Concept Life Sciences have successfully delivered complex linker and cytotoxic warhead projects for our clients underpinned by our synthetic organic chemistry expertise. As an example, we have developed an optimized process for the large-scale preparation of the crucial MC-Val-Cit-PAB-OH linker in enantiopure fashion. Our specialist SOLO Containment® flexible film isolator allows us to safely handle a suite of typical OEB5 level cytotoxins employed in ADC research. ADCs with drug-antibody ratios (DAR) of 1 – 6 have successfully been prepared by utilizing cutting-edge bioconjugation technology. In addition, we use Malvern Panalytical's world-leading analytical instrumentation including the OMNISEC and Zetasizer Ultra for assessment of ADC aggregation profiles.
One of the critical parameters in ADC development is the calculation of DAR. Concept Life Sciences scientists have fully developed protocols allowing the calculation of DAR by mass spectrometry and via ADC digestion followed by subsequent UV-visible absorption (subunit analysis). This second method allows glycoform profiling which is a critical quality attribute when manufacturing antibody containing APIs. Furthermore, our peptide mapping expertise allows us to analyze chemical and post-translational modifications of the antibody and pinpoint drug binding sites. We also have procedures to measure the in vitro metabolic stability of ADCs which can vary with linker, antibody, drug binding site and bioconjugation method.
Concept Life Sciences has the capacity to monitor the effect of antibodies and ADCs against target antigen-expressing and nontarget antigen-expressing cell lines to study ADC specificity on cell metabolism by an MTT assay and their time dependent effect on apoptosis using an IncuCyte® (Figure 3). We have successfully shown that treatment of Trastuzumab-based ADCs on highly expressing human epidermal growth factor receptor 2 (HER2) cells results in reduced cellular metabolic activity and apoptosis at lower concentrations than against non-expressing HER2 cells. Indeed, the IncuCyte® allows for time lapse imaging of cells in culture and automated image analysis without disturbing the culture well, to assess changes during an experimental period from simple cell growth and death, to biological processes of migration and phagocytosis to name a few, many of which have traditionally been done with end point readouts.
Supporting your ADC projects
Concept Life Sciences has the knowledge, skills and capacity to offer a range of solutions to help our clients expedite the progression of their ADC projects, with analytical expertise and advanced analytical instrumentation. Our team of experienced scientists, with depth and breadth of knowledge and expertise, share your passion for delivering science.