Aberrant dendritic cell function conditions Th2-cell polarization in allergic rhinitis.

BACKGROUND: Myeloid (m) and plasmacytoid (p) dendritic cells (DCs) regulate immune responses to allergens, whereas it remains unclear whether abnormal DC function characterizes patients with airway allergy and whether putative dysfunction exists only in target organs. To evaluate DC function from patients with allergic rhinitis (AR), we assessed nasal, cutaneous as well as blood DCs after in vivo and in vitro allergen challenge, respectively. METHODS: DCs were immunostained in nasal and skin tissues, and cytokine expression was assessed by dual immunofluorescence. Cytokine production and regulation of cocultured peripheral CD4+ T cells were assayed by ELISA. RESULTS: In AR patients, local allergen challenge resulted in increases in pDC and mDC numbers at 8 h in the nasal mucosa and at 8-48 h in the skin. Defects in IL-10 and IFN-α were observed in both organs from AR. Blood mDCs from AR exhibited reduced IL-10 and IL-12 expression. The capacity of activated pDCs from AR to produce IFN-α and to trigger IL-10 by allogeneic CD4(+) T cells was diminished, whereas mDCs from these patients supported Th2- and Th17-cell differentiation. CONCLUSION: In allergic rhinitis, DCs are altered not only locally but also in the systemic circulation. mDCs and pDCs increased in airway and skin tissues exposed to the allergen and displayed reduced production of IL-10 and 'type 1 signals' (IL-12, IFN-α) both locally and in blood. Functional studies showed that this results in preferential Th2/Th17-cell polarization and impaired generation by blood DCs of IL-10+ T cells, linking systemic DC dysfunction and biased T-cell responses.

Local receptor revision and class switching to IgE in chronic rhinosinusitis with nasal polyps.

BACKGROUND: Chronic rhinosinusitis with nasal polyps (NP) and allergic rhinitis (AR) is characterized by local Th2 inflammation and up-regulation of IgE; however, IgE in NP is 'polyclonal' and allergen specific, whereas IgE in AR is 'oligoclonal' and allergen specific. Germinal center (GC) reactions occur in AR, while only the formation of GC-like structures in NP is described. The aim of this study was to investigate the involvement of local IgE production, class switch recombination, and receptor revision in NP. METHODS: We compared the levels of local IgE, germline gene transcripts, and mature Ig mRNA expression, recombination activating gene (RAG1 and RAG2), key markers of Th2 inflammation, and GC reactions in NP tissue vs AR and control tissue. Nasal mucosa was immunostained for the co-expression of RAG1 and RAG2 in B cells, plasma cells, and T cells, using dual or triple immunofluorescence (IF). RESULTS: In NP, local IgE level and key markers of local class switching are increased compared with AR and normal controls (NC). In NP, switch circle transcripts reveal ongoing local class switch recombination to IgE. Up to 30% of B cells, plasma cells, and T cells in nasal polyps re-express both RAG1 and RAG2, required for receptor revision. RAG1 and RAG2 mRNA concentrations are increased in NP and correlated with the magnitude of inflammation and the presence of S. aureus enterotoxin (superantigen)-specific IgE in the nasal polyp mucosa. CONCLUSION: Our results provide the first evidence of local receptor revision and class switching to IgE, and B-cell differentiation into IgE-secreting plasma cells in NP.

Reduced T-bet in addition to enhanced STAT6 and GATA3 expressing T cells contribute to human allergen-induced late responses.

BACKGROUND: T-bet and GATA-3 are transcriptional factors involved in Th1 and Th2 cell differentiation, although their concomitant roles at protein levels in target organs during human allergic disease have not been assessed. OBJECTIVES: We investigated the expression of T-bet and GATA-3 in nasal and cutaneous models of Th2 (grass-pollen allergen) and a cutaneous model of Th1 (PPD) responses in man. METHODS: Nasal biopsies were obtained at 8 h and skin biopsies at 8 and 48 h after allergen and PPD challenges, respectively, from 10 allergic rhinitics and 6 non-atopic controls. T cells were assessed using immunofluorescence microscopy. RESULTS: There were increases in CD3(+)STAT6(+)cells (P = 0.01 for nose and skin) and CD3(+)GATA3(+)cells (P = 0.03 for skin) in response to allergen compared with diluent in allergics. When compared with non-atopics after allergen challenge the difference between the two groups was also significant for CD3(+)STAT6(+) (P = 0.001 and 0.03) and for CD3(+)GATA3(+)cells (P = 0.04 and 0.001) for nose and skin respectively. Following PPD challenge CD3(+)STAT4(+)cells and CD3(+)T-bet(+)cells increased in both groups compared with diluent (P = 0.02 and 0.03 for both TFs), whereas only CD3(+)T-bet(+) cells were significantly greater in non-atopics compared with allergics (P = 0.04). The ratio of GATA3(+):T-bet(+) T cells in allergen-induced responses was significantly greater in the allergics (P = 0.008 and 0.01 nose and skin respectively), whereas the ratio of T-bet:GATA3(+)T cells was significantly higher in the non-atopics during PPD-induced responses (P = 0.003). CONCLUSIONS AND CLINICAL RELEVANCE: Dysregulation of Th1 transcription may contribute to heightened expression of STAT6 and GATA3 leading to exaggerated Th2-driven manifestations of allergic disease.

CC chemokine receptor 4 (CCR4) in human allergen-induced late nasal responses.

BACKGROUND: CC Chemokine receptor 4 (CCR4) is preferentially expressed on Th2 lymphocytes. CCR4-mediated inflammation may be important in the pathology of allergic rhinitis. Disruption of CCR4 - ligand interaction may abrogate allergen-induced inflammation. METHODS: Sixteen allergic rhinitics and six nonatopic individuals underwent both allergen and control (diluent) nasal challenges. Symptom scores and peak nasal inspiratory flow were recorded. Nasal biopsies were taken at 8 h post challenge. Sections were immunostained and examined by light or dual immunofluorescence microscopy for eosinophils, T-lymphocytes, CCR4(+)CD3(+) and CXCR3(+)CD3(+) cells and examined by in situ hybridization for CCR4, IL-4 and IFN-gamma mRNA(+) cells. Peripheral blood mononuclear cells were obtained from peripheral blood of nine normal donors and the CCR4(+)CD4(+) cells assessed for actin polymerization in response to the CCR4 ligand macrophage-derived chemokine (MDC/CCL22) and the influence of a CCR4 antagonist tested. RESULTS: Allergic rhinitics had increased early and late phase symptoms after allergen challenge compared to diluent; nonatopics did not respond to either challenge. Eosinophils, but not total numbers of CD3(+) T cells, were increased in rhinitics following allergen challenge. In rhinitics, there was an increase in CCR4(+)CD3(+) protein-positive cells relative to CXCR3(+)CD3(+) cells; CCR4 mRNA+ cells were increased and IL-4 increased to a greater extent than IFN-gamma. CCR4(+)CD4(+) T cells responded to MDC in vitro, and this response was inhibited by the selective CCR4 antagonist. CONCLUSION: Lymphocyte CCR4 expression is closely associated with induction of human allergen-induced late nasal responses. Blocking CCR4-ligand interaction may provide a novel therapeutic approach in allergic disease.

Basophil recruitment and IL-4 production during human allergen-induced late asthma.

BACKGROUND: Basophils represent an important source of inflammatory mediators and cytokines after IgE-dependent activation in human beings. OBJECTIVE: To assess the role of basophils in allergic asthma, we measured the number of basophils in the bronchial mucosa and their capacity to express IL-4 mRNA and protein during allergen-induced late asthmatic responses. METHODS: Fiberoptic bronchoscopic bronchial biopsies were obtained at 24 hours from sites of segmental bronchial allergen challenge and control sites in 19 patients with atopic asthma and 6 nonatopic healthy volunteers. Basophil numbers were assessed by immunohistochemistry through use of mAb 2D7. IL-4 mRNA--positive cells were detected through use of in situ hybridization and colocalized to basophils through use of sequential immunohistochemistry/in situ hybridization. IL-4 protein was detected and colocalized to basophils through use of dual immunohistochemistry. RESULTS: After allergen challenge, there was an increase in the median number of 2D7-positive basophils per square millimeter in the bronchial mucosa in patients with asthma (0.9 cells/mm(2) at baseline to 8.8 cells/mm(2) after challenge; P =.002), which also was significantly higher than what was seen in nonasthmatic controls (P =.01). Similarly, IL-4 mRNA--positive cells were increased at 24 hours in patients with asthma (1.4 to 14) in comparison with controls (0 to 0; P =.02). Colocalization studies revealed that 15% and 41% of the basophil population in patients with asthma after allergen-challenge expressed, respectively, IL-4 mRNA and protein. Conversely, 19% of IL-4 mRNA-positive cells and 72% of IL-4 protein--positive cells were accounted for by basophils. CONCLUSION: After allergen provocation in sensitive patients with atopic asthma, basophils are recruited to the bronchial mucosa and express IL-4 mRNA and protein, which might contribute to local IgE synthesis and/or tissue eosinophilia or other aspects of allergic inflammation during late responses and ongoing asthma.

Grass pollen immunotherapy: symptomatic improvement correlates with reductions in eosinophils and IL-5 mRNA expression in the nasal mucosa during the pollen season.

BACKGROUND: Tissue eosinophilia and infiltration by T(H)2-type T cells are characteristic features of allergic rhinitis both after allergen challenge and during natural allergen exposure. Specific immunotherapy inhibits allergen-induced nasal eosinophilia. OBJECTIVES: We sought to assess, in the context of a randomized trial, the relationships between symptomatic improvement after immunotherapy and eosinophil numbers and IL-5 expression in the nasal mucosa during the pollen season. METHODS: Nasal biopsy specimens were taken from 37 adults with severe summer hay fever at baseline (out of season) and at peak season after 2 years of treatment with a depot grass pollen extract or placebo. Biopsy specimens were processed for immunohistochemistry by using mAbs against eosinophils (EG2), T cells (CD3), and IL-2 receptor-positive cells (CD25), as well as for in situ hybridization by using a sulfur 35-labeled antisense riboprobe directed against IL-5. RESULTS: Immunotherapy significantly reduced symptoms (49%, P =.01) and medication requirements (80%, P =.007) compared with placebo. There was a 400% increase (P =.004) in eosinophils during the pollen season in placebo-treated patients, which was inhibited in the immunotherapy group (20% increase, P =.04 between groups). Seasonal increases were also observed for CD25(+) cells (P =.002), CD3(+) cells (P =.02), and IL-5 mRNA-expressing cells (P =.03) in the placebo group but not in the immunotherapy group. A significant correlation was observed between eosinophils and IL-5 expression (r = 0.5, P <.05). Both eosinophils (r = 0.6, P <.02) and IL-5 (r = 0.6, P <.02) correlated with symptoms after immunotherapy. CONCLUSION: Improvement in symptoms after grass pollen immunotherapy may result, at least in part, from inhibition of IL-5-dependent tissue eosinophilia during the pollen season.

Cytokine expression during allergen-induced late nasal responses: IL-4 and IL-5 mRNA is expressed early (at 6 h) predominantly by eosinophils.

The production of TH2-type cytokines [interleukin-4 (IL-4) and IL-5] and tissue eosinophilia are characteristic features of allergic diseases. It was previously reported that at 24 h after allergen provocation, CD3+ T-lymphocytes were the principal cell source of IL-4 and IL-5 mRNA transcripts in both atopic asthma and rhinitis. To investigate whether IL-4 and IL-5 mRNA are expressed earlier during late nasal responses and if so, which cell(s) are responsible. Nasal biopsies were obtained at 6 h after nasal allergen challenge and following a control challenge with the allergen diluent. Sections were immunostained for T-lymphocytes (CD3+, CD4+) and eosinophils (EG2+). In situ hybridization was used to detect the number of cells expressing messenger RNA (mRNA) for IL-4 and IL-5. In patients with allergic rhinitis, eosinophils (EG2+ cells P = 0. 006) but not T- cells (CD3+ cells) increased in the nasal mucosa at 6 h after allergen challenge. The number of cells expressing IL-4 mRNA (P = 0.01) and IL-5 mRNA (P = 0.05) also increased at 6 h. Co-localization studies showed that 76% of IL-4 mRNA+ cells and 77% of IL-5 mRNA+ cells were eosinophils, whereas at this time point, T-cells and mast cells accounted for

T cells from human allergen-induced late asthmatic responses express IL-12 receptor beta 2 subunit mRNA and respond to IL-12 in vitro.

IL-12 suppresses proallergic Th2-type cytokine production and induces Th1-type cytokine production by peripheral blood T cells from subjects with allergic disease. The objective of the present study was to examine the relevance of these findings to target organ T cell responses in human asthma. Bronchoalveolar lavage (BAL) and PBMC were collected from atopic asthmatics 24 h after fiberoptic allergen challenge of a segmental bronchus. BAL T cells and PBMC were cultured with allergen in the presence of recombinant IL-12 or IFN-gamma, and cytokines were measured in culture supernatants after 6 days. IL-5 production by BAL T cells and PBMC was inhibited by IL-12 and, to a lesser extent, by IFN-gamma. IL-12 also induced IFN-gamma production by BAL T cells and PBMC. The effects of IL-12 nor IFN-gamma on IL-5 production could not be reversed by neutralizing anti-IFN-gamma or anti-IL-12 mAbs, respectively. Thus, the effect of neither IL-12 nor IFN-gamma appeared to be mediated through induction of the other cytokine. In situ hybridization revealed that approximately one-third of BAL T cells expressed mRNA transcripts encoding the IL-12R beta 2 subunit following allergen challenge. Thus, human T cells obtained from BAL during asthmatic late responses, like T cells in the peripheral circulation, remain susceptible to immunomodulation by IL-12. These findings raise the possibility that IL-12 may hold therapeutic potential in allergic diseases such as asthma.

Long-term clinical efficacy of grass-pollen immunotherapy.

BACKGROUND: Pollen immunotherapy is effective in selected patients with IgE-mediated seasonal allergic rhinitis, although it is questionable whether there is long-term benefit after the discontinuation of treatment. METHODS: We conducted a randomized, double-blind, placebo-controlled trial of the discontinuation of immunotherapy for grass-pollen allergy in patients in whom three to four years of this treatment had previously been shown to be effective. During the three years of this trial, primary outcome measures were scores for seasonal symptoms and the use of rescue medication. Objective measures included the immediate conjunctival response and the immediate and late skin responses to allergen challenge. Cutaneous-biopsy specimens obtained 24 hours after intradermal allergen challenge were examined for T-cell infiltration and the presence of cytokine-producing T helper cells (TH2 cells) (as evidenced by the presence of interleukin-4 messenger RNA). A matched group of patients with hay fever who had not received immunotherapy was followed as a control for the natural course of the disease. RESULTS: Scores for seasonal symptoms and the use of rescue antiallergic medication, which included short courses of prednisolone, remained low after the discontinuation of immunotherapy, and there was no significant difference between patients who continued immunotherapy and those who discontinued it. Symptom scores in both treatment groups (median areas under the curve in 1995, 921 for continuation of immunotherapy and 504 for discontinuation of immunotherapy; P=0.60) were markedly lower than those in the group that had not received immunotherapy (median value in 1995, 2863). Although there was a tendency for immediate sensitivity to allergen to return late after discontinuation, there was a sustained reduction in the late skin response and associated CD3+ T-cell infiltration and interleukin-4 messenger RNA expression. CONCLUSIONS: Immunotherapy for grass-pollen allergy for three to four years induces prolonged clinical remission accompanied by a persistent alteration in immunologic reactivity.

Tolerance and latent cellular rejection in long-term liver transplant recipients.

Tolerance develops in a proportion of long-term liver transplant recipients but currently cannot be identified before an attempt at withdrawal from immunosuppression therapy. In the present study, we have examined the immunophenotypic characteristics of the cellular infiltrate in portal tracts and lobules as observed in liver biopsy specimens in relation to the outcome of subsequent withdrawal from immunosuppression therapy. Cryostat biopsy specimens from 27 long-term recipients before drug withdrawal, and from 10 patients with recent transplants who were having acute rejection, were analyzed. Immunohistochemical staining was performed for CD3+ (pan T cell), CD8+ (cytotoxic), CD4+ (helper), CD45RO+ (memory), CD45RA+ (naive), CD56+ (natural killer), CD68+ (macrophage), and CD8+ perforin+ cells. Fewer CD8+ and CD3+ cells were present in the lobular areas of biopsy specimens from patients who were successfully withdrawn from immunosuppression therapy (n = 6) compared with biopsy specimens from patients with nontolerant grafts (n = 9; 15 vs. 23 cells/high-power field [hpf] [P < .01] and 16 vs. 26 cells/hpf [P < .03], respectively) or biopsy specimens obtained during acute rejection (15 vs. 31 cells/hpf [P < .01] and 16 vs. 32 cells/hpf [P < .01]). Cell frequencies in the biopsy specimens of nontolerant long-term patients were similar to those found with acute rejection. Immunophenotyping the lobular inflammation within long-term liver allografts assists in identifying those patients in whom drug withdrawal is likely to be unsuccessful and in whom it is postulated a form of inactive, latent cellular rejection exists.

Granulocyte/macrophage-colony stimulating factor in allergen-induced rhinitis: cellular localization, relation to tissue eosinophilia and influence of topical corticosteroid.

BACKGROUND: Allergen-induced late nasal responses are associated with recruitment of T lymphocytes and eosinophils, and preferential messenger RNA (mRNA) expression of 'TH2-type' cytokines. We previously showed that topical steroid inhibited the late response and associated tissue eosinophilia. In this study we tested the hypothesis that granulocyte/macrophage-colony stimulating factor (GM-CSF) may contribute to late-responses and tissue eosinophilia and is inhibitable by topical corticosteroid. METHODS: Nasal biopsies were taken before and 24 h after nasal allergen provocation following 6 weeks of treatment with either a nasal corticosteroid spray (fluticasone propionate) or a matched placebo nasal spray twice daily. Cryostat sections were processed by immunohistochemistry and in situ hybridization to assess cytokine mRNA expression for GM-CSF. RESULTS: Increases in T lymphocytes and eosinophils were seen in the nasal mucosa after allergen challenge (p = 0.01) which were accompanied by a 5-fold increase in cells expressing mRNA for GM-CSF (p = 0.01). Double immunohistochemistry/in situ hybridization demonstrated that the majority of GM-CSF mRNA+ cells were co-localized to CD68+ (40%), or T cells (40%) with a lesser contribution from eosinophils (<20%). Topical steroid treatment was accompanied by a decrease in both the CD3+ and major basic protein (MBP+) cells expressing GM-CSF mRNA (p = 0.01) with a corresponding proportionate increase in the % of macrophages expressing GM-CSF. CONCLUSIONS: The results indicate that after allergen provocation, eosinophils are recruited to the nasal mucosa and that, at least in part, this may be due to GM-CSF. Topical nasal corticosteroid inhibits late responses and the associated eosinophilia, possibly indirectly by decreasing GM-CSF from T lymphocytes or reducing autocrine production of GM-CSF from eosinophils.

Usefulness and limitation of phylogenetic analysis for hepatitis C virus core region: application to isolates from Egyptian and Yemeni patients.

We report here the nucleotide sequences of the core region of HCV isolates from Egyptian and Yemeni patients and the method for classifying these HCV isolates by phylogenetic analysis. Sequence comparison suggested that the genotypes of these isolates were the same. Preliminary phylogenetic analysis of the HCV core region indicated that the genotypes of both isolates were 1c. However, an additional phylogenetic tree of the HCV core region constructed using a greater number of HCV isolates than that used in the preliminary analysis and on the basis of alignment of nucleotide sequences in an appropriate length indicated that the genotypes of these isolates were 4 and not 1c. For a more detailed analysis, the nucleotide sequences of the HCV E1 region as well as the core region for the same Yemeni patient were determined. A phylogenetic tree of the E1 region confirmed that the genotype of the HCV isolate from the Yemeni patient was 4. These data indicate that even when classifying HCV isolates using phylogenetic analysis, the misclassification would occur if care is not taken regarding the number and sequence lengths of the isolates included in the analysis.

Serum intercellular adhesion molecule-1 levels in chronic hepatitis C: association with disease activity and response to interferon alpha.

Soluble intercellular adhesion molecule-1 (sICAM-1) is probably released from a variety of cells, including leukocytes and endothelial cells at sites of inflammation or in the circulation, and serum levels may therefore be used to give an indication of immune activation and inflammatory processes. In the present study, an ELISA was used to measure serum ICAM-1 levels in 43 patients with chronic hepatitis C and these were correlated with histological changes in the liver and the response to interferon alpha treatment. Serum ICAM-1 levels were significantly higher in patients with chronic hepatitis C infection than in normal subjects and correlated positively with the grade of histological activity, in particular the degree of portal, periportal, and lobular inflammation, but not with the presence of lymphoid aggregates. There was also a weak but significant positive correlation between sICAM-1 and serum aspartate aminotransferase activities, and sICAM-1 levels were substantially greater in patients with than those without cirrhosis. Serum ICAM-1 levels fell significantly in 11 responders out of 19 patients treated with interferon alpha, whereas levels remained unchanged in the non-responder group. sICAM-1 levels correlate with the clinical status of patients with chronic hepatitis C infection and fall with successful interferon treatment.

Intrahepatic expression of hepatitis C virus antigens in chronic liver disease.

Localization of hepatitis C virus (HCV) antigens was studied in fresh frozen and formalin-fixed, paraffin-embedded liver tissue by immunoperoxidase using monoclonal antibodies to nucleocapsid protein and polyclonal human immunoglobulin G purified from plasma containing antibodies to structural and non-structural antigens of hepatitis C virus. The results observed using monoclonal antibody to HCV core were similar to those of polyclonal IgG against HCV antigens in the majority of cases and both correlated well with HCV status as defined by 'nested' polymerase chain reaction. HCV antigens were detected in both hepatocytes and mononuclear cells. Using polyclonal human IgG, a small proportion of biliary epithelial cells were also positive in 6/29 patients. In most of the specimens examined, relatively few cells (1-5 per cent) were found to be positive for HCV antigens. The cryostat sections, using polyclonal IgG against HCV antigens, exhibited greater immunohistochemical staining, suggesting that the fixation and processing of the tissue may be a major factor in the conservation and the outcome of HCV antigen(s) findings. However, the results using monoclonal antibodies may reflect the specificity of antigen expression.

Nucleotide sequence of the core region of hepatitis C virus in Pakistan and Bangladesh and the geographic characterisation of hepatitis C virus in south Asia.

A large number of complete and partial hepatitis C virus (HCV) sequences have been reported and classified into several genotypes, although none have been reported from South Asia. We have determined and evaluated partial sequences in the core region of HCV obtained from patients with chronic hepatitis in Pakistan and Bangladesh. Nucleotide sequences from these viruses show significant homology with the Japanese HCV-TR isolate (91.7%-97.9%) and low homology with other Japanese, American, and UK isolates including HCV-1, HC-J4, HC-J6, HC-J8, and E-b1 (79.3%-86.2%). The homologies of their deduced amino acids sequence with HCV-1, HC-J4, HC-J6, HC-J8, E-b1, and HCV-TR were 84.3%-89.8%, 85.0-87.9%, 84.1%-86.9%, 84.3%-87.0%, 90.2%-93.1%, and 89.8%-93.5%, respectively. These results suggest that our clones might be classified into the same genotype as HCV-TR. Further analysis using molecular evolutionary methods strongly supported the classification of these sequences with the HCV-TR genotype. Moreover, we could not detect any isolates which were closely related to our clones or HCV-TR in countries outside the South Asian area. These data further support the association of HCV genotypes with distinct geographic regions.

Cellular and humoral immune reactions against autoantigens and hepatitis C viral antigens in chronic hepatitis C.

BACKGROUND/AIMS: Previous reports have suggested that the hepatitis C virus (HCV) may induce autoimmune hepatitis. The aim of this study was to examine this hypothesis by investigating humoral and cellular immune responses to HCV-related antigens and various autoantigens in patients with chronic HCV infections. METHODS: Lymphoproliferative responses in vitro and/or circulating antibodies to an HCV core peptide, the putative autoantigen GOR, the liver-specific hepatic asialoglycoprotein receptor (ASGP-R), and other autoantigens were investigated in 27 adults with chronic hepatitis C. RESULTS: Five patients with HCV (18.5%) showed cellular immune responses to ASGP-R and two others had antibodies to ASGP-R, whereas 6 of 14 patients (42.8%) showed cellular responses to GOR and 7 of 14 patients (50%) showed responses to HCV core. Other autoantibodies were detected in three patients (11%). Nine patients with autoimmune hepatitis studied concurrently for comparison showed cellular and/or humoral responses to ASGP-R but not to GOR. Only 2 of 11 patients with other chronic liver disorders showed immune responses to any antigen tested. CONCLUSIONS: Specific immunocompetence against HCV-related antigens can often be shown in patients with chronic hepatitis C but is infrequently accompanied by autoreactions against liver-specific or nonspecific antigens. A reported association between T-cell responses to HCV core and lack of liver damage could not be confirmed.

New genotype of hepatitis C virus in South Africa.

Partial nucleotide sequences in the core region of the hepatitis C viral genome were determined by reverse transcription followed by polymerase chain reaction, in a patient with chronic hepatitis from South Africa. These nucleotide sequences showed a low degree of homology with known types of HCV: the degree of homology between the nucleotide sequences of these clones with HC-J1, J4, J6, J7, Tr, and Eb-1 were 86.1-87.3%, 87.3-87.9%, 83.0-83.9%, 81.1-82.0%, 81.0-82.2%, and 82.8-83.4%, respectively, and that the deduced amino acid sequence homologies between these clones and HC-J1, J4, H6, J7, Tr, and Eb-1 were 90.7-91.6%, 89.7-91.6%, 91.6-93.5%, 90.7-91.6%, 81.5-82.4%, and 89.2-90.2%, respectively. The nucleotide sequence homologies of these clones with HC-J1, J4, J6, J7, Tr, and Eb-1 were very low, compared to those between the same genotype. Further comparison using molecular evolutionary methods suggested that this sequences should be classified in a new genotype.

Effect of supernatants from Kupffer cells stimulated with galactosamine and endotoxin on the function of isolated rat hepatocytes.

Activated Kupffer cells may release substances that are involved in liver injury induced by galactosamine and endotoxin. In the present study Kupffer cells were isolated from rat livers, cultured for 24 hours and incubated with galactosamine, endotoxin (LPS) or tumor necrosis factor-alpha for 4 or 24 hours. The Kupffer cell-conditioned media were than added in separate experiments to freshly prepared isolated rat hepatocytes to determine their cytotoxic effect. No significant effects on the rate of protein synthesis, as assessed by the incorporation of 14C-leucine on lactate dehydrogenase enzyme release from hepatocytes during 1 h incubation was found as compared with conditioned media from control Kupffer cells. In further experiments, Kupffer cells incubated for 4 hours with LPS and galactosamine were shown to produce thromboxane B2 and also the potentially cytoprotective prostaglandins PGE2 and small amounts of prostacyclin measured as 6-keto-PGF1 alpha. It is concluded that under the conditions of the present experiments, factors secreted by cultured Kupffer cells have no cytotoxic effects on isolated rat hepatocytes during short-term incubation.

Detection of genomic and intermediate replicative strands of hepatitis C virus in liver tissue by in situ hybridization.

Nonisotopic in situ hybridization using a digoxigenin-labeled cDNA probe to the 3' nonstructural region (NS5) of hepatitis C virus (HCV) was performed on liver tissue from 33 patients. The results were compared with PCR detection of HCV RNA performed on 24 of the biopsies. Nonisotopic in situ hybridization correlated well with PCR findings. Hybridization signals were detected, within the cytoplasm and nuclei/nucleoli of hepatocytes, mononuclear, and biliary epithelial cells. In patients with clinically and histologically defined chronic active hepatitis related to active HCV infection, HCV genome was frequently detected in biliary epithelium and correlated well with biliary damage, an otherwise uncommon finding in chronic active hepatitis due to other hepatotropic viruses. Further studies using sense and antisense probes synthesized from the 5' non-coding region of the HCV genome confirmed the localization of positive strand of HCV in the above cell populations. The replicative intermediate strand was also present in all cells, although less frequently observed, apart from biliary epithelium, where negative strand of HCV was undetectable. The findings of HCV genome in liver biopsies of two patients with no significant histological abnormalities may suggest that the damage seen in chronic HCV infection is immune mediated, although the cytopathic effect of the virus may also be important.

Gene expression regulation for interferon-alpha in hepatocellular carcinoma.

We investigated whether regulation of interferon-alpha gene expression could be involved in liver tumor biology and the role, if any, of hepatitis B virus in the regulation of tumor cytokine gene expression. Gene expression was investigated at the transcriptional level using 'in situ' hybridization of cytokine message with an interferon-alpha cDNA probe and at the translational level with immunohistochemistry using an immunoperoxidase technique. Compared to histologically normal liver, a greater percentage of tumor and non-tumor-involved liver tissue sections (67-80% vs. 17%) contained cells positive for interferon-alpha messenger RNA, many of which were also seen to contain an increased number of transcripts (> 100 grains/cell). Hepatitis B infection did not appear to play a role in gene activation, at the hepatocellular level, in liver disease. Except for sinusoidal cells, cells containing cytokine transcripts also produced mature immunoreactive protein. Absence of interferon-alpha protein within mononuclear and sinusoidal cells in seronegative hepatocellular carcinoma tissue with/without underlying liver disease suggested deficient cytokine gene expression, at the post transcriptional level, within these cells in this group. Bile duct epithelia in tumor tissue were found to contain immunoreactive protein for interferon-alpha. In summary our results suggest that interferon-alpha gene activation in hepatocellular carcinoma occurs as a result of the liver cell damage and does not play a dominant role in tumor biology.