Role of Natural Killer Activity in Development of Spontaneous Metastases in Murine Renal Cancer

Abstract

We have studied the role of natural killer activity during the growth and dissemination of a transplantable renal adenocarcinoma (Renca) of spontaneous origin in BALB/c mice. The pattern of growth of this tumor accurately mimics that of adult human renal cell carcinoma in terms of clinical stages I-IV, particularly with regard to spontaneous metastasis to lung and liver. Renca in moderately sensitive to lysis by natural killer cells from normal mice and is more efficiently lysed by natural killer cells from mice treated with the biological response modifier maleic anhydride divinyl ether, a pyran copolymer. Our studies demonstrate that selective depression of natural killer activity by administration of antiserum specific for the neutral glycosphingolipid asialo GM1 correlated with increased formation of spontaneous metastases in the lungs, liver and lymph nodes. Conversely, augmentation of natural killer activity by the biological response modifier decreased the formation of spontaneous metastases in lungs, liver and lymph nodes. Further, the suppression of natural killer activity and subsequent increased formation of metastases were accompanied by a significantly reduced survival time, whereas the augmented natural killer activity and decreased incidence of metastases in biological response modifier-treated mice were accompanied by an increase in time of survival. These results demonstrate a significant role for natural killer cells in the control of spontaneous metastasis during growth of this murine renal cancer.