Human gammadelta T-lymphocytes expressing Vgamma2Vdelta2 T-cell receptors (TCRs) can be stimulated by aminobisphosphonates and can kill certain tumor cells. Although germline-encoded lysine residues on the Jgamma1.2 segment have been demonstrated to be essential for the recognition of nonpeptide antigens by human gammadelta T-cells, the role of the junctional sequences of the TCR delta chain in the recognition of aminobisphosphonates by Vgamma2Vdelta2+ T-cells remains unknown. We examined the structure of complementarity-determining region 3 (CDR3) of Vdelta2 chains expressed by aminobisphosphonate-stimulated human gammadelta T-cells. CDR3 size-spectratyping analysis of Vdelta2 chains revealed that risedronate did not induce a CDR3 size distribution pattern of Vdelta2 cells that was distinct from that of Vdelta2 cells cultured without risedronate. The clonality of risedronate-expanded Vdelta2 T-cells was also determined by sequencing analysis, with the result that no particular consensus sequences were observed. However, most Vdelta2 T-cells freshly isolated from peripheral blood carried a distinctive junctional motif consisting of a hydrophobic amino acid residue (valine, leucine, or isoleucine [Val/Leu/Ile]) at conserved position 97, and this feature was not altered by risedronate stimulation. A significant proportion of Vdelta1 T-cells from the same individual had Leu at position 97, but Vdelta1 T-cells did not expand in response to risedronate. Moreover, Vdelta2 T-cells from the nonresponder against risedronate also carried a Val/Leu/Ile amino acid residue at position 97. These results suggest that the presence of a hydrophobic amino acid residue at position 97 in CDR3 of the TCR delta chain is not sufficient to account for the recognition of aminobisphosphonate by human gammadelta T-cells.