Nevertheless, by bringing a new perspective on this known but still obscure phenomenon, the study by Adam and Dr. heart transplants, as documented by Dr. Lori West in a seminal study published in 2001.3However, while the timing of ABO antibody production is well Lusutrombopag documented, its dependency on exposure to microbial antigenic determinants is still hypothetical. The study by Dr. Adam and his colleagues of the Edmonton group led by Dr. West published in this issue of Transplantation sheds new light on this long-standing question.4The investigation, conducted in a mouse model, Lusutrombopag allowed the authors to address and essentially single out the contribution of CD4+T cells, microbiota and sex in the natural and induced development of antibodies to blood group antigen type A. The study first revealed that natural production of anti-A antibodies did not require CD4+T cells. On the contrary, CD4+T cells controlled and weakened the development of anti-A antibodies. This effect had previously been reported for anti-gal antibodies but not anti-ABO antibodies.5Secondly and unexpectedly, the capacity of CD4+T cell to mitigate the development of natural anti-A antibodies appeared more pronounced in females than in males. This intriguing effect of sex had not been reported before. It is possible that sex-hormones influence the development of anti-A antibodies as was once described for the production of innate antibodies.6This observation is also in line with previous studies that have reported sex differences in the immune response to various infections and vaccinations.7Lastly, using either germ-free or antibiotic-treated mice the authors showed that spontaneous development of anti-A antibodies did not require microbiota in several mouse strains. Quite the opposite, the presence of microbiota reduced the formation of anti-A antibodies in 2 out of 3 strains with a more pronounced effect in female mice. This is a surprising observation as it contradicts the previous notion that microbiota is directly responsible for the development of immune responses. The authors suggested that the mitigating effect of microbiota may result from the generation of specific CD4+ T cell populations with regulatory properties that would modulate antibody generation. Such explanation is consistent with the capacity of regulatory T cells to control antibody responses as Dr. Sakaguchi reported in his first description of Treg in 1995.8Contrasting with their natural development, the induced production of anti-A antibodies after immunization with human A+red blood cells required CD4+ T cell populations and did not show any noticeable differences between females and males. This latter observation indicates that the generation of ABO antibodies through immunization may be distinct from their spontaneous development. Overall, this study represents a significant contribution to our understanding of the development of ABO antibodies and has important implications for blood transfusion and transplantation medicine. A potential limitation of the study is that it was conducted in a mouse model although it is reasonable to assume that the findings related to the spontaneous development of anti-A antibodies can be extrapolated to humans. In contrast, the Goat polyclonal to IgG (H+L) experimental generation of anti-A-antibodies through immunization may not fully replicate the production of ABO antibodies in humans. The fact that the microbiota does not influence the generation of anti-A antibodies is puzzling. One cannot help but wonder what antigens, if not those exposed on microbes, elicit ABO Lusutrombopag antibodies in early life. Other candidates include food antigens towards which humoral responses develop during the first 2 years of life.9Alternatively, we may ponder the possibility that ABO antibodies are not induced by exposure to environmental antigens but rather result from antibody responses to self-determinants developing in childhood. Nevertheless, by bringing a new perspective on this known but still obscure phenomenon, the study by Adam and Dr. West group reminds us once again to be cautious about widely disseminated yet unproven concepts. == Funding == This work was supported by National Institutes of Health (NIH) grant R01-A1123342. == Footnotes == Disclosure statement The authors of this manuscript have no conflicts to declare. == References ==.