BACKGROUND: Toxicity to interleukin-2 (IL-2) tumor immunotherapy is manifested principally by the vascular leak syndrome, hypotension, and a hyperdynamic response with low systemic vascular resistance. Nitric oxide (.N = O), a recently discovered biological mediator of vascular smooth muscle relaxation, is produced in increased amounts by numerous cell types exposed to a number of inflammatory cytokines. PURPOSE: Our purpose was to determine if there is an increased production of .N = O in patients receiving IL-2 tumor immunotherapy, and, if so, whether increases in .N = O production correlate with hemodynamic instability. METHODS: Twelve patients undergoing immunotherapy trials with IL-2 and anti-CD3 monoclonal antibody-activated lymphocytes (T-AK cells) were studied. Plasma levels of nitrate (NO3-), the stable end metabolic product of .N = O synthesis, were measured before and at the end of IL-2 treatment cycles. RESULTS: We observed a ninefold increase in plasma levels of NO3- in patients after 7 days of treatment (P less than .0001). A significant decrease in both systolic and diastolic blood pressures was observed in all patients (P less than .001). CONCLUSIONS: We propose that mediated induction of .N = O synthase enzyme leads to progressive increases in .N = O production which, in turn, produces clinically significant hypotension. IMPLICATIONS: Since .N = O synthesis can be competitively inhibited by L-arginine analogues, a possible pharmacologic modulation of .N = O production could potentially contribute to better management of toxic side effects seen in IL-2 cancer therapies.
BACKGROUND:Toxicity to interleukin-2 (IL-2) tumor immunotherapy is manifested principally by the vascular leak syndrome, hypotension, and a hyperdynamic response with low systemic vascular resistance. Nitric oxide (.N = O), a recently discovered biological mediator of vascular smooth muscle relaxation, is produced in increased amounts by numerous cell types exposed to a number of inflammatory cytokines. PURPOSE: Our purpose was to determine if there is an increased production of .N = O in patients receiving IL-2tumor immunotherapy, and, if so, whether increases in .N = O production correlate with hemodynamic instability. METHODS: Twelve patients undergoing immunotherapy trials with IL-2 and anti-CD3 monoclonal antibody-activated lymphocytes (T-AK cells) were studied. Plasma levels of nitrate (NO3-), the stable end metabolic product of .N = O synthesis, were measured before and at the end of IL-2 treatment cycles. RESULTS: We observed a ninefold increase in plasma levels of NO3- in patients after 7 days of treatment (P less than .0001). A significant decrease in both systolic and diastolic blood pressures was observed in all patients (P less than .001). CONCLUSIONS: We propose that mediated induction of .N = O synthase enzyme leads to progressive increases in .N = O production which, in turn, produces clinically significant hypotension. IMPLICATIONS: Since .N = O synthesis can be competitively inhibited by L-arginine analogues, a possible pharmacologic modulation of .N = O production could potentially contribute to better management of toxic side effects seen in IL-2cancer therapies.
Authors: J B Ochoa; A C Bernard; W E O'Brien; M M Griffen; M E Maley; A K Rockich; B J Tsuei; B R Boulanger; P A Kearney; S M Morris Journal: Ann Surg Date: 2001-03 Impact factor: 12.969
Authors: D A Geller; C J Lowenstein; R A Shapiro; A K Nussler; M Di Silvio; S C Wang; D K Nakayama; R L Simmons; S H Snyder; T R Billiar Journal: Proc Natl Acad Sci U S A Date: 1993-04-15 Impact factor: 11.205
Authors: P A Bécherel; M D Mossalayi; F Ouaaz; L Le Goff; B Dugas; N Paul-Eugène; C Frances; O Chosidow; E Kilchherr; J J Guillosson Journal: J Clin Invest Date: 1994-05 Impact factor: 14.808