Ficolin-2 and ficolin-3 in women with malignant and benign ovarian tumours.

Ficolins are serum pattern recognition molecules. They have opsonic properties and are able to activate complement via the lectin pathway. This paper reports investigations concerning ficolin-2 and ficolin-3 in ovarian cancer (OC). Their serum levels, single nucleotide polymorphisms of the corresponding FCN2 and FCN3 genes and specific mRNA expression in ovarian sections were investigated in 128 patients suffering from primary OC and 197 controls operated on for reasons other than malignancies. The latter consisted of two reference groups: those with benign tumours (n = 123) and those with normal ovaries (NO) (n = 74). Serum ficolin-2 and ficolin-3 concentrations were higher among patients with malignant disease when compared with either of the reference groups. A significant correlation between ficolin-2 and ficolin-3 concentrations was found, while no correlations with CA125 antigen or CRP were observed. No differences in the frequency of single nucleotide polymorphisms at sites -64, -4 (promoter), +6359, or +6424 (exon 8) (FCN2 gene) nor in the frame-shift mutation 1637delC (FCN3 gene) were found between investigated groups. In contrast to serum concentrations, the expression of FCN2 gene (reported for the first time in ovarian sections) was significantly lower in women with OC in comparison with patients with NO but not with benign ovarian tumours. In case of FCN3 gene, its expression levels in OC group inversely correlated with serum ficolin-3 and were lower in comparison with controls.

Mannose-binding lectin deficiency and disease severity in non-cystic fibrosis bronchiectasis: a prospective study.

BACKGROUND: Mannose-binding lectin (MBL) is a key component of innate immunity. MBL deficiency is common (10-30% of the general population depending on the definition used) and has been associated with disease progression in cystic fibrosis. We aimed to assess the effect of MBL deficiency on disease severity in non-cystic fibrosis bronchiectasis. METHODS: We recruited patients with non-cystic fibrosis bronchiectasis and age-matched and sex-matched controls at a specialist bronchiectasis clinic in Edinburgh, UK. We assessed MBL function with genotyping (low-expressing genotype [deficiency] defined as homozygosity for exon 1 mutations [YO/YO] or compound heterozygosity [XA/YO]; YA/YO and XA/XA genotypes were defined as intermediate-expressing with all other genotypes defined as high-expressing) and serum measurements (deficiency defined with two parameters: <500 ng/mL or <200 ng/mL). We assessed rates of exacerbation, chronic bacterial colonisation, and lung function during 4 years of follow-up. FINDINGS: We included 470 patients with bronchiectasis and 414 controls. MBL genotype frequencies and MBL serum concentrations did not differ between patients and controls. 55 (12%) patients with bronchiectasis had low-expressing genotypes. These patients had a mean of 2·7 exacerbations per year (SD 1·8), compared with 1·9 per year (1·2) for 135 patients with intermediate-expressing genotypes and 1·9 per year (1·3) for 280 patients with high-expressing genotypes (p<0·0001). Chronic colonisation with bacteria was most frequent in patients with low-expressing genotypes (47 [85%] patients vs 82 [61%] patients with intermediate-expressing genotypes and 183 [65%] patients with high-expressing genotypes; p=0·0041); especially P aeruginosa colonisation (19 [35%] patients vs 13 [10%] patients and 36 [13%] patients; p<0·0001). Patients with low-expressing genotypes were more likely to be admitted to hospital for severe exacerbations during follow-up (27 [49%] patients vs 42 [31%] patients and 87 [31%] patients; p=0·032). Patients with low-expressing genotypes also had increased scores for radiological severity and worse quality of life compared with the other two groups. MBL serum deficiency (<200 ng/mL) was associated with increased exacerbations, hospital admissions, and radiological severity. When <500 ng/mL was used as the definition of deficiency, the associations with exacerbation frequency and radiological severity were no longer significant. INTERPRETATION: MBL might be an important modifier of disease severity in non-CF bronchiectasis. FUNDING: UK Medical Research Council, UK Chief Scientists Office.

Mannan-binding lectin in malignancy.

Complement may play a dual role in cancer: it may contribute either to the development or to the inhibition of tumour growth. Its components may be candidate biomarkers facilitating the disease detection, its progress or effectiveness of therapy. Additionally, complement deficiencies may increase the risk of infections and contribute to the higher mortality, especially in patients undergoing aggressive chemotherapy. In this paper, possible cancer associations of one of the factors activating complement via the lectin pathway, mannan-binding lectin (MBL), are discussed.

Impact of mannose-binding lectin insufficiency on the course of cystic fibrosis: A review and meta-analysis.

Mannose-binding lectin (MBL) is an innate immune protein produced by the liver. MBL binds to glycoconjugates containing mannose, fucose or N-acetylglucosamine that are present in a wide variety of bacteria, viruses and fungi. Upon binding, MBL may active the lectin pathway of complement or directly opsonize organisms to enhance phagocytosis. MBL is primarily a serum protein but accumulates in the lung during acute inflammation. Recent evidence suggests an important role for MBL in a variety of infectious disorders. Cystic fibrosis (CF) is a multisystem disease caused by mutations in the gene encoding the CF transmembrane regulator (CFTR). The course of CF lung disease is highly variable even in patients with the same CFTR genotype, suggesting that other modulator genes are important for prognosis. MBL has been proposed as a possible modulator of clinical severity in CF. In this review and meta-analysis, we found that MBL2 genotypes associated with MBL insufficiency were associated with earlier acquisition of Pseudomonas aeruginosa (P < 0.0001), reduced pulmonary function among adult patients (P < 0.0001 for forced expiratory volume), and an increased rate of death or requirement for lung transplantation (odds ratio 3.69; P = 0.02). The available evidence therefore suggests that MBL insufficiency is associated with the severity of CF lung disease. The possible future prophylactic or therapeutic application of MBL replacement is discussed.

Dendritic cells previously exposed to mannan-binding lectin enhance cytokine production in allogeneic mononuclear cell cultures.

Mannan (or mannose)-binding lectin (MBL) can bind to monocytes and dendritic cells, but the significance of such interactions is unknown. We hypothesized that the presence of MBL might prevent the differentiation of monocytes into monocyte-derived dendritic cells or interfere with the development of dendritic cells in some way. We therefore investigated the influence of recombinant human MBL on surface antigen expression and on secretion of selected cytokines. By these means, no direct influence of rhMBL on dendritic cell differentiation or maturation was detected. However, mature dendritic cells prepared in the presence of rhMBL and subsequently co-cultured with allogeneic mononuclear cells, markedly promoted production of interleukin-1ß, interleukin-6, and tumor necrosis factor-α in vitro. In most dendritic cell-mononuclear cell combinations, IFN-γ production was also enhanced. This influence required the presence of rhMBL during dendritic cell maturation and was critically dependent on the presence of monocytes. This observation provides evidence that MBL can influence cellular immunity in addition to its established role as an opsonin.

Stem cell transplantation and MBL replacement therapy.

Mannose-binding lectin (or mannan-binding lectin, MBL) may have an influence on susceptibility to infection in patients given chemotherapy to induce remission or as conditioning before stem cell transplantation. The most surprising finding reported from an inconsistent literature was the observation that mbl-2 gene mutations in donors could influence the risk of serious infections in recipients of allogeneic stem cell transplants. This could be explained if leukocytes in the stem cell preparations (or their derivatives) were able to synthesize and secrete MBL, but the available evidence seems to exclude that possibility. An alternative mechanism could involve MBL binding to autologous cells and inducing immunological maturation of those cells. MBL can certainly bind to various cell types via surface glycoconjugates and the possible significance of this for MBL replacement therapy will be discussed.

Mannan-binding lectin: clinical significance and applications.

Mannan-binding lectin (MBL) is a collectin (protein with both collagen-like and C-type lectin domains) synthesised in the liver and secreted into the bloodstream. Its plasma concentration is for the most part genetically determined by a series of allelic dimorphisms located both in the structural gene and in the promoter region. Genotypes made up of combinations of seven haplotypes are mainly responsible for a 1000-fold concentration variation found in human beings. MBL is a pattern recognition molecule able to bind repeating sugar arrays on many microbial surfaces, and can activate complement via associated serine proteases. A poorly defined proportion (roughly 10%) of the population with the lowest MBL concentrations is thought to be MBL insufficient and more vulnerable to a variety of infectious and noninfectious disorders. The evidence that MBL makes an important contribution to innate immunity, by increasing susceptibility to disease and/or affecting the course of disease, is discussed in detail. Preliminary results from MBL replacement therapy are encouraging, and extension of this approach to large-scale randomised clinical trials would provide solid evidence concerning the physiological significance of this protein.