Screening of potencially immunoregulatory heat shock protein 60 peptides in mice

INTRODUCTION: Heat shock proteins (HSPs) are proteins present in all living beings. They have dual immunologic functional activity inducing both proinflammatory and regulatory responses. In our group, we study the immunological effects of HSP60 peptides in human and mice. OBJECTIVES: To identify potentially immunoregulatory HSP60 peptides in mice, aiming at tolerance induction in the context of alotransplantation. METHOD: We analyzed the capacity of different HSP60 peptides to modify in vitro the expression of predominantly immunoregulatory genes (Foxp3, Gata-3, IDO, IL-4, IL-10, TGF?) or inflammatory (T-bet, IL-12p35, IL-12p40, IL-17) by Real Time PCR, in naive mice splenocytes. We considered gene modifications induced by the peptides as REG (?expression of immunoregulatory genes or ?expression of inflammatory genes) or INFLAMMA (?expression of immunoregulatory genes or ? expression of inflammatory genes). We selected some promising peptides that induced predominantly REG gene expression modifications as immunoregulatory peptides, to perform in vivo assays of tolerance induction to murine skin allograft. RESULTS: More promising peptides were N7, C4, N6, I8, N2 and N3. The N7 peptide (n=9) induced a REG/INFLAMMA ratio=2,71 and induced gene expression reduction of IL-17 and IL-12p40. The C4 peptide (n=6) induced a REG/INFLAMMA ratio =1,63 and induced gene expression reduction of IL-17 and IL-12p40. The N6 peptide (n=8) induced a REG/INFLAMMA ratio =1,60, induced gene expression reduction of T-bet and IL-12p40, and increased expression of IL-10. The I8 peptide (n=5) induced a REG/INFLAMMA ratio =1,57 and induced increased gene expression of IL-17. The N2 peptide (n=8) induced a REG/INFLAMMA ratio =1,32 and induced gene expression reduction of IL-17 and increase expression of IL-10, IL-4 and T-bet. The N3 peptide (n=7) induced a REG/INFLAMMA ratio =1,25 and induced no gene expression modification highlights. The N7 peptide was tested in tolerance mice allograft induction protocols. There was no statistical difference between different groups, despite the 7-day increase in allograft survival with the protocol in combination with the ?CD3 antibody (p=0,38, n=5). DISCUSSION AND CONCLUSION: The strong immunoregulatory impact of some HSP60 peptides in the gene expression of immune molecules indicate that they may be explored for immune therapy. Despite the existence of some interindividual variability, the N7 HSP60 peptide seems to be a promising imunorregulatory peptide. The slight increase in graft survival with the N7 peptide suggests that the combination of HSP60 peptides with other immunosupressors and different tolerance induction protocols may be a way to improve graft survival. (AU)