Pressure from proliferating cells impedes transport of therapeutic drugs into tumours.
Abstract
The delivery of therapeutic drugs to solid tumours may be impaired by structural and functional abnormalities in blood and lymphatic vessels1. Here we provide evidence that proliferating cancer cells cause intratumour vessels to compress and collapse. By reducing this compressive mechanical force and opening vessels, cytotoxic cancer treatments have the potential to increase blood perfusion, thereby improving drug delivery.
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Elevated interstitial fluid pressure — a hallmark of solid tumours — is commonly assumed to compress intratumour vessels. However, the interstitial fluid pressure is about equal to the microvascular pressure in tumours, making it unlikely that the collapse of permeable vessels is mediated by fluid pressure2. We therefore investigated whether proliferating cancer cells might cause compression of tumour vessels and, if so, whether relieving this compression would allow them to open and regain their functionality.
To relieve compression, we targeted tumour cells with diphtheria toxin, which is much less cytotoxic to mouse than to human cells3 (see supplementary information for methods). Diphtheria toxin had no effect on murine tumours (T-241 type), normal murine tissue (liver) or endothelium, but caused apoptosis and time-dependent regression in human-tumour xenografts (HSTS-26T type) grown in mice (results not shown).
We found a greater fraction of blood and lymphatic vessels with an open lumen in diphtheria-toxin-treated human tumours than in controls treated with PBS buffer (Fig. 1a–c). Treatment with diphtheria toxin also causes vessels to have a rounder cross-section in the human tumours but has no effect on vessel morphology in the murine tumours. Compared with collapsed vessels, open vessels are surrounded by fewer cells, suggesting that the local compressive force is lower (Fig. 1d). The diameter of perfused blood vessels increased in the human tumours after treatment with diphtheria toxin and, in contrast to results obtained after treatment with taxane4, a greater fraction of blood vessels were perfused.
These changes in vascular morphology cannot be explained by a difference in collagen I content or in the molecular determinants of blood- and lymphatic-vessel formation and remodelling (namely, vascular endothelial growth factor, vascular endothelial growth factor-C, vascular endothelial growth factor receptor-2, angiopoietin-1 or angiopoietin-2). Vessels associated with smooth-muscle α-actin-expressing cells or with a prominent collagen IV basement membrane are more likely to have an open lumen. Lymphatic vessels are rarely adjacent to smooth-muscle α-actin-expressing cells.
We next tested whether intratumour lymphatic vessels, which are ordinarily non-functional or absent5,6, become functional upon opening. We found, surprisingly, that those inside diphtheria-toxin-treated tumours did not become functional, as judged by fluorescence or ferritin microlymphangiography6. It is possible that tumours permanently damage lymphatic-vessel structures, such as lymphatic endothelial microvalves, or that the lack of pulsatile blood flow in tumours inhibits lymph formation7.
The tumour margin, in which mechanical stress is predicted to be lower (see supplementary information), contained functional lymphatic vessels, as well as a greater fraction of open lymphatics than was found in intratumour regions (data not shown). Regions subject to lower predicted compressive forces thus contain open, functional lymphatics, whereas regions exposed to greater compressive forces contain collapsed, non-functional lymphatic vessels.
The role of a tumour's mechanical micro-environment in its progression and treatment is starting to emerge. For example, compressive forces inhibit tumour cell growth8 and upregulate adhesion molecules9. Clinically, tumours can compress large vessels and the spinal cord.
Our findings indicate that proliferating tumour cells can also cause intratumour vessels to collapse, particularly those without supportive stromal structures, leading to impaired function. Tumour-specific cytotoxic therapy may result in more efficient drug (or nutrient) delivery by decompressing collapsed vessels10. Whether these newly perfused vessels also provide additional routes for metastasis is not yet known.
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Padera, T., Stoll, B., Tooredman, J. et al. Cancer cells compress intratumour vessels. Nature 427, 695 (2004). https://doi.org/10.1038/427695a
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DOI: https://doi.org/10.1038/427695a
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