Spatial morphological and molecular differences within solid tumors may contribute to the failure of vascular disruptive agent treatments
AuthorLinh, N; Fifis, T; Malcontenti-Wilson, C; Chan, LS; Costa, PLN; Nikfarjam, M; Muralidharan, V; Christophi, C
Source TitleBMC CANCER
PublisherBIOMED CENTRAL LTD
University of Melbourne Author/sMALCONTENTI-WILSON, CATERINA; Costa, Patricia; Nikfarjam, Mehrdad; Muralidharan, Vijayaragavan; Christophi, Christopher; Nguyen, Linh; Fifis, Theodora; CHAN, LISA
AffiliationSurgery (Austin & Northern Health)
Document TypeJournal Article
CitationsLinh, N; Fifis, T; Malcontenti-Wilson, C; Chan, LS; Costa, PLN; Nikfarjam, M; Muralidharan, V; Christophi, C, Spatial morphological and molecular differences within solid tumors may contribute to the failure of vascular disruptive agent treatments, BMC CANCER, 2012, 12
Access StatusOpen Access
Open Access at PMChttp://www.ncbi.nlm.nih.gov/pmc/articles/PMC3583184
NHMRC Grant codeNHMRC/400190
BACKGROUND: Treatment of solid tumors with vascular disrupting agent OXi4503 results in over 90% tumor destruction. However, a thin rim of viable cells persists in the tumor periphery following treatment, contributing to subsequent recurrence. This study investigates inherent differences in the microenvironment of the tumor periphery that contribute to treatment resistance. METHODS: Using a murine colorectal liver metastases model, spatial morphological and molecular differences within the periphery and the center of the tumor that may account for differences in resistance to OXi4503 treatment were investigated. H&E staining and immunostaining were used to examine vessel maturity and stability, hypoxia and HIF1α levels, accumulation of immune cells, expression of proangiogenic factors/receptors (VEGF, TGF-β, b-FGF, and AT1R) and expression of EMT markers (ZEB1, vimentin, E-cadherin and β-catenin) in the periphery and center of established tumors. The effects of OXi4503 on tumor vessels and cell kinetics were also investigated. RESULTS: Significant differences were found between tumor periphery and central regions, including association of the periphery with mature vessels, higher accumulation of immune cells, increased growth factor expression, minimal levels of hypoxia and increased evidence of EMT. OXi4503 treatment resulted in collapse of vessels in the tumor center; however vasculature in the periphery remained patent. Similarly, tumor apoptosis and proliferation were differentially modulated between centre and periphery after treatment. CONCLUSIONS: The molecular and morphological differences between tumor periphery and center may account for the observed differential resistance to OXi4503 treatment and could provide targets for drug development to totally eliminate metastases.
KeywordsVascular disruptive agent; OXi4503; Tumor periphery; Hypoxia; Growth factor; Infiltrating cells; EMT; Vascular disruptive agent; OXi4503; Tumor periphery; Hypoxia; Growth factor; Infiltrating cells; EMT
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