PURPOSE: Hypoxia-inducible factor 1 (HIF-1) promotes cancer cell survival and tumor progression. The specific role played by HIF-1 and tumor-stromal interactions toward determining tumor resistance to radiation treatment remains undefined. We applied a multimodality preclinical imaging platform to mechanistically characterize tumor response to radiation, with a focus on HIF-1-dependent resistance pathways. METHODS: C6 glioma and HN5 human squamous carcinoma cells were stably transfected with a dual HIF-1 signaling reporter construct (dxHRE-tk/eGFP-cmvRed2XPRT). Reporter cells were serially interrogated in vitro before and after irradiation as monolayer and multicellular spheroid cultures and as subcutaneous xenografts in nu/nu mice. RESULTS: In vitro, single-dose irradiation of C6 and HN5 reporter cells modestly impacted HIF-1 signaling in normoxic monolayers and inhibited HIF-1 signaling in maturing spheroids. In contrast, irradiation of C6 or HN5 reporter xenografts with 8 Gy in vivo elicited marked upregulation of HIF-1 signaling and downstream proangiogenic signaling at 48 hours which preceded recovery of tumor growth. In situ ultrasound imaging and dynamic contrast-enhanced (DCE) MRI indicated that HIF-1 signaling followed acute disruption of stromal vascular function. High-resolution positron emission tomography and dual-contrast DCE-MRI of immobilized dorsal skin window tumors confirmed postradiotherapy HIF-1 signaling to spatiotemporally coincide with impaired stromal vascular function. Targeted disruption of HIF-1 signaling established this pathway to be a determinant of tumor radioresistance. CONCLUSIONS: Our results illustrate that tumor radioresistance is mediated by a capacity to compensate for stromal vascular disruption through HIF-1-dependent proangiogenic signaling and that clinically relevant vascular imaging techniques can spatially define mechanisms associated with tumor irradiation.
PURPOSE:Hypoxia-inducible factor 1 (HIF-1) promotes cancer cell survival and tumor progression. The specific role played by HIF-1 and tumor-stromal interactions toward determining tumor resistance to radiation treatment remains undefined. We applied a multimodality preclinical imaging platform to mechanistically characterize tumor response to radiation, with a focus on HIF-1-dependent resistance pathways. METHODS: C6 glioma and HN5humansquamous carcinoma cells were stably transfected with a dual HIF-1 signaling reporter construct (dxHRE-tk/eGFP-cmvRed2XPRT). Reporter cells were serially interrogated in vitro before and after irradiation as monolayer and multicellular spheroid cultures and as subcutaneous xenografts in nu/nu mice. RESULTS: In vitro, single-dose irradiation of C6 and HN5 reporter cells modestly impacted HIF-1 signaling in normoxic monolayers and inhibited HIF-1 signaling in maturing spheroids. In contrast, irradiation of C6 or HN5 reporter xenografts with 8 Gy in vivo elicited marked upregulation of HIF-1 signaling and downstream proangiogenic signaling at 48 hours which preceded recovery of tumor growth. In situ ultrasound imaging and dynamic contrast-enhanced (DCE) MRI indicated that HIF-1 signaling followed acute disruption of stromal vascular function. High-resolution positron emission tomography and dual-contrast DCE-MRI of immobilized dorsal skin window tumors confirmed postradiotherapy HIF-1 signaling to spatiotemporally coincide with impaired stromal vascular function. Targeted disruption of HIF-1 signaling established this pathway to be a determinant of tumor radioresistance. CONCLUSIONS: Our results illustrate that tumor radioresistance is mediated by a capacity to compensate for stromal vascular disruption through HIF-1-dependent proangiogenic signaling and that clinically relevant vascular imaging techniques can spatially define mechanisms associated with tumor irradiation.
Authors: Mitomu Kioi; Hannes Vogel; Geoffrey Schultz; Robert M Hoffman; Griffith R Harsh; J Martin Brown Journal: J Clin Invest Date: 2010-02-22 Impact factor: 14.808
Authors: James L Tatum; Gary J Kelloff; Robert J Gillies; Jeffrey M Arbeit; J Martin Brown; K S Clifford Chao; J Donald Chapman; William C Eckelman; Anthony W Fyles; Amato J Giaccia; Richard P Hill; Cameron J Koch; Murali Cherukuri Krishna; Kenneth A Krohn; Jason S Lewis; Ralph P Mason; Giovanni Melillo; Anwar R Padhani; Garth Powis; Joseph G Rajendran; Richard Reba; Simon P Robinson; Gregg L Semenza; Harold M Swartz; Peter Vaupel; David Yang; Barbara Croft; John Hoffman; Guoying Liu; Helen Stone; Daniel Sullivan Journal: Int J Radiat Biol Date: 2006-10 Impact factor: 2.694
Authors: Thomas E Yankeelov; Kenneth J Niermann; Jessica Huamani; Dong W Kim; Christopher C Quarles; Arthur C Fleischer; Dennis E Hallahan; Ronald R Price; John C Gore Journal: J Ultrasound Med Date: 2006-04 Impact factor: 2.153
Authors: D M Brizel; S P Scully; J M Harrelson; L J Layfield; J M Bean; L R Prosnitz; M W Dewhirst Journal: Cancer Res Date: 1996-03-01 Impact factor: 12.701
Authors: Kenneth J Niermann; Arthur C Fleischer; Jessica Huamani; Thomas E Yankeelov; Dong W Kim; Wendy D Wilson; Dennis E Hallahan Journal: J Ultrasound Med Date: 2007-06 Impact factor: 2.153
Authors: I Gde Sastra Winata; Yudi Mulyana Hidayat; Gatot Nyarumenteng Winarno; Dodi Suardi; Setiawan Soetopo; Ketut Suwiyoga Journal: Asian Pac J Cancer Prev Date: 2019-07-01