sexual transmission of human immunodeficiency virus (HIV) type 1, and Gardnerella vaginalis is frequently isolated from the genital tracts of women with BV. G. vaginalis lysates were found to significantly stimulate HIV expression in monocytoid cells. Stimulation was significantly higher when lysates were heated at 100 degrees C for 5 min but was reduced by treatment with lysozyme or protease. G. vaginalis lysates also activated HIV expression in certain T cell lines. G. vaginalis lysates activated HIV long-terminal repeat transcription in HIV-infected cells and increased NF-kappaB binding activity, indicating an effect by G. vaginalis on HIV transcription. The activation of HIV production by G. vaginalis suggests that genital tract infection with G. vaginalis increases the risk of HIV transmission by increasing HIV expression in the genital tract. This may explain, at least in part, the increased rate of HIV transmission in women with BV.

B lymphocytes in lymph nodes and peripheral blood are important for binding immune complexes containing HIV-1

We investigated the interaction of HIV immune complexes (HIV IC) with mononuclear cells from lymph nodes and blood. While antibody alone did not affect binding of HIV IC to mononuclear cells, antibody plus complement increased binding by as much as 10-fold and complement alone also increased binding slightly. Most of the increased binding of HIV IC to mononuclear cells was blocked by heat-inactivation of complement and by OKB7 monoclonal antibody, indicating that virus binding was to CR2 on B cells. A similar pattern of antibody and complement dependence for binding of HIV IC was observed with two model systems; Raji and Arent B-cell lines. Most of the HIV IC that bound to lymph node cells were not internalized, but remained on the cell surface and were gradually released. However, even after 48 hr some HIV IC could be detected bound to cells. Under certain conditions, HIV IC were infectious for T cells if bound to B cells but not infectious if added directly to T cells. Additionally, HIV IC bound to B cells led to higher virus replication. These studies show that B lymphocytes from blood and lymph nodes can transfer infectious HIV IC to T cells.

A human immunodeficiency virus (HIV)-inducing factor from the female genital tract activates HIV-1 gene expression through the kappaB enhancer

Virus-enhancing factors present in the female genital tract may influence the transmission of human immunodeficiency virus type 1 (HIV-1). Previously, the presence of a heat-stable soluble factor in the cervicovaginal lavage (CVL) fluid of both HIV-infected and -uninfected women that induces HIV-1 expression in T cells and monocytes was reported. Now this CVL factor was shown to increase HIV-1 gene expression through the activation of the kappaB enhancer in the viral long terminal repeat (LTR). DNA binding studies, together with functional studies using mutant LTR reporter constructs, indicate the requirement for an NF-kappaB-dependent pathway in the CVL-mediated activation of HIV-1 expression. CVL samples that activated HIV-1 expression also stimulated AP-1-dependent transcription. These data demonstrate that an HIV-inducing factor, distinct from heat-labile cytokines, present in the female genital mucosa can activate AP-1 and NF-kappaB and increase HIV-1 gene expression through the kappaB enhancer, possibly contributing to HIV-1 transmission.

Complement can neutralize HIV-1 plasma virus by a C5-independent mechanism

A previous study showed a portion of HIV-1 plasma virus was lysed by the addition of exogenous human AB+ seronegative complement. The current study was performed to determine whether infectious plasma virus was inactivated by complement. Incubation of plasma virus with AB+-seronegative serum resulted in substantial decreases in infectious titers, demonstrating that infectious plasma virus is susceptible to complement-mediated inactivation. Although complement also induced some lysis of plasma virus samples, virus was neutralized to a significantly higher degree, suggesting neutralization did not occur solely by lysis. Additionally, C5-deficient complement substantially neutralized virus, indicating coating of virus by early complement components was an important mechanism of neutralization. A portion of some freshly isolated plasma virus samples bound to complement receptor 2 in the absence of exogenous complement, indicating that early complement components bound virus in vivo. Furthermore, plasma virus samples that had less C3 deposited on their surface in vivo had higher infectious titers than samples with a larger fraction with surface C3. These findings suggest that complement can neutralize HIV-1 plasma virus in vivo by coating with complement proteins. This is the first study to provide evidence that coating by complement leads to functional inactivation of a virus in vivo.

Chemokines are present in the genital tract of HIV-seropositive and HIV-seronegative women: correlation with other immune mediators

In this cross-sectional study, 53 cervicovaginal lavage samples (CVL) from 41 women were analyzed for the chemokines interleukin-8 (IL-8), regulated-on-activation normal T-expressed and secreted (RANTES) factor, and macrophage inflammatory protein-1alpha (MIP-1alpha) by enzyme-linked immunosorbent assay (ELISA). IL-8 was detected in 81% of CVL, whereas RANTES was detected in 32%, and MIP-1alpha in 15% of the CVL. The mean levels of IL-8, RANTES, and MIP-1alpha in positive samples were 396 pg/ml, 102 pg/ml, and 34 pg/ml, respectively. IL-8 levels correlated positively with IL-1beta and IgG in a subset of CVL samples. RANTES levels correlated positively with complement protein levels. Additionally, the levels of RANTES, but not MIP-1alpha, reached levels reported in previous studies of the effects of beta chemokines to inhibit HIV replication. These results suggest that measuring chemokines in CVL specimens can provide important information regarding immune responses in the genital tract.

Mechanisms of resistance of HIV-1 primary isolates to complement-mediated lysis

Previous studies suggested that HIV-1 primary isolates (PI) were resistant to complement-mediated lysis (CML), while virus produced in certain T cell lines and virus taken directly from the plasma of HIV+ persons were both susceptible to CML. The purpose of this study was to investigate the mechanism(s) of PI resistance. PI were resistant to CML using pooled seropositive serum as an antibody source. Additionally, PI obtained from two patients at several times over 2 years were resistant to CML using autologous antibody. PI were also resistant to CML induced by monoclonal antibodies which neutralize a broad range of PI. Resistance to CML was associated with low binding of antibody to PI but was not due to low gp120 levels. Cell-line-derived virus and PI were equally sensitive to CML induced by antibody to host-cell proteins, suggesting that PBMC do not contribute properties to virions which make them more physically resistant to CML in general but that PI resistance is restricted to CML induced by antiviral antibody. These studies show that PI are resistant to CML mediated by various antiviral antibodies and indicate that low binding of antibody to virus is an important factor contributing to resistance.

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.

Transfer of host T-cell membrane HLA-DR and CD25 to target cells by human retroviruses

Many enveloped viruses incorporate host membrane proteins, some of which remain functionally active and significantly affect viral phenotype. We investigated whether human retroviruses can transfer host membrane proteins to target cells. Following incubation with HTLV-I, HLA-DR and CD25 were detected on up to 70% of HPB-ALL cells. Similarly, HLA-DR and CD25 were also detected on cells following incubation with HIV-1. Cyclohexamide or azidothymidine (AZT) had no effect on detection, indicating that binding of virus or infection did not induce expression of these proteins. Detection of host proteins on target cells depended on binding as well as fusion of virus to the cell membrane, indicating that these proteins were inserted into target cell membranes. Virions also transferred host proteins to peripheral blood mononuclear cells (PBMCs). This aberrant transfer of T-cell activation proteins by HIV or HTLV may alter the state of activation or proliferation of target cells and contribute to the immunodeficiencies associated with infection by these viruses.

Evaluation of immunologic markers in cervicovaginal fluid of HIV-infected and uninfected women: implications for the immunologic response to HIV in the female genital tract

We analyzed 21 cervicovaginal lavage (CVL) specimens from 19 women participating in the Women's Interagency HIV Study to characterize levels of antibody, cytokine, and complement and to determine associations between these levels and stage of the menstrual cycle, HIV status, and the presence of concurrent genital infection and genital dysplasia. Sixteen samples were collected from HIV-infected women and five from high-risk HIV-seronegative women. CVL fluid was assayed for levels of IgG, secretory IgA (s-IgA), interleukin 2 (IL-2), IL-10, IL-6, tumor necrosis factor alpha (TNF-alpha), IL-1beta, interferon gamma (IFN-gamma), C3, C1q, and C4. Women with HIV were more likely to have cervicovaginal dysplasia (9/16 vs. 0/5; p = 0.027) but were not more likely to have concurrent vaginal infection (10/16 vs. 2/5; p = 0.38). Antibody, cytokine, and complement were detectable in all samples, although not all samples had measurable IL-10, C3, or C4. HIV-infected women demonstrated a trend toward higher levels of IFN-gamma than did uninfected women (p = 0.098); no differences were noted in other parameters. HIV-infected women with vaginal infections had significantly higher CVL levels of IgG (p = 0.023) and IFN-gamma (p = 0.02) than did HIV-infected women without genital infections. HIV-infected women with cervicovaginal dysplasia were found to have higher levels of IL-1beta (p = 0.045) and IFN-gamma (p = 0.039) than those without. Analysis of the HIV-infected cohort by CD4 cell count revealed higher levels of IgG and IFN-gamma in CVL from women with lower CD4 cell counts, although these differences were not statistically significant. Higher levels of proinflammatory cytokines in CVL fluid of women with genital infection or cervicovaginal dysplasia may affect local HIV replication and may influence the risk of acquisition or transmission of HIV for women with these underlying conditions.

A potent activator of HIV-1 replication is present in the genital tract of a subset of HIV-1-infected and uninfected women

OBJECTIVE AND DESIGN

To determine whether the female genital tract contains factors that affect HIV-1 replication. Cervicovaginal lavage (CVL) samples were collected from HIV-1-seropositive and seronegative women and added to cell cultures.

METHODS

HIV p24 production was used to measure the effects of CVL on replication of HIVMN in a T-cell line, of a primary isolate in peripheral blood mononuclear cells, or on HIV expression by the latently-infected monocytic U1 cell line. The effects of CVL on the HIV long terminal repeat (LTR) were determined in 1G5 T cells by measuring luciferase activity.

RESULTS

Increased replication of HIVMN and a primary isolate were observed in T cells cultured with CVL samples from three out of 38 HIV-infected women, one out of four uninfected high-risk women, and none of 12 low-risk women. The CVL factor increased replication by enhancing virus expression via activation of the HIV LTR. The HIV-inducing activity was highly stable to heat but was sensitive to proteases, indicating that the activity was distinct from heat-labile cytokines including tumour necrosis factor-alpha.

CONCLUSIONS

This is the first study to show that a factor which can stimulate HIV-1 replication is present at biologically active levels in the reproductive tract of women. This factor could potentially affect sexual or vertical transmission of HIV-1 by altering genital tract virus load or virus expression.

Human immunodeficiency virus type 1 incorporates both glycosyl phosphatidylinositol-anchored CD55 and CD59 and integral membrane CD46 at levels that protect from complement-mediated destruction

Human immunodeficiency virus type 1 (HIV-1) can be either resistant or sensitive to complement-mediated destruction depending on the host cells. Incorporation of different levels of host cell CD46, CD55 and CD59 may account for this differential sensitivity to complement. However, it has not been determined whether CD46, CD55 and CD59 can all be incorporated at levels which protect virions. To determine whether each of these proteins can protect HIV-1, virions were derived from CHO cells expressing either human CD46, CD55 or CD59. Virions were shown to incorporate both glycosyl phosphatidylinositol (GPI)-anchored CD55 and CD59 as well as transmembrane CD46. Importantly, all three virus preparations were significantly more resistant to complement lysis than control virus. This study demonstrates that HIV-1 incorporates both transmembrane and GPI-anchored complement control proteins from host cells and that both types of protein increase complement resistance of virus.

Detection of HLA-DR associated with monocytotropic, primary, and plasma isolates of human immunodeficiency virus type 1

This study determined whether HLA-DR was incorporated into human immunodeficiency virus type 1 produced in vivo or by primary cultured cells. HLA-DR was associated with virions from primary isolates, macrophage cultures, and blood plasma. These results represent the first demonstration of major histocompatibility complex molecules associated with an in vivo source of virus.

Susceptibility of HIV-1 plasma virus to complement-mediated lysis. Evidence for a role in clearance of virus in vivo

This study was undertaken to directly assess the susceptibility of HIV-1 plasma virus to C-mediated lysis. Plasma from HIV-infected individuals was collected and ultracentrifuged over 20% sucrose to isolate virions from plasma components including anticoagulants, which inhibit C activity. Treatment with C alone in the absence of exogenously added Ab caused lysis of virus from all patients (n = 18) (range 14 to 86%). This lysis occurred via the classical C pathway and was not due to cross-reactive Abs in the C source. Protein A bound a fraction of isolated plasma virus and this binding was blocked by purified human Ig suggesting that anti-HIV Abs bound to plasma virus could be responsible for inducing C activation. A portion of virus bound to CR2 on cells in the absence of exogenously added C indicating that virus activated C in vivo. C levels from six of six patients were determined to be sufficient to lead to lysis of virus in vivo. Since plasma virus appeared more sensitive to C than primary isolates, isolated virus was evaluated for the presence of C control proteins. While primary isolate virions contained CD46, CD55, and CD59, only CD59 was detected on plasma virus. The results of this study strongly suggest that C is activated by a portion of plasma virus in vivo due to the binding of Ab. The resultant opsonization plus subsequent lysis may be important routes of clearance and destruction of plasma virus in infected persons.

Susceptibility of HIV-1 plasma virus to complement-mediated lysis. Evidence for a role in clearance of virus in vivo

This study was undertaken to directly assess the susceptibility of HIV-1 plasma virus to C-mediated lysis. Plasma from HIV-infected individuals was collected and ultracentrifuged over 20% sucrose to isolate virions from plasma components including anticoagulants, which inhibit C activity. Treatment with C alone in the absence of exogenously added Ab caused lysis of virus from all patients (n = 18) (range 14 to 86%). This lysis occurred via the classical C pathway and was not due to cross-reactive Abs in the C source. Protein A bound a fraction of isolated plasma virus and this binding was blocked by purified human Ig suggesting that anti-HIV Abs bound to plasma virus could be responsible for inducing C activation. A portion of virus bound to CR2 on cells in the absence of exogenously added C indicating that virus activated C in vivo. C levels from six of six patients were determined to be sufficient to lead to lysis of virus in vivo. Since plasma virus appeared more sensitive to C than primary isolates, isolated virus was evaluated for the presence of C control proteins. While primary isolate virions contained CD46, CD55, and CD59, only CD59 was detected on plasma virus. The results of this study strongly suggest that C is activated by a portion of plasma virus in vivo due to the binding of Ab. The resultant opsonization plus subsequent lysis may be important routes of clearance and destruction of plasma virus in infected persons.

Complement activation by HIV-1-infected target cells enhances IL-2-stimulated but not unstimulated ADCC activity mediated by peripheral blood mononuclear cells

The goal of this study was to determine whether deposition of complement C3 breakdown products on the surface of HIV-infected target cells could augment the levels of antibody-dependent cellular cytotoxicity (ADCC) mediated by peripheral blood mononuclear cells (PBMC). Although C3 was deposited on the surface of infected cells in the presence of anti-HIV antibody from infected persons, no increase in the levels of ADCC mediated by freshly isolated PBMC was seen with either infected H9 or CEM-NKr target cells. However, a significant increase in ADCC was observed due to deposition of C3 on target cells with IL-2-stimulated effector cells. These results show that C3 deposition on target cells can increase ADCC cytotoxicity under certain conditions. Complement may thus contribute to destruction of HIV-infected cells through this mechanism in vivo, although these experiments suggest that specific antibody is the major targeting molecule for ADCC.

Short-term stability of HIV provirus levels in the peripheral blood of HIV-infected individuals

Changes in viral load have been reported to reflect disease progression or response to therapy; however, the stability of HIV DNA levels in HIV-infected individuals has not been extensively studied. Cellular HIV DNA levels in infected individuals were evaluated over a short time period to determine degree of variability as well as any correlation with other measurements of virus load or immune status. Peripheral blood mononuclear cells (PBMC) were obtained several times over 1 month from 32 asymptomatic or symptomatic non-AIDS, HIV-infected individuals currently on AZT therapy. PCR amplification of the HIV gag region was performed with DNA from PBMC lysates and the PCR amplified products quantitated by liquid phase hybridization. HIV DNA levels in the majority of the patients were relatively stable, with 26 of 32 persons having less than threefold change. Changes over the study period were both positive and negative, and the median change in HIV DNA levels was 68.6%. These changes were found to positively correlate with fluctuations in plasma p24 levels. In contrast, no correlations were found with other measurements of immune system activity, including changes in CD4 number, CD4 percent, and beta 2-microglobulin when compared with provirus changes. This study shows that levels of HIV DNA can be relatively stable over short periods in most non-AIDS, HIV-infected persons.

Host cell-derived complement control proteins CD55 and CD59 are incorporated into the virions of two unrelated enveloped viruses. Human T cell leukemia/lymphoma virus type I (HTLV-I) and human cytomegalovirus (HCMV)

The current study was undertaken to determine whether the human T cell leukemia/lymphoma oncovirus type I (HTLV-I) and the herpesvirus human cytomegalovirus (HCM) incorporate host cell-derived C regulatory proteins. Our experiments showed that both CD59 and CD55 were associated with the external membrane of HTLV-I derived from MT2 cells, since virus could be captured by mAbs to these proteins, and antisera to CD55 and CD59 induced C-mediated lysis of HTLV-I virions. Additionally, both CD55 and CD59 were detected by immunoblot analysis of purified HTLV-I. Purified HCMV produced in human foreskin fibroblasts (HFF) also contained both CD55 and CD59, as detected by immunoblot analysis. However, treatment with anti-CD55, but not anti-CD59, reduced the HCMV infectious titer in the presence of C. Additional studies determined whether HTLV-I-associated CD55 and CD59 participated in the resistance of the virus to C-mediated lysis. Treatment of virus with phosphatidylinositol-specific phospholipase C (PI-PLC), which removes glycosylphosphatidylinositol-anchored CD55 and CD59, increased the sensitivity of HTLV-I to C-mediated destruction in the presence of anti-HTLV-I Abs. Reconstitution of PI-PLC-treated virus with purified CD55 and CD59 restored resistance to C. These experiments show that HTLV-I and HCMV acquire C control proteins from host cells. Together with our previous experiments showing that both CD55 and CD59 are present on HIV-1, these studies demonstrate a mechanism by which a variety of enveloped viruses may acquire resistance to C-mediated destruction.

Host cell-derived complement control proteins CD55 and CD59 are incorporated into the virions of two unrelated enveloped viruses. Human T cell leukemia/lymphoma virus type I (HTLV-I) and human cytomegalovirus (HCMV)

The current study was undertaken to determine whether the human T cell leukemia/lymphoma oncovirus type I (HTLV-I) and the herpesvirus human cytomegalovirus (HCM) incorporate host cell-derived C regulatory proteins. Our experiments showed that both CD59 and CD55 were associated with the external membrane of HTLV-I derived from MT2 cells, since virus could be captured by mAbs to these proteins, and antisera to CD55 and CD59 induced C-mediated lysis of HTLV-I virions. Additionally, both CD55 and CD59 were detected by immunoblot analysis of purified HTLV-I. Purified HCMV produced in human foreskin fibroblasts (HFF) also contained both CD55 and CD59, as detected by immunoblot analysis. However, treatment with anti-CD55, but not anti-CD59, reduced the HCMV infectious titer in the presence of C. Additional studies determined whether HTLV-I-associated CD55 and CD59 participated in the resistance of the virus to C-mediated lysis. Treatment of virus with phosphatidylinositol-specific phospholipase C (PI-PLC), which removes glycosylphosphatidylinositol-anchored CD55 and CD59, increased the sensitivity of HTLV-I to C-mediated destruction in the presence of anti-HTLV-I Abs. Reconstitution of PI-PLC-treated virus with purified CD55 and CD59 restored resistance to C. These experiments show that HTLV-I and HCMV acquire C control proteins from host cells. Together with our previous experiments showing that both CD55 and CD59 are present on HIV-1, these studies demonstrate a mechanism by which a variety of enveloped viruses may acquire resistance to C-mediated destruction.

Elevated levels of iC3b and C4d, but not Bb, complement fragments from plasma of persons infected with human T cell leukemia virus (HTLV) with HTLV-I-associated myelopathy/tropical spastic paraparesis

Plasma levels of complement (C) fragments iC3b, C4d, and Bb from human T cell leukemia virus (HTLV)-positive subjects with HTLV-I-associated myelopathy (HAM)/tropical spastic paraparesis (TSP) were analyzed by EIA. Both iC3b and C4d levels were significantly elevated in persons with HAM/TSP. These levels were similar to those in patients with human immunodeficiency virus (HIV) infection or rheumatoid arthritis (RA), who are known to have increased C fragments. Bb levels in persons with HAM/TSP wer unaffected, suggesting that C activation occurred only via the classical pathway. This differed from findings in HIV-infected or RA patients, who had elevated levels of Bb. The results showed an increase in C activation in persons with HAM/TSP and activation via the classical pathway, likely mediated by virus or immune complexes. It is possible that the C activation observed in these subjects contributed to the inflammatory pathogenesis of HAM/TSP.

HTLV-I activates complement leading to increased binding to complement receptor-positive cells

This investigation was performed to determine whether HTLV-I can activate complement, since previous studies show that complement activation by some viruses, including HIV-1, can enhance binding to, and infection of complement receptor-positive (CR+) cells. Complement treatment increased binding of HTLV-I to CR+ HPB-ALL cells by approximately 5-fold. In contrast, increased binding was not observed with H9 cells, which lack CR. Heat inactivation or EDTA treatment of complement blocked this increased binding while EGTA treatment only partially blocked binding. Anti-CR2 antibody significantly blocked binding of complement-treated HTLV-I to HPB-ALL cells. Since previous studies showed that HIV-1 could activate complement, activation of complement by this virus was compared with HTLV-I. It was observed that binding of HTLV-I to HPB-ALL cells was enhanced by highly dilute complement (> or = 1:810) while HIV-1 required much higher concentrations of complement (> or = 1:30), indicating that HTLV-I is a much stronger complement activator. Treatment with complement transiently increased the ability of HTLV-I to infect CR+ cell lines as judged by provirus formation (4- to 8-fold increase) and p24 production (5- to 10-fold increase). In contrast, complement treatment did not increase infection of CR- cells. In conclusion this study shows that HTLV-I activates complement leading to increased binding to, and transiently increased infection of, CR+ cells. This complement-mediated increased binding of HTLV-I may dramatically affect viral trafficking and immunological reactivity of virus in vivo.

Role of virion-associated glycosylphosphatidylinositol-linked proteins CD55 and CD59 in complement resistance of cell line-derived and primary isolates of HIV-1

This study investigates whether cell-derived glycosylphosphatidylinositol-linked complement control proteins CD55 and CD59 can be incorporated into HIV-1 virions and contribute to complement resistance. Virus was prepared by transfection of cell lines with pNL4-3, and primary isolates of HIV-1 were derived from patients' PBMCs. Virus was tested for sensitivity to complement-mediated virolysis in the presence of anti-gp160 antibody. Viral preparations from JY33 cells, which lack CD55 and CD59, were highly sensitive to complement. HIV-1 preparations from H9 and U937 cells, which express low levels of CD55 and CD59, had intermediate to high sensitivity while other cell line-derived viruses and primary isolates of HIV-1 were resistant to complement-mediated virolysis. Although the primary isolates were not lysed, they activated complement as measured by binding to a complement receptor positive cell line. While the primary isolates were resistant to lysis in the presence of HIV-specific antibody, antibody to CD59 induced lysis. Likewise, antibody to CD55 and CD59 induced lysis of cell line-derived virus. Western blot analysis of purified virus showed bands corresponding to CD55 and CD59. Phosphatidylinositol-specific phospholipase C treatment of either cell line-derived or primary isolates of HIV-1 increased sensitivity to complement while incubation of sensitive virus with purified CD55 and CD59 increased resistance to complement. These results show that CD55 and CD59 are incorporated into HIV-1 particles and function to protect virions from complement-mediated destruction, and they are the first report of host cell proteins functioning in protection of HIV-1 from immune effector mechanisms.

Decreased levels of complement receptor 1 (CD35) on B lymphocytes in persons with HIV infection

Previous studies have shown that complement receptor 1 (CR1) expression on erythrocytes is decreased under several conditions including HIV infection and autoimmune diseases. The goal of this study was to determine whether expression of CR1 on peripheral blood B cells, where this receptor plays a role during immune responses, is altered in persons with HIV infection. The B cells from rheumatoid arthritis (RA) patients were also assessed since this represents a group with known complement and B cell abnormalities. The CD19+ B cells from persons with either HIV infection or RA had significantly reduced levels of CR1 when compared with control donors (75 and 72% CR1+ versus 94% CR1+ for control donors). The reduction of B cell CR1 occurred in both the percentage of B cells positive for CR1 and the levels of CR1 found on positive cells. In contrast, CR1 on monocytes was not reduced. As shown in previous studies, CR2 was also found to be reduced on B cells from the HIV-infected persons and there was extensive overlap between the B cell subsets which lacked expression of CR1 and CR2. The complement receptor-negative B cells found in HIV-infected persons were not immature or activated as defined by their lack of expression of CD10 or B7, respectively. Elevated levels of C4d, a classical complement pathway-activation product, were detected in plasma from both HIV-infected and RA patients. These studies suggest that chronic complement activation occurring in persons with HIV infection or RA can affect the complement receptor phenotype of peripheral blood B cells. Since complement receptors are involved in activation of B cells, the subset that lacks CR1 may represent cells that have encountered immune complexes and may therefore be stimulated. Additionally, the downregulation of complement receptors may have significant effects on the ability of B cells to capture and present opsonized antigens.

Efficacy of HIV-specific and 'antibody-independent' mechanisms for complement activation by HIV-infected cells

Previous studies in this laboratory have shown that efficient activation of complement (C) on HIV isolates and HIV-infected cells requires the binding of specific anti-HIV antibodies, while other investigators have observed 'antibody-independent' C activation. In an attempt to clarify these disparate findings, we investigated the effect of several variables on C activation by HIV-infected cells using flow cytometric analysis of C3 deposition. Antibody-mediated C activation using pooled sera from infected persons or human MoAbs directed against the V3 region of gp120 was always substantially higher than activation without antibody. Normal human serum (NHS) from a subset of HIV antibody-negative donors did, however, induce low levels of C3 deposition. Differences in C3 activation between the various NHS did not correlate with total haemolytic C levels or mannose-binding protein (MBP) levels. IgM isolated from NHS that induced high levels of C activation was at least partly responsible for the 'antibody-independent' C activation. Although there appeared to be a correlation between NHS that induced C activation and the presence of anti-blood type B IgM, absorption of anti-B did not abrogate the C3 deposition. Additionally, MoAb to the B antigen did not induce C3 deposition. These studies show that IgM in sera from HIV-uninfected donors can induce C3 deposition on HIV-infected cells, but that specific antibody-dependent C activation is substantially more efficient. Therefore, 'antibody-independent' C activation on HIV-infected cells may, in some cases, be more accurately described as HIV-cross-reactive antibody-dependent C activation.

Human immunodeficiency virus and Mycobacterium avium complex coinfection of monocytoid cells results in reciprocal enhancement of multiplication

Disseminated Mycobacterium avium complex (MAC) infection is an important opportunistic infection in AIDS patients. Because cells of macrophage lineage are targets for both human immunodeficiency virus (HIV) and MAC, the monocytoid cell line U937 was coinfected with both pathogens. Coinfected cultures had increased HIV replication (more than threefold at day 6) and an increased percentage of HIV-infected cells compared with cultures infected only with HIV. The kinetics of HIV replication were significantly increased in this coinfection system as measured by flow cytometry. When cells were infected concurrently, the rate of intracellular growth of MAC was not significantly affected. However, cells preinfected with HIV before infection with MAC showed significant enhancement of MAC growth compared with control cells. The kinetics of cell death were also increased in the coinfection system compared with singly infected controls. Thus, coinfection of monocytoid cells with HIV and MAC in vitro results in reciprocal enhancement of multiplication.

Antibodies to the HIV-1 V3 loop in serum from infected persons contribute a major proportion of immune effector functions including complement activation, antibody binding, and neutralization

Previous studies have shown that the V3 region of the HIV envelope is both critical to viral functions and immunogenic. However, the relative contribution of anti-V3 antibodies in the sera of infected individuals in mediating immune effector functions directed at whole intact virus and infected cells has not been determined. This study used peptides corresponding to several regions of the HIV envelope as inhibitors of antibody binding and antibody effector functions directed at virions and virus-infected cells in order to assess the relative importance of V3-specific antibodies in sera from infected persons. Approximately 40% of the antibody in serum which could bind to native viral proteins on HIVMN-infected cells was blocked by a peptide corresponding to the central 15 amino acids of the V3 loop. In contrast, little if any blocking of serum antibody binding was observed with peptides corresponding to flanking regions of HIVMN V3 or three regions of gp41. Since antiviral antibody can also activate immune effector functions, we determined whether peptides could block antibody-dependent activation of the complement system by HIV-infected cells or free virus. Surprisingly, the V3 loop peptide blocked 75-95% of complement activation on HIV-infected cells. While the V3 loop peptide also blocked a substantial portion of the neutralizing activity in serum from infected persons for free virus it was again more effective in inhibiting complement-mediated effects on free virus. Accordingly, antibody-dependent, complement-mediated virolysis was inhibited by 61-79%. The results of these experiments indicate that (1) a substantial portion (30-40%) of the antibody in sera from infected persons that is capable of binding to HIV-infected cells and HIV virions is V3-specific, and (2) these V3-specific antibodies are particularly important for complement activation on infected cells and virions. This indicates that the central portion of the V3 loop, while constituting less than 3% of the amino acid sequence of the HIV envelope, apparently provides a major gp160 site for immune effector functions, especially complement activation.

Host cell components affect the sensitivity of HIV type 1 to complement-mediated virolysis

An infection-competent, full-length HIV-1 clone (pNL4-3) was expressed in seven human cell lines and in peripheral blood mononuclear cells in order to assess the contribution of host cell components toward interaction of free virus with the complement system. HIV-1 expressed in the H9 cell line, which is frequently used for in vitro infection, was relatively susceptible to complement-mediated virolysis in the presence of both HIV antibody-positive patient serum and an anti-V3 monoclonal antibody. Expression of complement receptors 1, 2, and 3, complement control proteins membrane inhibitor of reactive lysis (MIRL, CD59) and decay-accelerating factor (DAF, CD55), and HLA-DR was assessed on host cells. There was an inverse relationship between the sensitivity of virus to complement and the amount of expression of MIRL and DAF on cells. HIV derived from the JY cell line and the mutant JY33 cell line, which is deficient in expression of phosphatidylinositol (PI)-linked proteins including MIRL and DAF, were also evaluated for complement-mediated virolysis. Virus expressed in the mutant cell line was more sensitive to antibody-independent as well as antibody-dependent complement-mediated virolysis than virus expressed in the wild-type cells. Direct demonstration of the presence of MIRL and DAF on the viral surface was obtained by showing that anti-MIRL or anti-DAF antibody induced complement-mediated virolysis. These experiments show that the host cell type can substantially influence the susceptibility of HIV to complement-mediated virolysis and suggest that PI-linked complement control proteins play an important role in this resistance.

Anti-cellular antibodies in sera from vaccinated macaques can induce complement-mediated virolysis of human immunodeficiency virus and simian immunodeficiency virus

Previous studies show that immunization of macaques with preparations of either human immunodeficiency virus (HIV) or simian immunodeficiency virus (SIV) that has been produced in human cells can induce antibodies against both viral antigens and human cellular antigens. This is due to the fact that certain host cell antigens are carried along with the virus during the purification process. The current series of experiments were performed to determine whether these anti-cellular antibodies can activate complement and whether the resultant complement activation could lead to virolysis of either HIV or SIV. Sera from macaques immunized with SIV or HIV (produced in the H9 human cell line) contained anti-cellular antibodies as determined by flow cytometry. Antibodies in these sera were capable of activating complement on uninfected human cells. Sera from the HIV-immunized macaques induced complement-mediated virolysis of both HIV and SIV. Similarly, sera from SIV-immunized macaques induced complement-mediated virolysis of both SIV and HIV. These results suggested that anti-cellular antibody in the sera could induce complement-mediated virolysis of either virus. To investigate this further, sera was absorbed with uninfected cells, which removed all of the virolytic activity for the heterologous virus. These in vitro studies indicate that complement activation can be initiated by anti-human cell antibodies, and that this activation can result in the destruction either HIV or SIV. This unusual antiviral mechanism may account for some portion of the resistance of human cell-immunized macaques to human cell-produced SIV that has been recently reported.

Detection of HIV-1 provirus in bronchoalveolar lavage cells by polymerase chain reaction

This study was undertaken to evaluate whether HIV-seropositive individuals harbor HIV provirus in cells obtained by bronchoalveolar lavage (BAL). BAL cells were obtained from 14 HIV-positive patients undergoing bronchoscopy for evaluation of acute pulmonary symptoms. Cells were fractionated into macrophage-enriched and lymphocyte-enriched populations. The quantity of HIV-1 proviral DNA in the unfractionated BAL cells and in each population of fractionated cells was determined following polymerase chain reaction (PCR) amplification. Detectable quantities (3-90 copies/100,000 cells) of HIV-1 proviral DNA were found in unfractionated BAL cells in 12 of 14 patients. In the other two patients, provirus was detected after a sevenfold enrichment of lymphocytes. Provirus was also detected in BAL macrophages from 8/14 patients although proviral content was significantly higher in the lymphocyte fraction (133 +/- 72 vs. 35 +/- 22 proviral copies, p = 0.03). No correlation was seen with the ability to detect provirus in lymphocyte- or macrophage-enriched fractions and clinical diagnosis (e.g., Pneumocystis carinii pneumonia). The data suggest that lymphocytes are the predominant cells that contain provirus found in the lungs, although macrophages may be infected in some patients.

Complement activation by human monoclonal antibodies to human immunodeficiency virus

It has been shown that the incubation of human immunodeficiency virus (HIV) with polyclonal antibodies from HIV-infected persons and complement results in complement-mediated neutralization due, at least in part, to virolysis. The current study was performed to determine whether any of a panel of 16 human monoclonal antibodies to HIV could activate complement and, if so, which determinants of the HIV envelope could serve as targets for antibody-dependent complement-mediated effects. Human monoclonal antibodies directed to the third variable region (V3 region) of HIVMN gp120 induced C3 deposition on infected cells and virolysis of free virus. Antibodies to two other sites on HIVMN gp120 and two sites on gp41 induced few or no complement-mediated effects. Similarly, only anti-V3 antibodies efficiently caused complement-mediated effects on the HIVIIIB isolate. In general, the level of C3 deposition on infected cells paralleled the relative level of bound monoclonal antibodies. As expected, pooled polyclonal antibodies from infected persons were much more efficient than monoclonal antibodies inducing C3 deposition per unit of bound immunoglobulin. Treatment of virus or infected cells with soluble CD4 resulted in increases in anti-gp41 antibody-mediated virolysis and C3 deposition but decreases in anti-V3 antibody-mediated virolysis and C3 deposition. In general, virolysis of HIV was more sensitive as an indicator of complement-mediated effects than infected-cell surface C3 deposition, suggesting the absence of or reduced expression of functional complement control proteins on the surface of free virus. Thus, this study shows that human monoclonal antibodies to the V3 region of gp120 are most efficient in causing virolysis of free virus and C3 deposition on infected cells. Elution of gp120 with soluble CD4 exposes epitopes on gp41 that can also bind antibody, resulting in virolysis and C3 deposition. These findings establish a serologically defined model system for the further study of the interaction of complement and HIV.

In vivo decrease in the expression of complement receptor 2 on B-cells in HIV infection

OBJECTIVE

To investigate changes in the expression of complement receptor 2 (CR2) on B-cells from HIV-infected individuals. CR2 is the C3d/Epstein-Barr virus receptor and has been implicated in B-cell activation. Changes in its level of expression may therefore be associated with B-cell dysfunction.

DESIGN

Cross-sectional study of HIV-infected adults and age-matched control donors.

METHODS

The percentage expression and mean fluorescence intensity of CR2 (and three additional markers: CD19, CD69, and a standard antigen designation: HLA-DR) was measured on CD20+ B-cells using a two-color flow cytometric assay.

RESULTS

This study demonstrated a highly significant (P = 0.0001) decrease in the percentage co-expression of CR2 on CD20+ B-cells in HIV-infected individuals, compared with control donors. The mean percentage of CD20+ cells co-expressing CR2 was 71% (s.d., +/- 15%) in the HIV-seropositive patients and 94% (s.d., +/- 4%) in the control group. The pattern of CR2 expression in a number of the patients suggested a decrease in antigen density on the cells. Decreased expression of CR2 did not correlate with disease stage (asymptomatic, AIDS-related complex, or AIDS), nor with CD4+ T-cell percentage or absolute count, in the seropositive group.

CONCLUSIONS

The evidence for a role for CR2 in B-cell activation suggests that its decreased expression, which we have demonstrated in HIV-seropositive individuals, may be associated with the B-cell dysfunction observed in HIV infection. Our finding that expression of this marker is decreased even in asymptomatic patients is consistent with reports of early B-cell defects in such individuals. Further investigation of this possible association may shed some light on both the increased incidence of bacterial infections in HIV-infected adults and children and their impaired responses to certain immunizations.