The non-natural cysteine aminoacid tagged with a cyclobutene moiety was synthesized and characterized. The IEDDA reaction between the cyclobutene moiety and different tetrazines was characterised by NMR and kinetics were measured by UV absorbance. However, the tag could not be introduced in the protein C2Am, possibly due to the fact that the cyclobutene ring is not stable in the alkylation reactions. Different proteins and alkylation conditions were tested with no positive results.
At this point, a change in my approach was needed, so I envised a small-molecule cyclobutene conjugate to interrogate key biological aspects of cancer. As a small molecule I selected azetolamide, a ligand of carbonic anhydrase IX. Carbonic anhydrase IX is a membrane protein overexpressed in several cancers, including lung, stomach, pancreas or brain. Besides the ubiquitous presence of this protein in cancer, there is still some controversy about whether this molecule is internalised or not upon ligand binding. In order to answer this question, an azetolamide-cyclobutene conjugate was designed and synthesized. As an IEDDA partner for this conjugate a tetrazine-bodipy was synthesized. The bodipy selected had been previously used for super-resolution microscopy and we expect that the reaction between the azelotamide-cyclobutene conjugate and the tetrazine-bodipy in cells will help us to deepen our knowledge of carbonic anhydrase IX.