The microbial immunostimulant OK-432 has been studied intensively in preclinical systems and has shown promise as an anticancer agent in trials that have been conducted over the past 20 years in Japan. To date, no systematic dose response evaluation of this agent has defined its dose-limiting toxicity or immunobiological activity. A phase IA study has been conducted in 25 patients with metastatic cancer at the University of Pittsburgh Cancer Institute Melanoma Center, establishing 30 KE as the maximal tolerable dosage, on the basis of cutaneous reactions. Subsequently, 48 patients with resected high-risk melanoma participated in a phase IB study of OK-432. This study has evaluated the immunomodulatory activity of OK-432 at five dosages ranging from 1 KE to 20 KE, administered ID twice weekly for 3 months. A formal analysis of the treated population in comparison to the randomized control group has been conducted, and profound immunological effects have been defined in the group of patients treated with OK-432. Patients who participated in this trial had a significant depression of OK-432-inducible cytokine production (interleukin-1 beta, interferon gamma, and tumor necrosis factor alpha) at baseline. Treatment with OK-432 reversed this deficit for interferon gamma (IFN gamma) production in a dose-dependent manner, and mitigated the inhibition for interleukin-1 (IL-1) across all dosage groups. The impact of OK-432 upon other immunological functions of the treated cohorts is more variable, with durable suppression of mononuclear cell superoxide production, and in vitro cytotoxicity to tumor. Immunological characteristics of the entire cohort demonstrate a strong and significant correlation of elevated blood CD16+ cell counts and natural killer activity with early tumor progression and death due to melanoma. Favorable prognosis is associated with monocyte capacity to produce tumor necrosis factor (TNF), and polymorphonuclear leukocyte formylmethionyl-leucylphenylalanine-inducible superoxide release. This study reveals several new immunological correlates of tumor progression and lethal outcome in resected high-risk melanoma. It demonstrates that the depressed IL-1, TNF, and IFN gamma release associated with melanoma may be mitigated by treatment with OK-432. This study has defined treatment and dose response patterns of immunomodulation associated with one of the most complex immunological agents yet evaluated in phase IB trials, in a well-defined population of high-risk patients with resected melanoma.