BACKGROUND: Interleukin-4 (IL-4) can enhance immune function within various leukocyte populations and mediate antitumor effects in mice. In vitro, IL-4 activation of human lymphocytes is enhanced by prior exposure to interleukin-2 (IL-2). This phase I trial of continuous intravenous infusion (CI i.v.) IL-4 was performed to determine its toxicity and biologic activity. IL-2 was administered prior to a second course of IL-4 in the same patients to determine whether IL-2 exposure can enhance IL-4 effects in vivo. PATIENTS AND METHODS: Seventeen patients with non-hematologic malignancies were entered on this trial. Treatment consisted of 7 days of CI i.v. IL-4 followed by a 2 week period off therapy, then a 4 day course of CI i.v. IL-2 at 11.2 MIU/m2/day followed by 3 days rest, and then a second 7 day course of CI i.v. IL-4. IL-4 dose escalation included 40 micrograms/m2/day (6 pts.), 120 micrograms/m2/day (3 pts.), 360 micrograms/m2/day (5 pts.), and 600 micrograms/m2/day (3 pts.). RESULTS: Dose limiting toxicity occurred at 600 micrograms/m2/day of IL-4; a dose at which 2 of 3 patients exhibited a vascular leak syndrome characterized by weight gain, peripheral edema, effusions, oliguria, and diffuse rash. Pretreatment with IL-2 did not significantly enhance IL-4 toxicity in the 40-360 micrograms dose range. IL-4 treatment was associated with a modest, but significant increase in peripheral eosinophil counts (p = 0.004), but no consistent change in lymphocyte phenotype or function. Patients treated at the higher dose of IL-4 (360 micrograms) administered following IL-2, exhibited a marked increase in peripheral eosinophils after IL-4 therapy (p = 0.007). Following the second course of IL-4, we observed increases in the percent CD56+ (NK/LAK marker) lymphocytes (mean increase = 6.8%), above levels induced by the preceding IL-2 treatment (p = 0.055). A single minor durable tumor response was seen in a patient with metastatic renal cancer. CONCLUSIONS: IL-4 administered at 360 micrograms/m2/day CI i.v. over seven days is the maximum tolerated dose and is tolerable following a 4 day course of IL-2. IL-4 therapy alone is associated with a modest eosinophilia. In patients receiving IL-2 prior to IL-4, both circulating eosinophils and CD56+ cells increased above levels observed early after IL-2 treatment. Based upon these results, phase II trials of IL-4 in combination with IL-2 could be planned in 'IL-2 sensitive' malignancies.
BACKGROUND:Interleukin-4 (IL-4) can enhance immune function within various leukocyte populations and mediate antitumor effects in mice. In vitro, IL-4 activation of human lymphocytes is enhanced by prior exposure to interleukin-2 (IL-2). This phase I trial of continuous intravenous infusion (CI i.v.) IL-4 was performed to determine its toxicity and biologic activity. IL-2 was administered prior to a second course of IL-4 in the same patients to determine whether IL-2 exposure can enhance IL-4 effects in vivo. PATIENTS AND METHODS: Seventeen patients with non-hematologic malignancies were entered on this trial. Treatment consisted of 7 days of CI i.v. IL-4 followed by a 2 week period off therapy, then a 4 day course of CI i.v. IL-2 at 11.2 MIU/m2/day followed by 3 days rest, and then a second 7 day course of CI i.v. IL-4. IL-4 dose escalation included 40 micrograms/m2/day (6 pts.), 120 micrograms/m2/day (3 pts.), 360 micrograms/m2/day (5 pts.), and 600 micrograms/m2/day (3 pts.). RESULTS: Dose limiting toxicity occurred at 600 micrograms/m2/day of IL-4; a dose at which 2 of 3 patients exhibited a vascular leak syndrome characterized by weight gain, peripheral edema, effusions, oliguria, and diffuse rash. Pretreatment with IL-2 did not significantly enhance IL-4toxicity in the 40-360 micrograms dose range. IL-4 treatment was associated with a modest, but significant increase in peripheral eosinophil counts (p = 0.004), but no consistent change in lymphocyte phenotype or function. Patients treated at the higher dose of IL-4 (360 micrograms) administered following IL-2, exhibited a marked increase in peripheral eosinophils after IL-4 therapy (p = 0.007). Following the second course of IL-4, we observed increases in the percent CD56+ (NK/LAK marker) lymphocytes (mean increase = 6.8%), above levels induced by the preceding IL-2 treatment (p = 0.055). A single minor durable tumor response was seen in a patient with metastatic renal cancer. CONCLUSIONS:IL-4 administered at 360 micrograms/m2/day CI i.v. over seven days is the maximum tolerated dose and is tolerable following a 4 day course of IL-2. IL-4 therapy alone is associated with a modest eosinophilia. In patients receiving IL-2 prior to IL-4, both circulating eosinophils and CD56+ cells increased above levels observed early after IL-2 treatment. Based upon these results, phase II trials of IL-4 in combination with IL-2 could be planned in 'IL-2 sensitive' malignancies.
Authors: Lars Harbaum; Marion J Pollheimer; Peter Kornprat; Richard A Lindtner; Carsten Bokemeyer; Cord Langner Journal: Mod Pathol Date: 2014-09-12 Impact factor: 7.842
Authors: Jeffrey A Sosman; Carole Carrillo; Walter J Urba; Lawrence Flaherty; Michael B Atkins; Joseph I Clark; Janet Dutcher; Kim A Margolin; James Mier; Jarod Gollob; John M Kirkwood; David J Panka; Nancy A Crosby; Kevin O'Boyle; Bonnie LaFleur; Marc S Ernstoff Journal: J Clin Oncol Date: 2008-05-10 Impact factor: 44.544
Authors: Gwang Hun Jeong; Keum Hwa Lee; I Re Lee; Ji Hyun Oh; Dong Wook Kim; Jae Won Shin; Andreas Kronbichler; Michael Eisenhut; Hans J van der Vliet; Omar Abdel-Rahman; Brendon Stubbs; Marco Solmi; Nicola Veronese; Elena Dragioti; Ai Koyanagi; Joaquim Radua; Jae Il Shin Journal: J Clin Med Date: 2019-01-26 Impact factor: 4.241
Authors: Ilkka S Junttila; Remi J Creusot; Ignacio Moraga; Darren L Bates; Michael T Wong; Michael N Alonso; Megan M Suhoski; Patrick Lupardus; Martin Meier-Schellersheim; Edgar G Engleman; Paul J Utz; C Garrison Fathman; William E Paul; K Christopher Garcia Journal: Nat Chem Biol Date: 2012-10-28 Impact factor: 15.040
Authors: Navneet S Majhail; Mohamad Hussein; Thomas E Olencki; George T Budd; Laura Wood; Paul Elson; Ronald M Bukowski Journal: Invest New Drugs Date: 2004-11 Impact factor: 3.651
Authors: Robert Goldstein; Charles Hanley; Jonathan Morris; Declan Cahill; Ashish Chandra; Peter Harper; Simon Chowdhury; John Maher; Sophie Burbridge Journal: Cancers (Basel) Date: 2011-12-16 Impact factor: 6.639