Exploring the role of endothelium in the tumour response to anti-angiogenic therapy.

A chronic hyperactivated angiogenic state in cancer plays an important role in tumour growth and metastasis and has been identified as one of the hallmarks of cancer. Inhibition of this process has been associated with tumour suppression in many pre-clinical contexts using different animal tumour models. Anti-angiogenic therapeutics were subsequently developed and used to treat several prevalent types of human cancer. However, recent clinical experience has revealed limitations of this approach in treating cancer as patient response varies over a wide range. Given that there are complex underlying molecular and cellular changes provoked by anti-angiogenic treatment within the tumour microenvironment (TME), it is not surprising that modest effectiveness and resistance have been observed in the clinical setting. This article discusses these issues in the context of VEGF-A-targeted anti-angiogenic treatment of cancer and provides insight into the importance of tumour endothelium for understanding the tumour response to anti-angiogenic therapy. Special consideration is also given to possible approaches for investigating how endothelium contributes to the tumour response to anti-angiogenic agents and for exploring the therapeutic and biomarker potential of targeting tumour endothelium.

Expression and purification of bioactive, low-endotoxin recombinant human vitronectin.

The secreted adhesive glycoprotein vitronectin (VTN) is a multifunctional component of plasma and the extracellular matrix. A high-yielding, inexpensive, low endotoxin source of bioactive recombinant human vitronectin (rhVTN) is highly desirable for in vitro use in diverse cell culture systems ranging from basic research settings to clinical-grade production of human cells. We describe modifications to a previously reported heparin-based affinity chromatography procedure that improve yield and achieve efficient removal of endotoxin from washed and urea-solubilized human VTN inclusion bodies following standard autoinduction of expression in Escherichia coli. This simple procedure makes accessible the low-cost expression and purification of large quantities of bioactive rhVTN using basic equipment and facilitates its use in a spectrum of endotoxin-sensitive applications.