BACKGROUND: Understanding the molecular interactions between pig tissues and human immune cells is fundamental to achieving long-term pig to human xenograft survival. CD40 has been shown to be central in the interaction of T cells with many antigen-presenting cells including B cells, and dendritic cells. It has been clearly shown in vitro that human T cells can effectively recognize pig major histocompatibility complex proteins, and that various accessory molecule interactions are compatible between these species, including human CD28 with pig B7 family members (CD80/CD86). The importance of CD40 in transplantation has been established using blocking antibodies to its ligand, CD154, which prolong allograft survival in mouse and primate models. METHODS: Pig CD40 was cloned from a porcine spleen cDNA library and subsequently sequenced. Expression of pig CD40 was detected by flow cytometry using soluble human CD154 (hCD154-Ig). Results. Comparison of the derived amino acid sequence of pig with human shows 74% identity. Significantly, there is conservation between pig and human at 5 residues shown by mutagenesis studies to be essential for binding of human CD40 to CD154. hCD154Ckappa was shown to bind pig B cell lines and a proportion of human and pig lymphocytes and further confirmed by staining of COS cells transfected with pig CD40. Conclusions. Recipient human cells bearing CD154 will, therefore, be able to bind donor pig CD40, and these interactions might modulate effector functions and hence influence xenograft survival. Further investigation is necessary to ascertain the exact nature of these interactions and their implications for xenograft survival.
BACKGROUND: Understanding the molecular interactions between pig tissues and human immune cells is fundamental to achieving long-term pig to human xenograft survival. CD40 has been shown to be central in the interaction of T cells with many antigen-presenting cells including B cells, and dendritic cells. It has been clearly shown in vitro that human T cells can effectively recognize pig major histocompatibility complex proteins, and that various accessory molecule interactions are compatible between these species, including humanCD28 with pig B7 family members (CD80/CD86). The importance of CD40 in transplantation has been established using blocking antibodies to its ligand, CD154, which prolong allograft survival in mouse and primate models. METHODS:PigCD40 was cloned from a porcine spleen cDNA library and subsequently sequenced. Expression of pigCD40 was detected by flow cytometry using soluble humanCD154 (hCD154-Ig). Results. Comparison of the derived amino acid sequence of pig with human shows 74% identity. Significantly, there is conservation between pig and human at 5 residues shown by mutagenesis studies to be essential for binding of humanCD40 to CD154. hCD154Ckappa was shown to bind pig B cell lines and a proportion of human and pig lymphocytes and further confirmed by staining of COS cells transfected with pigCD40. Conclusions. Recipient human cells bearing CD154 will, therefore, be able to bind donorpigCD40, and these interactions might modulate effector functions and hence influence xenograft survival. Further investigation is necessary to ascertain the exact nature of these interactions and their implications for xenograft survival.