Serum ferritin is present in two forms--a glycosylated form that results from active secretion by cells and a nonglycosylated form that is directly released by damaged cells. Glycosylated ferritin binds to concanavalin A (Con A) through the glucose and/or mannose residues of the molecule. Patients with neuroblastoma frequently present at diagnosis with abnormally elevated levels of serum ferritin. The ferritin levels will, however, return to normal with clinical remission, suggesting that the tumor is the origin of the elevated ferritin. With the use of a Con A binding assay, an investigation was made as to whether the increased levels of serum ferritin at diagnosis in neuroblastoma patients resulted from active secretion by the tumor or were the consequence of direct release of ferritin from damaged tissue. Serum samples were collected at diagnosis from 36 children with neuroblastoma and from 16 normal healthy subjects. Tissue ferritins were purified from normal human liver, placenta, HeLa cells, human neuroblastoma, and hepatoma cells grown in culture. Serum and tissue ferritins were measured before and after binding with Con A. Sixty-three percent of serum ferritin from neuroblastoma patients and 66% of serum ferritin from normal subjects were bound to Con A, suggesting that they were glycosylated and were likely to have been secreted. On the other hand, only 28% of tissue ferritin were bound to Con A. Furthermore, most patients showed abnormally elevated levels of serum ferritin, and 63% of these ferritins were bound to Con A. These results are compatible with the hypothesis that much of the elevated ferritin in sera of patients with neuroblastoma seen at diagnosis is the result of secretion of ferritin by the tumor.