IGF-IR plays an essential role in the establishment and maintenance of the transformed phenotype of ES cells and interference with the IGF-IR pathways causes reversal of the malignant potential of this neoplasm. In this report, we stably transfected a dominant negative IGF-IR expression plasmid in an ES cell line to determine the effectiveness of this strategy against the in vitro and in vivo growth of ES cells. DXR sensitivity of TC-71 cells expressing dominant negative mutants of IGF-IR was also examined. The mutated IGF-IR that we used carries a mutation in the ATP-binding domain of the intracellular β subunit, while the extracellular, ligand-binding α subunit remains unchanged. Cells carrying the dominant mutant IGF-IR had a marked decrease in proliferation, a significant increase in anoikis-induced apoptosis and a severely reduced ability to form colonies in soft agar. In vivo, when cells carrying dominant negative IGF-IR were injected into nude mice, the tumor formation and metastatic abilities of ES cells were reduced and survival increased. Furthermore, transfected clones showed significantly higher sensitivity to DXR, a major drug in the treatment of ES. These results indicate that the IGF/IGF-IR stimulation of ES cells may be inhibited by expression of mutated IGF-IR on their surfaces and that this strategy may be considered a possible alternative to impair this important target of ES cells, whose therapeutic potential was further confirmed. © 2002 Wiley-Liss, Inc.
Scotlandi K., Avnet S., Benini S., Manara M.C., Serra M., Cerisano V., et al. (2002). Expression of an IGF-I receptor dominant negative mutant induces apoptosis, inhibits tumorigenesis and enhances chemosensitivity in Ewing's sarcoma cells. INTERNATIONAL JOURNAL OF CANCER, 101(1), 11-16 [10.1002/ijc.10537].
Expression of an IGF-I receptor dominant negative mutant induces apoptosis, inhibits tumorigenesis and enhances chemosensitivity in Ewing's sarcoma cells
Scotlandi K.;Avnet S.;Manara M. C.;Lollini P. -L.;De Giovanni C.;Landuzzi L.;Picci P.
2002
Abstract
IGF-IR plays an essential role in the establishment and maintenance of the transformed phenotype of ES cells and interference with the IGF-IR pathways causes reversal of the malignant potential of this neoplasm. In this report, we stably transfected a dominant negative IGF-IR expression plasmid in an ES cell line to determine the effectiveness of this strategy against the in vitro and in vivo growth of ES cells. DXR sensitivity of TC-71 cells expressing dominant negative mutants of IGF-IR was also examined. The mutated IGF-IR that we used carries a mutation in the ATP-binding domain of the intracellular β subunit, while the extracellular, ligand-binding α subunit remains unchanged. Cells carrying the dominant mutant IGF-IR had a marked decrease in proliferation, a significant increase in anoikis-induced apoptosis and a severely reduced ability to form colonies in soft agar. In vivo, when cells carrying dominant negative IGF-IR were injected into nude mice, the tumor formation and metastatic abilities of ES cells were reduced and survival increased. Furthermore, transfected clones showed significantly higher sensitivity to DXR, a major drug in the treatment of ES. These results indicate that the IGF/IGF-IR stimulation of ES cells may be inhibited by expression of mutated IGF-IR on their surfaces and that this strategy may be considered a possible alternative to impair this important target of ES cells, whose therapeutic potential was further confirmed. © 2002 Wiley-Liss, Inc.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.