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.

L-ficolin (ficolin-2) insufficiency is associated with combined allergic and infectious respiratory disease in children.

We previously reported an association between relative L-ficolin deficiency and recurrent respiratory infections co-existing with allergic disorders in children. To confirm and extend this preliminary finding, we performed a prospective study on children of a similar age (mean 8.9 years) designed to establish whether the principal relationship was with infection or allergy. Serum L-ficolin values in healthy children were normally distributed with a mean value of 3838 ng/ml. L-ficolin concentrations were generally lower in patients with asthma and/or allergic rhinitis with (mean 3413 ng/ml; p=0.02) or without (3512 ng/ml; p<0.07) respiratory infections, but not in patients with respiratory infections without allergic disease (3623 ng/ml; p=0.2). The lower average values in the group comprised of children with respiratory allergy and infections were largely due to a high proportion of very low values: 18.3% had values below 2150 ng/ml compared to only 5.5% of healthy controls (OR=3.9; p=0.01). This relationship was not apparent in the groups characterized by allergy without infection or infections without allergy. An association between mannan-binding lectin (MBL) insufficiency and recurrent respiratory infections was also confirmed. One of the patients was MASP-2 deficient, evidenced both by MASP2 genotyping and by lectin pathway activity measurement. In conclusion, L-ficolin may confer some protection from microorganisms that exacerbate allergic inflammation in the lung and its relative deficiency may contribute to enhanced susceptibility to respiratory infections. MBL insufficiency and MASP-2 deficiency are risk factors for recurrence of infections independently of allergic disease.

Mannan-binding lectin-associated serine protease-2 (MASP-2) in a large cohort of neonates and its clinical associations.

One collectin (mannan-binding lectin, MBL) and three ficolins (M-ficolin/ficolin-1, L-ficolin/ficolin-2 and H-ficolin/ficolin-3) share the capability to activate complement via the lectin pathway. This property depends on the ability of these lectins to form complexes with MBL-associated serine proteases (MASPs), particularly MASP-2. We report the results of an investigation of cord blood MASP-2 concentrations in a large, ethnically homogeneous cohort (n=1788) of neonates. The median value of MASP-2 in cord sera was determined to be 93 ng/ml (range <25-812). Serum MASP-2 concentrations correlated with gestational age and birthweight and were significantly lower in premature babies and other pre-term babies compared with term babies. Neonates with MASP-2 concentrations below 42 ng/ml were deemed to be MASP-2 deficient. That group had a shorter mean gestational age and a higher incidence of premature and low birthweight babies, but not of perinatal infections when compared with the others. Indeed, there was a trend towards higher MASP-2 concentrations amongst babies with infections. Among 362 samples tested for the D120G single nucleotide polymorphism (SNP) of the MASP2 gene, no homozygote for that mutation was found. Heterozygosity for this allele significantly influenced the protein concentration, but not the lectin pathway of complement activity (MBL-MASP-2 complex activity). Moreover, no association of this SNP was apparent with prematurity, low birthweight or perinatal infections.

Mannan-binding lectin genotypes and genotype-phenotype relationships in a large cohort of Polish neonates.

Circulating mannan (or mannose)-binding lectin (MBL) is genetically determined. Low MBL concentrations are associated with certain point mutations in the human MBL2 gene. Here we report the full MBL2 genotypes of 1800 Polish neonates and relate individual genotypes to serum MBL and MBL-dependent activity of the lectin pathway of complement activation. The seven acknowledged common haplotypes were found, plus the uncommon LYPD haplotype, combining to form 33 genotypes in this population. As expected, a strong correlation existed between genotypes and serum MBL or lectin pathway activity, and the latter two entities correlated strongly with each other. However, serum MBL values varied up to greater than 90-fold within genotypes. Unexpectedly, higher lectin pathway activity was found in association with the P allele relative to the Q allele. These data from a large cohort of neonates, representing an ethnically homogenous population, suggest that the current knowledge of the genetics of MBL2 is inadequate to predict serum MBL concentration and MBL-dependent lectin pathway activity in individual subjects.

Two factors of the lectin pathway of complement, l-ficolin and mannan-binding lectin, and their associations with prematurity, low birthweight and infections in a large cohort of Polish neonates.

Ficolins and one collectin, mannan-binding lectin (MBL), are the only factors known to activate the lectin pathway (LP) of complement. There is considerable circumstantial evidence that MBL insufficiency can increase susceptibility to various infections and influence the course of several non-infectious diseases complicated by infections. Much less information is available concerning l-ficolin. We report the results of a prospective study to investigate any association between either MBL deficiency or l-ficolin deficiency with prematurity, low birthweight or perinatal infections in a large cohort of Polish neonates, representing an ethnically homogenous population (n=1832). Cord blood samples were analysed to determine mbl-2 gene variants, MBL concentrations and MBL-MASP-2 complex activities (MBL-dependent lectin pathway activity) as well as l-ficolin levels. Median concentrations of l-ficolin and MBL were 2500 and 1124 ng/ml, respectively, while median LP activity was 272 mU/ml. After genotyping, 60.6% of babies were mbl-2 A/A, 35.4% were A/O and 4% were O/O genotypes. We found relative l-ficolin deficiency to be associated with prematurity, low birthweight and infections. l-Ficolin concentration correlated with gestational age and with birthweight, independently of gestational age. Preterm deliveries (<38 weeks) occurred more frequently among neonates with low LP activity but not with those having low serum MBL levels. Similarly, no association of serum MBL deficiency with low birthweight was found, but there was a correlation between LP activity and birthweight. Genotypes conferring very low serum MBL concentrations were associated with perinatal infections, and high-MBL-conferring genotypes were associated with prematurity. Our findings suggest that l-ficolin participates in host defence during the perinatal period and constitute the first evidence that relative l-ficolin deficiency may contribute to the adverse consequences of prematurity. Some similar trends were found with facets of MBL deficiency, but the observed relationships were weaker and less consistent.

Is mannan-binding lectin (MBL) detectable on monocytes and monocyte-derived immature dendritic cells?

MBL (mannan-binding lectin; also called mannose-binding lectin) is a circulating C-type lectin with a collagen-like region synthesized mainly by the liver. MBL may influence susceptibility to infection in recipients of stem cell transplants, and it has even been suggested that the MBL status of a donor can influence the recipient's susceptibility to post-transplant infections. We have previously reported that MBL can be detected on human monocytes and monocyte-derived dendritic cells, based on detection using biotinylated anti-MBL, suggesting that those cells could synthesize MBL. If true, permanent MBL replacement therapy could be achieved by stem cell infusions. However, two other groups independently failed to find mbl-2-derived mRNA in monocytes. Therefore, to confirm or refute our previous observations, we used an alternative experimental strategy. Instead of using biotinylated antibody and labelled streptavidin, detection of surface MBL was attempted using MBL-specific primary antibodies (131-1, 131-10 and 131-11) followed by fluorescein-labelled anti-IgG, and controlled by the use of non-specific IgG as primary antibody. Monocytes were counterstained with anti-CD14-PE before FACS analysis. Adherent monocytes were also cultured for 48 h in serum-free medium or converted into immature dendritic cells by culture with IL-4 (interleukin-4) and GM-CSF (granulocyte/monocyte colony-stimulating factor). During FACS analysis, the dendritic cells were gated after counter-staining with anti-CD1a-PE. MBL was readily detected on the surface of fresh monocytes using all three specific anti-MBL monoclonal antibodies, but specific anti-MBL binding was greatly diminished after monocytes had been cultured for 2 days in serum-free medium. Moreover, we could not detect any MBL present on the surface of monocyte-derived dendritic cells. We therefore conclude that MBL is indeed present on the surface of fresh human monocytes. However, in view of the mRNA findings of others and our own previous observation that no secretion of MBL took place in culture, we presume that the surface-bound MBL is derived from autologous plasma and not synthesized by the cells. This conclusion is consistent with our in vivo findings in stem cell transplant patients which provided evidence against significant extra-hepatic production of serum MBL. It provides no ready explanation for the remarkable observation of Mullighan, Heatley, Doherty, Szabo, Grigg, Hughes, Schwarer, Szer, Tait, Bik To and Bardy [(2002) Blood 99, 3524-3529] that the presence of variant alleles of mbl-2 in stem cell donors can influence susceptibility to serious infections in their recipients.