Most of these studies are limited to DS patients who have presented with recurrent infections, and they may not represent the general DS population; however, Kuester et al. [30] reported lymphocyte
subsets of 95 DS children visiting their centre for follow-up of their thyroid function and 77% of patients had frequent respiratory infections. In this cohort, 57 (60%) of the children were aged 5–16 years, and only three children were above 16 years of age. The number and percentage of naive T cells were decreased approximately by half across the age-ranges compared to non-DS children, although they did not reach severe immunodeficiency levels. For example, the median naive CD4 T cells in 5–10-year-old children was 280 cells/µl (44% of CD4 T cells) Selleckchem AUY-922 for DS and 730 cells/µl (72% of CD4 T cells) for age-matched controls. There was no association of low T cell counts and the presence of recurrent infections. Memory T cell percentage and count were not significantly different from normal controls, an argument that the study authors used to postulate the presence of an intrinsic immune defect that renders those cells impaired to control infections. In the same DS cohort, the investigators compared several maturation stages of peripheral blood B cells with those of normal children and found decreased numbers of all B cell stages, particularly
naive B cells [31]. There was no statistically significant PKC inhibitor association of low B cell counts and clinical conditions. T cell and B cell function have been examined in DS. The lymphocyte proliferative response to phytohaemagglutinin has been reported to be significantly low in DS [8,32]. The abnormalities in immunoglobulin (Ig)G levels do not occur in all DS subjects; while
some DS children present with IgG levels under normal ranges for age, particularly IgG2 [8], most DS subjects show adequate levels [33]. In a cohort of 26 DS children, of whom 18 had increased rate of infections, only one child had decreased IgG2 levels [34]. An older cohort of DS individuals, with a mean age of 55 years, showed significantly higher levels of IgG1 and decreased levels of IgG2 subclasses compared to age-matched individuals many [35]. The high frequency of periodontal disease in DS might be explained in part by a deficiency of IgA in saliva of DS individuals. A study of young and older adults with DS demonstrated a drastic reduction of both total IgA concentration in saliva and specific IgA to common oral pathogens, compared to controls [36]. The specific antibody responses of DS children to several immunizations have been found defective, although most develop protective IgG titres. Lopez et al. [37] showed that the specific IgG titres to the neoantigen bacteriophage phi174 in DS children were lower than the normal range. Hawkes et al.