Dendritic cells support long term survival of plasma cells via CD28-CD80/CD86 interactions (66.11)

Abstract

Abstract We have previously shown (AAI2009) that dendritic cells (DC) contribute to the survival of long lived plasma cells in the bone marrow, which are important to maintain persistent antibody titres. What is not clear are the molecular interactions that are involved. Both normal and malignant plasma cells(like myeloma cells) express the T-cell co-stimulatory molecule CD28, and both interact with DCs in the bone marrow microenvironment. CD28 activation on MM triggers similar molecular partners downstream as observed in T-cells. Gene expression analysis of normal and malignant plasma cells shows that CD28 expression correlates with poor prognostic subgroups that are associated with specific genetic lesions. In our data, while activation of CD28 with antibodies or DC-CD80/CD86 (B7) protects myeloma cells against cell death, the ligation of B7 on DCs induces DC production of plasma cell survival factor IL-6, and immunosuppressive factor indoleamine 2,3-dioxygenase (IDO). Use of Lenalidomide (a common myeloma drug) to inhibit DC-B7 expression or anti-CD28(Fab)2 fragments to block CD28-B7 interactions reduced DC ability to protect MM cells. Experiments with αCD28(Fab)2 or inhibitors of notch pathway suggest a cross talk that regulates IL-6 production. IDO activity in DC-MM cocultures, suppressed T-cell proliferation in MLRs while an IDO inhibitor alleviated this. Our data suggests a role for CD28-B7 in plasma cell survival by modulating the bone marrow microenvironment.