The impact of prolonged direct antiviral therapy on hepatitis B surface antigen (HBsAg) levels in patients with chronic hepatitis B is poorly understood. We quantitatively assessed serum HBsAg levels during 3 years of telbivudine treatment, as well as their relationship with virologic and biochemical characteristics in 162 hepatitis B e antigen–positive patients who maintained undetectable serum hepatitis B virus (HBV) DNA long‐term. Telbivudine treatment progressively reduced serum HBsAg levels (mean ± SD) from baseline (3.8 ± 0.6 log10 IU/mL) to treatment week 24 (3.4 ± 0.7 log10 IU/mL), treatment year 1 (3.3 ± 0.8 log10 IU/mL), and treatment year 3 (3.0 ± 1.4 log10 IU/mL) (P <0.0001). In this patient population, HBsAg loss was observed in nine (6%) of 162 patients through year 3. During the first year of treatment, three patterns of HBsAg decline were observed: rapid (≥1 log10 IU/mL) in 32 patients, slow (0‐1 log10 IU/mL) in 74 patients, and steady levels in 56 patients. These findings were associated with different likelihoods of HBsAg loss during long‐term telbivudine therapy. Eight of 32 patients with rapid HBsAg decline versus none of 56 patients with steady HBsAg levels achieved HBsAg loss at year 3 (P = 0.0024). HBV genotype was a significant determinant for HBsAg kinetics, with the fastest decline in genotype A patients. In patients with subsequent HBsAg loss, viral antigens were already undetectable in liver biopsy samples after 1 year of treatment. This was associated with markedly enhanced antiviral T cell reactivity. Conclusion: In patients who have effective suppression of viral replication during telbivudine treatment, a rapid decline in serum HBsAg levels during the first year may identify those with a greater likelihood of achieving HBsAg clearance. (HEPATOLOGY 2010
Interleukin‐10 (IL‐10), originally identified as an inhibitor of pro‐inflammatory cytokine production, exerts multiple immunomodulatory functions. Its ability to inhibit a Th1 response has been used in clinical trials for the treatment of inflammatory diseases including psoriasis. However, little is known about the molecular mechanisms of IL‐10 functions. We aimed at identifying possiblemediators of in vitro IL‐10 treatment in monocytes by gene chip technology using Hu95a Affymetrix mRNA arrays with 12,000 genes. To prove relevance of the identified genes for the clinicalsituation we compared these in vitro results with genes being regulated by IL‐10 in peripheral blood mononuclear cells from psoriatic patients undergoing IL‐10 therapy. A high proportion of the 1,600 genes up‐regulated and 1,300 genes down‐regulated in vitro was found to be similarly regulated in vivo. Some genes, which were previously unknown to be regulated by IL‐10, can be assigned to known IL‐10 functions like e.g. the increase of pathogen clearance. Other new potentially immunomodulating genes have been identified to be regulated by IL‐10, but their impact needs to be experimentally evaluated. We could confirm a recently reported up‐regulation of heme oxygenase‐1 (HO‐1). However, we demonstrate that the anti‐inflammatory mechanisms of IL‐10 remain functional even when HO‐1 is irreversibly inhibited.
Phagocytes, such as monocytes and macrophages, are important cells of the innate immunity in the defense against microbes. So far, it is unclear how these cells survive at the site of combat against microbes, where a hostile inflammatory environment prevails with strong complement activity. We hypothesized that IL-10, a key cytokine involved in the resolution of inflammation, induces resistance to complement attack. Here, we demonstrate for the first time such a cell-protective effect of IL-10 on human monocytes and macrophages. IL-10 is indeed able to protect these cell types in an in vitro model of complement lysis triggered by an anti-MHCI antibody or by binding of zymosan. Investigating potential underlying mechanisms, we found that IL-10 up-regulated the expression of complement regulatory membrane protein CD59 and the general cell-protective stress protein HO-1 in human monocytes. However, further functional analysis failed to link these individual IL-10-mediated effects with the increased protection from complement lysis. Blocking the protective effect of CD59 with an antibody increased complement lysis but did not abrogate the IL-10-protective effect. Interestingly, chemical interference with HO-1 activity did abrogate the protective effect of IL-10, but siRNA-mediated knockdown of HO-1 did not confirm this observation. Our results suggest that IL-10 generates pathogen-clearing phagocytes, which are resistant to complement lysis and thereby, enabled to survive longer in a hostile inflammatory environment.
SummaryInterleukin (IL)-10 is one of the most crucial immunoregulatory cytokines. Its short-term effects have been analysed extensively, but little is known about its long-term effects. This is of considerable importance, as high systemic IL-10 levels are present for long periods in patients with persistent viral infections, certain cancers and in critical care patients. Our study investigated the effects of the long-term presence of IL-10 on human peripheral blood monocytes. In vitro, IL-10 treatment of these cells for 7 days induced the development of a novel cell type characterized by unique phenotypical and functional characteristics. These cells showed high HLA-DR expression and low expression of CD86 and other co-stimulatory molecules on their surface. The mRNA levels of both HLA-DR and CD86 were high, but no intracellular accumulation of CD86 protein was observed. With respect to its function, these cells showed strongly diminished tumour necrosis factor-a production following lipopolysaccharide stimulation, strongly diminished allogenic CD4 + T cell stimulatory capacity, and even induced a hyporesponsive state in CD4 + T cells. The phenotype remained stable despite the removal of IL-10. In vivo, we found monocytic cells from patients exhibiting this phenotype after longterm IL-10 exposure. These results complement our knowledge further about the biological effects of IL-10 and may provide an explanation for the sustained immunodeficiency in cases of the persistent presence of systemic IL-10.
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