Abstract

The surface Ig on each B-cell lymphoma has unique portions (idiotypes), which can be recognized by the immune system. In this study, we immunized patients against the Ig expressed by their tumor and observed their clinical outcomes. After standard chemotherapy, 41 patients with non-Hodgkin's B-cell lymphoma received a series of injections with a vaccine consisting of tumor Ig protein coupled to keyhole limpet hemocyanin and emulsified in an immunologic adjuvant. Subjects were observed for toxicity, immune responses, and tumor status. The median duration of follow-up of all patients is 7.3 years from diagnosis and 5.3 years from the last chemotherapy given before vaccine treatment. Twenty patients (49%) generated specific immune responses against the idiotypes of their tumor Ig. Two patients who had residual disease experienced complete tumor regression in association with the development of these immune responses. The median duration of freedom from disease progression and overall survival of all 20 patients mounting an anti-idiotype immune response are significantly prolonged compared to the patients who did not mount an immune response. Thirty-two patients were in their first remission and nine were in subsequent remissions before beginning vaccine treatments. Analysis of the 32 first remission patients also shows an improved clinical outcome for those patients who mounted a specific immune response compared to those who did not (freedom from progression, 7.9 years v 1.3 years P = .0001; median survival from time of last chemotherapy not yet reached v 7 years, P = .04). This study confirms an earlier report that patients with B-cell lymphoma can be induced to make a specific immune response against the Ig expressed by their own tumor. It further shows that the ability to make such an immune response is correlated with a more favorable clinical outcome. Prospective controlled trials will be needed to prove a causal relationship between anti-idiotype immunity and improved clinical outcome.

View details for Web of Science ID A1997WX54200007

View details for PubMedID 9129015