Synovial Cells Responding to a 65‐kDa Mycobacterial Heat Shock Protein have a High Proportion of a TcRγδ Subtype Uncommon in Peripheral Blood

Abstract

We have analysed the ability of T cells from synovial fluid mononuclear cells (SFMC) and from peripheral blood mononuclear cells (PBMC) of inflammatory arthritic diseases to proliferate in response to mycobacterial antigens (65-kDa heat shock protein [hsp] of BCG, whole BCG) and to rat collagen type II. The SFMC demonstrated a significantly greater ability to respond to 65-kDa hsp of BCG, and to whole BCG, compared with PBMC from the same patients. With collagen type II, only a small proportion of the patients showed a proliferative response, although with this antigen also SFMC responded better than PBMC. There was no difference between SFMC and PBMC in the response to control antigen (tetanus toxoid), phytohaemagglutinin (PHA), or interleukin 2 (IL-2). A high proportion of cells in SFMC-derived short-term T-cell lines were of TcR.gamma..delta. type, often exceeding the number of TcR.gamma..beta. type. There was a significantly higher proportion of TcR.gamma..delta. cells in the SFMC lines compared with the PBMC lines, and a large part of the TcR.gamma..delta. cells in the SFMC cultures was CD8+. The SFMC lines had a high proportion of .delta.-TCS-1+ cells (V.delta.1) among their TcR.gamma..delta. cells, always exceeding the percentages of Ti.gamma.A+ (V.gamma.9) and BB3+ (V.delta.2). In the PBMC lines, the distribution of TcR.gamma..delta. subtypes was markedly different, with a Ti.gamma.A+/BB3+ population in the majority. These data argue for a different subpopulation distribution of TcR.gamma..delta. cells in synovial fluid compared with peripheral blood of patients with inflammatory arthritic diseases.