PT - JOURNAL ARTICLE AU - Guofu Li AU - Haiyan Xue AU - Zeng Fan AU - Yun Bai TI - Heme concentration-dependently modulates the production of specific antibodies in murine AID - 10.1101/071316 DP - 2016 Jan 01 TA - bioRxiv PG - 071316 4099 - http://biorxiv.org/content/early/2016/08/24/071316.short 4100 - http://biorxiv.org/content/early/2016/08/24/071316.full AB - Free heme is an endogenous danger signal to provoke innate immunity. Active innate immunity is a precondition of an effective adaptive immune response. However, heme catabolites, CO, biliverdin and bilirubin trigger immunosuppression. Furthermore, free heme induces the expression of heme oxygenase-1 to reinforce the production of CO, biliverdin and bilirubin. As such, free heme can drive two antagonistic mechanisms to affect adaptive immunity. What is the outcome of animal immune response to an antigen in the presence of free heme? The question remains to be explored. Here we report the immunization results by intraperitoneal injection of the formulations containing BSA and heme. When the used heme concentrations were about less than 1 µM, the production of anti-BSA IgG and IgM was unaffected; when the used heme concentrations were about more than 1 µM but less than 5 µM, the production of anti-BSA IgG and IgM was enhanced; when the used heme concentrations were about more than 5 µM, the production of anti-BSA IgG and IgM was suppressed. The results demonstrate that heme can modulate adaptive immunity (at least humoral immunity) by the mode of double concentration-thresholds. If heme concentrations are below the first threshold, there is no effect on adaptive immunity; if between the first and second thresholds, there is promotive effect; if over the second threshold, there is inhibitive effect. A hypothesis is also presented here to explain the mode.AbbreviationsCFAComplete Freund’s adjuvantDAMPdamage associated molecular patternPAMPpathogen-associated molecular patternHOheme oxygenaseHEcLhuman erythrocyte lipidREcLrat erythrocyte lipidLREcLhemolytic rat erythrocyte lipidLPSLipopolysaccharidePCphosphatidylcholineROSreactive oxygen speciesTLRToll-like receptor