Association of changes in monocyte antigen presentation and cytokine production in haemophilic boys with treatment and blood-borne virus infection

Production of interleukins 10 and 12 by activated peripheral blood monocytes/macrophages in patients suffering from chronic hepatitis C virus infection with respect to the response to interferon and ribavirin treatment

Circulating monocytes/macrophages are important for the initiation of immune responses to hepatitis C virus (HCV). Their presentation capacities and production of immunoregulatory cytokines enable them to activate cellular immune responses which is critical in determining the outcome of infection. We used flow cytometry to examine the expression of a CD80 costimulatory molecule on the surface of peripheral blood CD14+ monocytes/macrophages and to analyse the production of IL10 and IL12 by these cells. Forty-three individuals (6 asymptomatic HCV carriers, 37 patients with chronic hepatitis C (CHC)) were enrolled in this study. Thirty-seven patients with CHC (23 responders and 14 non-responders, NR) received combination (interferon+ribavirin) treatment for 52 weeks. The baseline percentage of CD14+CD80+ peripheral blood monocytes/macrophages was high in patients with CHC (P<0.001) and returned to normal after the treatment. All patients with CHC showed significantly high production of IL10 (P<0.001). In asymptomatic HCV carriers production level of this cytokine tended to be higher than in patients with CHC (P<0.001). A baseline production of IL12 was higher in asymptomatic HCV carriers and patients with CHC compared to healthy controls (P<0.001). The level of IL12 production was increased in treatment responders whereas in NR returned to normal value. Our data argue against functional impairment of circulating monocytes/macrophages during HCV infection. Furthermore, the positive therapeutic outcome following combination treatment might associate with increased production of IL12 by these cells.

Study of the infection of human blood derived monocyte/macrophages with hepatitis C virus in vitro

Hepatitis C virus (HCV) is essentially hepatotropic, but clinical observations based on quasispecies composition in different compartments or on viral RNA detection in cells suggest that the virus is able to infect and persist in cells other than liver cells. It was shown previously that peripheral blood mononuclear cells (PBMCs) are permissive to HCV replication in vitro but at a very low rate. Since different viruses associated with chronic infections are known to persist in monocyte/macrophages, it is important to determine whether these mononuclear blood cells are susceptible preferentially to HCV. In order to study HCV interaction with monocytes/macrophages, these cells were isolated from the blood of healthy donors and incubated with HCV genotype 1b positive sera. The detection by RT-PCR of the positive- and negative-strand RNA in the cells at different times and the increase in the amount of intracellular viral RNA measured by the branched DNA assay suggest that monocyte/macrophages can support HCV RNA replication. The rate, however, is very low. The analysis of hypervariable region 1 (HVR-1) nucleotide sequences indicated that some minor variant present in the inoculum might display a specific tropism for the monocytes/macrophages. These results provide evidence that human monocytes/macrophages might represent a reservoir for HCV. This cell tropism may be a crucial factor in the pathogenesis of hepatitis C.

New-generation recombinant factor concentrates: bridge to gene therapy

Despite our best efforts to deceive the immune system, outwit pathogens, and improve upon the design of nature, there continues to be a need to improve the margin of safety of treatment for those with bleeding disorders. The current approach includes: (1) recombinant factor concentrates free of added proteins; (2) 'designer' factor molecules that enhance function and reduce immunogenicity; and (3) modulation of the immune system to suppress immune response in those who develop inhibitors. The hope is that through advances in our understanding of the coagulation and immune systems, treatment of haemophilia in the new millennium will be safer and less immunogenic. Currently available recombinant clotting factor concentrates include those produced: (1) with pasteurized human serum albumin in the cell culture medium as a stabilizer; (2) with bovine serum proteins in the cell culture medium; and (3) free of plasma derivatives. To the extent that current recombinant clotting factor concentrates contain even trace amounts of human or animal protein, there is continuing potential for transmission of nonenveloped viruses, including hepatitis A and parvovirus, and the theoretical potential for transmission of relatively unknown agents, such as prions (Creutzfeldt-Jakob disease or its variant). Second-generation recombinant factor concentrates that do not use human albumin as a stabilizer are currently in clinical trials, and third-generation recombinant factor concentrates currently in development take advantage of new strategies to achieve a 'protein-free' cell culture, purification, and final formulation. It is likely that improvement in safety and reduction in immunogenicity will require modification not only of antigenic structure but also of the immune response to coagulation proteins.

Semi-quantification of human C-C chemokine mRNAs with reverse transcription/real-time PCR using multi-specific standards

A reverse transcription/real-time polymerase chain reaction (PCR) assay was established to semi-quantify the mRNA levels of the human C-C chemokines RANTES, MIP-1beta and MCP-1 relative to the housekeeping gene beta-actin. The assay showed a high sensitivity (below 60 cDNA molecules/10 microl reaction) and dynamic range (8 log units); both within-assay and inter-assay variability were below 0.06 log units and the accuracy was +/-0.06 log units for all four chemokines. Moreover, it is demonstrated that a multi-specific DNA fragment, which had previously been constructed for competitive PCR, can be used as a reliable external standard. This allows a direct semi-quantitative comparison of different chemokine mRNA levels and is a convenient alternative to the use of different sets of homologous external standards. The method was successfully applied to the semi-quantification of chemokines in human liver specimens and should be useful in further studies on steady state mRNA levels of C-C chemokines from low cell numbers or small tissue specimens.

Safety and immunogenicity of subcutaneous hepatitis A vaccine in children with haemophilia

Individuals with Haemophilia are at risk from hepatitis A virus (HAV) infection through exposure to blood products. Havrix(R), an intramuscular hepatitis A vaccine, is currently recommended for the prevention of disease caused by hepatitis A virus. Because bleeding may complicate intramuscular injections in those with bleeding disorders, we conducted a randomized, Phase IV clinical trial to compare the safety and immunogenicity of Havrix(R) given by the subcutaneous (s.c) vs. intramuscular (i.m.) route. A total of 45 children with Haemophilia were vaccinated subcutaneously, while their 41 nonhaemophlic siblings were vaccinated intramuscularly, at a dose of 720 Elisa units (EL.U.) at time 0 and 6 months. All children were anti-HAV and anti-HIV negative at baseline, and the haemophilic group did not differ from their siblings in alanine aminotransferase (ALT; 25 IU L-1 vs. 22 IU L-1), or in age; 8.5 years vs. 8.7 years. The vaccine was well tolerated, with minor adverse events being similar between groups; 21 (47%) vs. 24 (58%), P > 0.05. Local symptoms included soreness in 39 (45%), erythema in 25 (29%), swelling in 21 (24%), and bruising in six (7%), with no differences between groups. The proportion seroconverting to anti-HAV IgG positive did not differ between groups; 98% vs. 97% at month 1; 82% vs. 93% at month 6; and 100% vs. 100% at month 8, respectively. The HAV geometric mean titre was lower in those with Haemophilia, 185 vs. 233 mIU mL-1 at month 1; 68 vs. 94 mIU mL-1 at month 6; and 584 vs. 1082 mIU mL-1 at month 8, respectively. We conclude that Havrix(R) is safe and immunogenic when administered s. c. in children with Haemophilia.

High viral load and mild liver injury in children with hemophilia compared with other children with chronic hepatitis C virus infection

BACKGROUND

In adults with hepatitis C virus (HCV) infection, the severity of liver disease may be influenced by the mode of transmission. The purpose of this study was to evaluate whether the mode of transmission affects liver injury and viral load in children with chronic HCV infection, independent of duration of infection and/or HCV genotype.

METHODS

Thirty-nine anti-HCV (EIA-2) positive patients, were divided into three groups: group 1, children with a history of blood transfusion (n = 9; age, 13.3+/-1.3 years), group 2, children with hemophilia (n = 19; age, 11.6+/-0.8 years); and group 3, children with maternal-fetal transmitted disease (n = 10; age, 4.7+/-1.1 years). Serum alanine aminotransferase, HCV viral load, HCV genotype, and liver histology were assessed.

RESULTS

Serum HCV viral load was higher in group 2 (4.27+/-1.0x10(6) copies/ml; p = 0.006) than in group 1 (0.73+/-0.3x10(6) copies/ml) and in group 3 (0.83+/-0.2x10(6) copies/ml). Conversely, group 2 had less severe liver injury compared with children of similar age in group 1 (p = 0.022). Despite a shorter duration of infection, group 3 had liver injury similar to that in group 1. Hepatitis C virus genotype did not influence the level of viremia or liver injury.

CONCLUSIONS

Although children with hemophilia exhibited a high HCV viral load, liver histopathology was less severe than in children who had acquired HCV by blood transfusion or maternal-fetal transmission. These observations support the need to investigate the role of host immune response rather than the virus per se in the pathogenesis of HCV infection in children.

TGF-beta is not the principal immunosuppressive component in coagulation factor concentrates

Coagulation factor concentrates are known to inhibit a variety of immune reactions when assessed in vitro. This study assessed the immunomodulatory activity of a wide range of coagulation factor concentrates by measuring their inhibition of PHA-stimulated lymphocyte proliferation and reduction in IL-2 secretion. The hypothesis that TGF-beta is responsible for most of these effects was tested by measuring biologically active TGF-beta and immunoreactive TGF-beta1 in the concentrates and comparing the levels recorded with immunosuppressive activity. In addition, the coagulation factors were compared directly with a standard preparation of TGF-beta in a TGF-beta-specific bioassay and in lymphocyte proliferation assays. Although there was a broad correlation between levels of total or active TGF-beta and immunosuppressive activity across all of the coagulation factors tested, individual data sets showed clear discrepancies. Implying that TGF-beta probably serves as a surrogate marker for other immunomodulatory contaminants and that neither TGF-beta nor any other single substance could account for all of the immunosuppressive activity observed. Furthermore, there was a difference of more than 100-fold in the relative potencies of coagulation factors and pure TGF-beta, when compared in immunosuppression assays, indicating that the different assays did not measure the same substance. Whereas anti-TGF-beta antibody almost completely blocked the activity of coagulation factor concentrates (TGF-beta-specific bioassay) and abrogated the effect of authentic TGF-beta (immunosuppression assays) at high concentrations it achieved <50% reversal of the immunosuppressive effects of coagulation factors in immunosuppression assays. These findings indicated that TGF-beta accounted for only a minor proportion of the immunosuppressive activity in most coagulation factor concentrates.

mRNA cytokine profile in peripheral blood cells from chronic hepatitis C virus (HCV)-infected patients: effects of interferon-alpha (IFN-alpha) treatment

Natural immune responses, both cellular and humoral, are not capable of terminating HCV infection in most patients. A role has been suggested for peripheral blood leucocytes (PBL) in viral persistence and clinical implications, as these cells may serve as a viral reservoir and at the same time may be inadequate active participants in antiviral immune reactions. IFN-alpha administration, although only partially successful, is currently the main therapy available for chronic HCV patients. In addition to its antiviral effects, IFN-alpha regulates the function of cytokines, their receptors and other molecules of immune importance. The aim of this study was to determine cytokine mRNA expression in PBL derived from chronic HCV patients prior to and at termination of IFN-alpha treatment. HCV RNA was still observed in sera of most patients (10 out of 14 treated patients) at termination of treatment. In pretreated patients mRNA expression of Th2 (IL-4, IL-6 and IL-10) and Th3 (transforming growth factor-beta (TGF-beta)) was observed in only a low percentage of PBL samples from patients, similar to controls. IFN-alpha treatment led to an elevation in the number of samples expressing these cytokines (significant for IL-4, IL-6, IL-10, tumour necrosis factor-alpha (TNF-alpha) and TGF-beta), accompanied by reduction in liver enzymes but in serum viral load in only approximately 30% of patients. Expression of TNF-alpha and TNF-beta mRNA was observed in samples from patients but not controls, while no differences were observed for mRNA of classical Th1 cytokines (IL-2 and IFN-gamma) between patients before or during treatment as well as controls. The cytokine mRNA profile following IFN-alpha treatment points to an anti-inflammatory response which does not appear to be involved in termination of the viral infection. The PBL cytokine profile observed in this study may explain the failure of the immune system to eradicate HCV chronic infection and suggests that early treatment in the acute phase of disease with agents that stimulate cytotoxic immune type 1 responses may lead to eradication of HCV infection.

Clotting factor concentrates and immune function in haemophilic patients

Patients with haemophilia often exhibit a variety of disturbances in immune function. Although infections with HIV, hepatitis and other viruses no doubt contribute to these abnormalities, chronic exposure to extraneous proteins in clotting factor concentrates (CFCs) may also play a role. Numerous in vitro and ex vivo studies show that protein contaminants--such as immunoglobulins, fibrinogen and fibronectin--can depress various immune function indicators. Generally, such studies show that intermediate-purity CFCs are more inhibitory than very high-purity (e.g. monoclonal-purified) CFCs. In many, but not all, studies, the degree of immunosuppression correlates with the amount of intermediate-purity CFC administered over time. Among various indicators of immune function, CD4+ lymphocyte number is a marker for the progression of HIV infection, and maintenance of CD4+ number is associated with delayed progression. A number of studies suggest that, compared with intermediate-purity CFCs, use of very high-purity CFCs is associated with longer preservation of this class of lymphocytes. However, it remains to be seen whether this translates to improved long-term clinical outcomes. Further research is needed on the impact of CFCs on the immune system. For the time being, however, evidence to date favours the use of very high-purity products because they appear to preserve immune function and reduce the risk of infection with hepatitis and other viruses.

Progression of HIV in haemophilia

The recent elucidation of the life cycle and dynamics of the human immunodeficiency virus (HIV) and technological advances in development of the HIV RNA PCR assay for sensitive detection of viral load have revolutionized the diagnosis, management, and treatment of HIV infection. Beginning with initial infection, there is unremitting, high-level viral replication that persists throughout the course of HIV infection. The measure of the amount of virus present in plasma, HIV viral load, is the single most important predictor of HIV progression, the best indicator of immune system decline, and the best guide for initiating and monitoring antiviral treatment. Further, HIV viral load has become the new yardstick against which other markers, including CD4 number, age, chemokine receptor mutations, cytotoxic T-cell responses, and neutralizing antibody titers are assessed. For individuals with haemophilia, additional 'markers' may have significant impact on the outcome of HIV disease. Chronic factor concentrate treatment has led to transfusion-associated hepatitis, co-infection with hepatitis C (HCV), and chronic liver disease. The latter may become accelerated with HIV progression and may lead to hepatotoxicity with antiviral drug therapy. Chronic factor concentrate treatment has also been associated with immunosuppression, including both B- and T-cell immune defects. In HIV(+) haemophilic men, this immune deficit has led to lower CD4 counts with HIV progression and poorer CD4 response to antiviral drugs than in gay men. The underlying haemophilic bleeding tendency may result in significant haemorrhage with HIV-associated immune thrombocytopenia and with protease inhibitor antiretroviral therapy. Although AIDS is the leading cause of death in this group, the reduction in the size of the haemophilia population over the next two centuries is estimated to be small, and survival should improve as better antiviral therapeutics are identified.