BACKGROUND/ PURPOSE: Neuroblastoma and Wilms tumor exhibit different patterns of metastasis, invasion, and therapeutic response. Vascular endothelial growth factor (VEGF) is an angiogenic factor expressed in both tumors. The authors hypothesized that because the clinical behavior of these tumors differs, the response to anti-VEGF therapy would be distinct, and tumor vascular architectures would reflect this distinction. METHODS: Xenografts were induced by intrarenal injection of cultured cells in athymic mice. After 1 week, anti-VEGF antibody or vehicle were administered for 5 weeks before sacrifice. Additional animals were maintained for 3 weeks after termination of antibody injections to assess rebound growth of tumors. Fluorescein angiography was performed in selected animals. RESULTS: Neuroblastoma control and treated tumor weights were not significantly different (1.48 g v 0.77 g, P =.34). By comparison, as previously reported, antibody-treated Wilms tumors were growth inhibited. Angiograms of treated (but not control) neuroblastomas displayed novel rounded structures at vessel branches, which the authors term terminal vascular bodies (TVBs). Wilms tumor vessels displayed no such alteration. CONCLUSIONS: Neuroblastoma xenografts are less effectively suppressed by anti-VEGF antibody than Wilms tumors. Neuroblastoma vascular architecture displays a novel alteration during antibody administration, which attenuates when antibody is withdrawn. These studies suggest that angiogenesis is differently regulated in experimental neuroblastoma and Wilms tumor.
BACKGROUND/ PURPOSE:Neuroblastoma and Wilms tumor exhibit different patterns of metastasis, invasion, and therapeutic response. Vascular endothelial growth factor (VEGF) is an angiogenic factor expressed in both tumors. The authors hypothesized that because the clinical behavior of these tumors differs, the response to anti-VEGF therapy would be distinct, and tumor vascular architectures would reflect this distinction. METHODS: Xenografts were induced by intrarenal injection of cultured cells in athymic mice. After 1 week, anti-VEGF antibody or vehicle were administered for 5 weeks before sacrifice. Additional animals were maintained for 3 weeks after termination of antibody injections to assess rebound growth of tumors. Fluorescein angiography was performed in selected animals. RESULTS:Neuroblastoma control and treated tumor weights were not significantly different (1.48 g v 0.77 g, P =.34). By comparison, as previously reported, antibody-treated Wilms tumors were growth inhibited. Angiograms of treated (but not control) neuroblastomas displayed novel rounded structures at vessel branches, which the authors term terminal vascular bodies (TVBs). Wilms tumor vessels displayed no such alteration. CONCLUSIONS:Neuroblastoma xenografts are less effectively suppressed by anti-VEGF antibody than Wilms tumors. Neuroblastoma vascular architecture displays a novel alteration during antibody administration, which attenuates when antibody is withdrawn. These studies suggest that angiogenesis is differently regulated in experimental neuroblastoma and Wilms tumor.
Authors: Jürgen Becker; Helena Pavlakovic; Fabian Ludewig; Fabiola Wilting; Herbert A Weich; Romulo Albuquerque; Jayakrishna Ambati; Jörg Wilting Journal: Clin Cancer Res Date: 2010-02-23 Impact factor: 12.531
Authors: AeRang Kim; Brigitte C Widemann; Mark Krailo; Nalini Jayaprakash; Elizabeth Fox; Brenda Weigel; Susan M Blaney Journal: Pediatr Blood Cancer Date: 2015-04-27 Impact factor: 3.167
Authors: Eugene S Kim; Anna Serur; Jianzhong Huang; Christina A Manley; Kimberly W McCrudden; Jason S Frischer; Samuel Z Soffer; Laurence Ring; Tamara New; Stephanie Zabski; John S Rudge; Jocelyn Holash; George D Yancopoulos; Jessica J Kandel; Darrell J Yamashiro Journal: Proc Natl Acad Sci U S A Date: 2002-08-12 Impact factor: 11.205