Circulating phenotypic B‐1 cells are decreased in common variable immunodeficiency and correlate with immunoglobulin M levels

B‐1 cells are innate‐like lymphocytes characterized by spontaneous production of ‘natural’ polyspecific antibodies, often of self‐specificity, and thought to be responsible for tissue homeostasis, mucosal protection, maintaining resting serum immunoglobulin (Ig)M levels and for early immunoglobulin production following infection. Although defined most clearly in mice, a human B‐1 cell counterpart, defined by the phenotype CD19 or 20⁺CD27⁺CD43⁺CD69 or 70^–, has been proposed recently, facilitating a study of their role in human humoral immunodeficiencies, such as common variable immunodeficiency (CVID). This study examined circulating B‐1 cells in 27 CVID patients in comparison to age‐matched controls (n = 28). Phenotypic putative B‐1 cell proportions varied widely, but there was an overall 60–70% decrease in CVID (0·039 ± 0·033% of lymphocytes, mean ± standard deviation) compared with controls (0·110 ± 0·159% of lymphocytes, P = 0·0012). This decrease was, however, explained largely by concomitant loss of total CD27⁺ memory B cells characteristic of CVID, although those with higher memory B cell proportions appeared to show a true decrease. No age‐related effects were apparent in B‐1 cell proportions. However, among CVID patients, there was a strong positive correlation between the B‐1 cell proportion and serum IgM levels, a relationship that was not evident for IgA, nor was there a relationship between memory B cell proportions and serum IgM. Patients with CVID have fewer circulating putative phenotypic B‐1 cells, which largely reflected the overall decrease in memory B cells. However, B‐1 cell proportions correlated with resting serum IgM levels, suggesting a possible role in IgM deficiency in CVID.