Detection of Neisseria meningitidis in saliva and oropharyngeal samples from college students.

Carriage of Neisseria meningitidis is an accepted endpoint in monitoring meningococcal vaccines effects. We have assessed N. meningitidis and vaccine-type genogroup carriage prevalence in college students at the time of MenACWY vaccine introduction in the Netherlands, and evaluated the feasibility of saliva sampling for the surveillance of carriage. For this, paired saliva and oropharyngeal samples collected from 299 students were cultured for meningococcus. The DNA extracted from all bacterial growth was subjected to qPCRs quantifying meningococcal and genogroup-specific genes presence. Samples negative by culture yet positive for qPCR were cultured again for meningococcus. Altogether 74 (25%) of students were identified as meningococcal carrier by any method. Sixty-one students (20%) were identified as carriers with qPCR. The difference between number of qPCR-positive oropharyngeal (n = 59) and saliva (n = 52) samples was not significant (McNemar's test, p = 0.07). Meningococci were cultured from 72 students (24%), with a significantly higher (p < 0.001) number of oropharyngeal (n = 70) compared with saliva (n = 54) samples. The prevalence of genogroups A, B, C, W, and Y was none, 9%, 1%, 1% and 6%, respectively, and 8% of students carried MenACWY vaccine-type genogroup meningococci. Saliva is easy to collect and when combined with qPCR detection can be considered for meningococcal carriage studies.

Coding and non-coding polymorphisms in the lectin pathway activator L-ficolin gene in 188 Dutch blood bank donors.

Human L-ficolin (FCN) is a serum lectin characterized by a collagen-like and a fibrinogen-like domain that can activate the lectin pathway of complement. Structural and functional similarities to mannose-binding lectin (MBL) suggest a role for L-ficolin in innate immunity. Structural polymorphisms in the MBL2 gene lead to functional deficiency of MBL. Polymorphisms in the FCN2 gene have not been studied previously. We developed 10 denaturing gradient gel electrophoresis (DGGE) assays to screen a total of 188 Dutch Caucasians for polymorphisms in FCN2. Total gene screening in this large cohort revealed 10 single nucleotide polymorphisms (SNPs). Interestingly, two conserved coding SNPs were found in exon 8, leading to amino acid substitutions within the fibrinogen-like domain. Fibrinogen-like domains are highly conserved among several proteins in many species. As this domain is responsible for binding of L-ficolin, these newly found coding polymorphisms could alter the affinity of the protein for its substrates and possibly alter the ability of L-ficolin to recognize invading microorganisms.