Previous investigations have demonstrated that an expanding circulating T cell population is able to modulate the malignant clone in multiple myeloma. More recently, an expansion of T cell subsets exhibiting a restricted T cell repertoire has been detected in some MM patients. To further elucidate if a selected T cell expansion occurs in MM, we studied the T cell receptor (TCR) variable (V) region expression from a cohort of previously diagnosed and treated MM patients (N=37). The latter was done by assessing the reactivity of a panel of monoclonal antibodies specific for different V region families (alpha or beta) in combination with anti-CD4 or anti-CD8, for purified blood T cells from MM patients. TCR V region usage in MM patients was compared to blood T cells from age matched (N=13) control individuals. The multivariate analysis of variance did not uncover a difference for distribution of TCR V region usage between the normal controls and the MM cohort. However, there were individual MM patients who had expanded T cells with specific TCR V region expression when compared to the control group. Several MM patients had multiple, expanded CD4 and/or CD8 subsets based on TCR V region expression. The majority of MM patients had expanded T cell subsets that constituted less than 10% of the total blood T cell pool. However, a few MM patients (N=3) had larger percentages (range 34-84%) of these expanded T cell subsets within their blood T (CD3+) cells. The stage of disease and treatment status (currently on or off therapy) did not associate with the pattern of restricted T cell repertoire. Finally, a smaller cohort of newly diagnosed, untreated MM patients (N=13) also demonstrated an expanded T cell repertoire. However, these patients had more CD4 than CD8 cell subsets involved in the altered V region expression in several Vbeta families. Thus, these results add to the evidence that this malignant B cell disorder whether newly diagnosed or of longer duration, may be accompanied by an altered T cell repertoire characterized in part by expanded T cell clones.