In recent years, antibody therapeutics have been widely and successfully
used in treating cancer. Antibodies that specifically bind tumor surface antigens can
also be used as therapeutics, and over 35 of them are in clinical use (e.g. trastuzumab,
bevacizumab and cetuximab). However, some unmodified antibodies against tumorspecific
antigens lack therapeutic activity. Conjugation to cytotoxic agents can increase
the antibodies’ activity and, at the same time, enable extremely cytotoxic drugs to be
used.
Antibody-delivered drugs and toxins are poised to become important classes of cancer
therapeutics. These biopharmaceuticals have potential in this field, as they can
selectively direct highly potent cytotoxic agents to cancer cells that present tumorassociated
surface markers, thereby minimizing systemic toxicity. The activity of some
conjugates is of particular interest receiving increasing attention, thanks to very
promising clinical trial results in hematologic cancers. Over forty antibody-drug
conjugates and six immunotoxins now in clinical trials, as well as some recently
approved drugs, support the maturity of this approach.
This chapter focuses on recent advances in the development of these two classes of
biopharmaceuticals: conventional toxins and anticancer drugs are described, together
with their mechanisms of action. The processes of conjugation and purification, as
reported in the literature and in several patents, are discussed and the most relevant
results in clinical trials are listed. Innovative technologies and preliminary results on
novel drugs and toxins, as reported in the literature and in recently-published patents
(up to January 2015) are lastly examined.
Keywords: Alpha-amanitin, antibody-drug conjugate, anticancer agents,
auristatins, calicheamicins, cancer, clinical trials, conjugation strategy, crosslinkers,
diphtheria toxin, doxorubicin, duocarmycins, immunotoxin, maytansinoids,
pseudomonas exotoxin, pyrrolo[1, 4] benzodiazepines, ribosome inactivating
proteins, SN-38, solid tumors, tubulysin.
