Nuklearmedizin 2009; 48(01): 30-36
DOI: 10.3413/nukmed-0200
Radioimmuntherapie vor SZT
Schattauer GmbH

Myeloablative radioimmunotherapy with 188Re-CD66mAb before stem cell transplantation

No increase of proinflammatory cytokine levels of TNF-αMyeloablative Radioimmuntherapie mit 188Re-CD66mAb vor StammzelltransplantationKein Anstieg proinflammatorischer Zytokinspiegel von TNF-α
J. Mutschler
1   Klinik für Nuklearmedizin; Universitätsklinik Ulm
,
G. Steinbach
2   Abteilung Klinische Chemie; Universitätsklinik Ulm
,
D. Bunjes
3   Med. Klinik III; Universitätsklinik Ulm
,
S.N. Reske
1   Klinik für Nuklearmedizin; Universitätsklinik Ulm
,
I. Buchmann
4   Abteilung für Nuklearmedizin, Universitätsklinik Heidelberg
› Author Affiliations
Further Information

Publication History

Eingegangen: 24 July 2008

angenommen nach Revision: 12 September 2008

Publication Date:
19 January 2018 (online)

Summary

Aim: Tumour necrosis factor-α (TNF-α) serum levels may increase due to intensive conditioning regimes with highdose- chemotherapy and total body irradiation (TBI) before stem cell transplantation. This increases the risk for developing acute graft versus host disease (aGvHD) after stem cell transplantation. In this prospective study we investigated the influence of radioimmunotherapy with 188Re- CD-66-mAb on changes on TNF-α serum levels. Patients, methods: In 18 patients we measured TNF-α before and up to 96 hours after radioimmunotherapy, in 2 patients in addition following TBI, in 9 patients also following chemotherapy. For measuring TNF-α we used an automated immunochemiluminescence assay (Immulite 1000 DPC Biermann, Bad Nauheim). The mean follow up period to record incidence of aGVHD was 100 days after stem cell transplantation. Results: Compared to the basal levels before, the levels of TNF-α after conditioning with 188Re-CD-66-mAb did not increase significantly and remained in the physiological range. In contrast, these initial physiological cytokine levels increased and became pathological following 48 h after total body irradiation (13.2 ± 6.6 pg/ml) and chemotherapy (10.8 ± 15.7 pg/ml). In our study we found a low incidence of aGvHD (22.2%, n = 4/18). Conclusion: These results demonstrate that additional conditioning therapy with 188Re-CD-66-mAb does not increase proinflammatory cytokine levels of TNF-α. This finding may indicate that additive radioimmunotherapy may not be a significant factor for increasing the rate of conditioning- associated aGvHD.

Zusammenfassung

Ziel: Die Serumspiegel von Tumornekrosefaktor-α (TNF-α) steigen durch aggressive myeloablative Konditionierungstherapien mit Hochdosis-Chemotherapie und total body irradiation (TBI) vor allogener Stammzelltransplantation. Dies ist mit einer erhöhten Rate der akuten graft versus host disease (aGvHD) assoziiert. In dieser prospektiven Studie wurde der Einfluss der myeloablativen Radioimmuntherapie mit 188Re-CD-66-mAb auf Änderungen von TNF-α-Serumspiegel untersucht. Patienten, Methode: Bei 18 Patienten wurden vor und bis zu 96 Stunden nach der Radioimmuntherapie, bei 2 Patienten zusätzlich nach TBI und bei 9 Patienten nach der Hochdosis-Chemotherapie die Serumspiegel von TNF-α mittels Festphasen-Chemi - lumineszenz-Enzymimmunoassay (Immulite 1000 DPC Biermann, Bad Nauheim) bestimmt. Die mittlere Nachbeobachtungszeit zur Erfassung der aGVHD betrug 100 Tage nach Stammzelltransplantation. Ergebnisse: Gegenüber den Ausgangswerten vor Konditionierung waren die Serumspiegel von TNF-α bei 17/18 Patienten nach der myeloablativen Konditionierung mit 188Re-CD-66-mAb weiterhin nicht pathologisch erhöht. Im Gegensatz dazu stiegen die initial physiologischen Serumspiegel von TNF-α 48 Stunden nach TBI auf pathologische Werte von 13,2 ± 6,6. pg/ml und 10,8 ± 15,7 pg/ml nach der Hochdosis-Chemotherapie. In unserer Studie war die aGvHD-Inzidenz mit 22,2% insgesamt niedrig (n = 4/18). Schlussfolgerung: Diese Untersuchung belegt, dass die zusätzliche Konditionierung mit 188Re-CD-66-mAb nicht zu einer vermehrten Freisetzung des proinflammatorischen Zytokins TNF-α führt. Dies kann ein erster Hin - weis sein, dass zusätzliche Radioimmuntherapie kein signifikanter Faktor für eine zusätzliche konditionierungs - assoziierte aGvHD ist.

 
  • Literatur

  • 1 Appelbaum FR. Allogeneic hematopoietic stem cell transplantation for acute leukemia. Semin Oncol 1997; 24: 114-123.
  • 2 Barge RM, Starrenburg CW, Falkenburg JH. et al. Long-term follow-up of myeloablative allogeneic stem cell transplantation using Campath “in the bag” as T-cell depletion: the Leiden experience. Bone Marrow Transplant 2006; 37: 1129-1134.
  • 3 Behr TM, Gotthardt M, Becker W. et al. Radioiodi- nation of monoclonal antibodies, proteins and peptides for diagnosis and therapy. A review of standardized, reliable and safe procedures for clinical grade levels kBq to GBq in the Gottingen/ Marburg experience. Nuklearmedizin 2002; 41: 71-79.
  • 4 Buchmann I, Bunjes D, Kotzerke J. et al. Myelo- ablative radioimmunotherapy with 188Re-anti- CD66-antibody for conditioning of high-risk leukemia patients prior to stem cell transplantation: biodistribution, biokinetics and immediate toxici- ties. Cancer Biother Radiopharm 2002; 17: 151-163.
  • 5 Buchmann I, Meyer RG, Herr W. et al. Radio- immunotherapy for treatment of acute myeloid leukaemia and myelodysplastic syndrome: conceptual chances. Nuklearmedizin 2005; 44: 107-117.
  • 6 Bunjes D, Buchmann I, Duncker C. et al. Rhenium 188-labeled anti-CD66 (a, b, c, e) monoclonal antibody to intensify the conditioning regimen prior to stem cell transplantation for patients with high- risk acute myeloid leukemia or myelodysplastic syndrome: results of a phase I-II study. Blood 2001; 98: 565-572.
  • 7 Clift RA, Buckner CD, Appelbaum FR. et al. Allo- geneic marrow transplantation in patients with acute myeloid leukemia in first remission: a randomized trial of two irradiation regimens. Blood 1990; 76: 1867-1871.
  • 8 Clift RA, Buckner CD, Appelbaum FR. et al. Allo- geneic marrow transplantation in patients with chronic myeloid leukemia in the chronic phase: a randomized trial of two irradiation regimens. Blood 1991; 77: 1660-1665.
  • 9 Copelan EA. Hematopoietic stem-cell transplantation. N Engl J Med 2006; 354: 1813-1826.
  • 10 Ferrant A, Labopin M, Frassoni F. et al. Karyotype in acute myeloblastic leukemia: prognostic significance for bone marrow transplantation in first remission: a European Group for Blood and Marrow Transplantation study. Blood 1997; 90: 2931-1938.
  • 11 Gerbitz A, Schultz M, Wilke A. et al. Probiotic effects on experimental graft-versus-host disease: let them eat yogurt. Blood 2004; 103: 4365-4367.
  • 12 Glatting G, Kull T, Blumstein NM. et al. Dosimetry with 188Re-labelled monoclonal anti-CD66 antibodies. A simplified approach based on a single measurement 3 h p.i. Nuklearmedizin 2006; 45: 134-138.
  • 13 Glucksberg H, Storb R, Fefer A. et al. Clinical manifestations of graft-versus-host disease in human recipients of marrow from HLA-matched sibling donors. Transplantation 1974; 18: 295-304.
  • 14 Grimm J, Zeller W, Zander AR. Soluble interleu- kin-2 receptor serum levels after allogeneic bone marrow transplantations as a marker for GVHD. Bone Marrow Transplant 1998; 21: 29-32.
  • 15 Hill GR, Cooke KR, Brinson YS. et al. Pretrans- plant chemotherapy reduces inflammatory cytokine production and acute graft-versus-host disease after allogeneic bone marrow transplantation. Transplantation 1999; 67: 1478-1480.
  • 16 Hill GR, Ferrara JL. The primacy of the gastrointestinal tract as a target organ of acute graft-ver- sus-host disease: rationale for the use of cytokine shields in allogeneic bone marrow transplantation. Blood 2000; 95: 2754-2759.
  • 17 Hill GR, Krenger W, Ferrara JL. The role of cyto- kines in acute graft-versus-host disease. Cytoki- nes Cell Mol Ther 1997; 3: 257-266.
  • 18 Holler E, Ertl B, Hintermeier-Knabe R. et al. Inflammatory reactions induced by pretransplant conditioning – an alternative target for modulation of acute GvHD and complications following allogeneic bone marrow transplantation?. Leuk Lymphoma 1997; 25: 217-224.
  • 19 Holler E, Kolb HJ, Mittermuller J. et al. Modulation of acute graft-versus-host-disease after allogeneic bone marrow transplantation by tumor necrosis factor alpha (TNF alpha) release in the course ofpretransplant conditioning: role ofconditioning regimens and prophylactic application of a monoclonal antibody neutralizing human TNF alpha (MAK 195F). Blood 1995; 86: 890-899.
  • 20 Holler E, Roncarolo MG. Hintermeier-Knabe et al. Prognostic significance of increased IL-10 production in patients prior to allogeneic bone marrow transplantation. Bone Marrow Transplant 2000; 25: 237-241.
  • 21 Horowitz MM, Gale RP, Sondel PM. et al. Graft- versus-leukemia reactions after bone marrow transplantation. Blood 1990; 75: 555-562.
  • 22 Marmont AM, Horowitz MM, Gale RP. et al. T-cell depletion of HLA-identical transplants in leukemia. Blood 1991; 78: 2120-2130.
  • 23 Remberger M, Ringden O, Markling L. TNF alpha levels are increased during bone marrow transplantation conditioning in patients who develop acute GVHD. Bone Marrow Transplant 1995; 15: 99-104.
  • 24 Reske SN, Bunjes D, Buchmann I. et al. Targeted bone marrow irradiation in the conditioning of high-risk leukaemia prior to stem cell transplantation. Eur J Nucl Med 2001; 28: 807-815.
  • 25 Sakata N, Yasui M, Okamura T. et al. Kinetics of plasma cytokines after hematopoietic stem cell transplantation from unrelated donors: the ratio of plasma IL-10/sTNFR level as a potential prognostic marker in severe acute graft-versus-host disease. Bone Marrow Transplant 2001; 27: 1153-1161.
  • 26 Schomäcker K, Dietlein M, Schnell R. et al. Radio- immunotherapy with yttrium-90 ibritumomab tiuxetan. Clinical considerations, radiopharmacy, radiation protection, perspectives. Nuklearmedizin 2005; 44: 166-177.
  • 27 Seitz U, Neumaier B, Glatting G. et al. Preparation and evaluation of the rhenium-188-labelled anti- NCA antigen monoclonal antibody BW 250/183 for radioimmunotherapy of leukaemia. Eur J Nucl Med 1999; 26: 1265-1273.
  • 28 Shaiegan M, Iravani M, Babaee GR. et al. Effect of IL-18 and sIL2R on aGVHD occurrence after hematopoietic stem cell transplantation in some Iranian patients. Transpl Immunol 2006; 15: 223-227.
  • 29 Tegg EM, Griffiths AE, Lowenthal RM. et al. Association between high interleukin-6 levels and adverse outcome after autologous haemopoietic stem cell transplantation. Bone Marrow Transplant 2001; 28: 929-933.
  • 30 Visentainer JE, Lieber SR, Persoli LB. et al. Serum cytokine levels and acute graft-versus-host disease after HLA-identical hematopoietic stem cell transplantation. Exp Hematol 2003; 31: 1044-1050.
  • 31 Xun CQ, Thompson JS, Jennings CD. et al. Effect of total body irradiation, busulfan-cyclophospha- mide, or cyclophosphamide conditioning on inflammatory cytokine release and development of acute and chronic graft-versus-host disease in H-2-incompatible transplanted SCID mice. Blood 1994; 83: 2360-2367.