BACKGROUND: Malignancy is a dreaded complication of organ transplantation. Immunosuppressive drug therapy-induced impairment of the organ graft recipient's immune surveillance is considered to be the mechanism for the heightened incidence and metastatic progression. We identified a cell-autonomous and host-immunity independent mechanism for cyclosporine-associated tumor progression. In this study, we investigated the effect of rapamycin on tumor progression, in the presence and absence of cyclosporine. METHODS: A spontaneously arising renal adenocarcinoma (renal cancer) of BALB/c origin was used as the model tumor. The effect of rapamycin on renal cancer cell phenotype, molecules (E-cadherin, p27 kip1, cyclin D1) implicated in tumor progression, and the effect of rapamycin on in vivo tumor progression were explored in BALB/c mice and in T-cell, B-cell, and natural killer (NK) cell-deficient severe combined immune deficiency (SCID)-beige mice. In the SCID-beige mice, T24 human bladder transitional cell carcinoma also was used as the tumor inoculum. RESULTS: Rapamycin conditioning of renal cancer cells upregulated E-cadherin expression and induced phenotypic transition from invasive spindle, or dome-shaped cells, with exploratory pseudopodia to noninvasive cuboidal cells that formed cell-to-cell adhesions. Rapamycin increased p27 kip1, reduced cyclinD1, and arrested the growth of renal cancer cells in G1/S phase. In vivo, rapamycin prevented tumor growth and metastatic progression in syngeneic BALB/c or SCID-beige mice, and in BALB/c or SCID-beige mice treated with cyclosporine. Rapamycin treatment alone, or with cyclosporine, prolonged the survival of mice inoculated with renal cancer cells or T24 human bladder cancer cells. CONCLUSIONS: Our findings, in addition to unlinking mechanisms of immunosuppression from that of tumor progression, suggest that rapamycin may be of value for the management of posttransplant malignancy.
BACKGROUND:Malignancy is a dreaded complication of organ transplantation. Immunosuppressive drug therapy-induced impairment of the organ graft recipient's immune surveillance is considered to be the mechanism for the heightened incidence and metastatic progression. We identified a cell-autonomous and host-immunity independent mechanism for cyclosporine-associated tumor progression. In this study, we investigated the effect of rapamycin on tumor progression, in the presence and absence of cyclosporine. METHODS: A spontaneously arising renal adenocarcinoma (renal cancer) of BALB/c origin was used as the model tumor. The effect of rapamycin on renal cancer cell phenotype, molecules (E-cadherin, p27 kip1, cyclin D1) implicated in tumor progression, and the effect of rapamycin on in vivo tumor progression were explored in BALB/c mice and in T-cell, B-cell, and natural killer (NK) cell-deficient severe combined immune deficiency (SCID)-beige mice. In the SCID-beige mice, T24 human bladder transitional cell carcinoma also was used as the tumor inoculum. RESULTS:Rapamycin conditioning of renal cancer cells upregulated E-cadherin expression and induced phenotypic transition from invasive spindle, or dome-shaped cells, with exploratory pseudopodia to noninvasive cuboidal cells that formed cell-to-cell adhesions. Rapamycin increased p27 kip1, reduced cyclinD1, and arrested the growth of renal cancer cells in G1/S phase. In vivo, rapamycin prevented tumor growth and metastatic progression in syngeneic BALB/c or SCID-beige mice, and in BALB/c or SCID-beige mice treated with cyclosporine. Rapamycin treatment alone, or with cyclosporine, prolonged the survival of mice inoculated with renal cancer cells or T24 humanbladder cancer cells. CONCLUSIONS: Our findings, in addition to unlinking mechanisms of immunosuppression from that of tumor progression, suggest that rapamycin may be of value for the management of posttransplant malignancy.
Authors: Andreas A Schnitzbauer; Carl Zuelke; Christian Graeb; Justine Rochon; Itxarone Bilbao; Patrizia Burra; Koert P de Jong; Christophe Duvoux; Norman M Kneteman; Rene Adam; Wolf O Bechstein; Thomas Becker; Susanne Beckebaum; Olivier Chazouillères; Umberto Cillo; Michele Colledan; Fred Fändrich; Jean Gugenheim; Johann P Hauss; Michael Heise; Ernest Hidalgo; Neville Jamieson; Alfred Königsrainer; Philipp E Lamby; Jan P Lerut; Heikki Mäkisalo; Raimund Margreiter; Vincenzo Mazzaferro; Ingrid Mutzbauer; Gerd Otto; Georges-Philippe Pageaux; Antonio D Pinna; Jacques Pirenne; Magnus Rizell; Giorgio Rossi; Lionel Rostaing; Andre Roy; Victor Sanchez Turrion; Jan Schmidt; Roberto I Troisi; Bart van Hoek; Umberto Valente; Philippe Wolf; Heiner Wolters; Darius F Mirza; Tim Scholz; Rudolf Steininger; Gunnar Soderdahl; Simone I Strasser; Karl-Walter Jauch; Peter Neuhaus; Hans J Schlitt; Edward K Geissler Journal: BMC Cancer Date: 2010-05-11 Impact factor: 4.430
Authors: Prudence B Lam; Laura N Burga; Bryan P Wu; Erin W Hofstatter; Kun Ping Lu; Gerburg M Wulf Journal: Mol Cancer Date: 2008-12-15 Impact factor: 27.401