Abstract
Simple SummaryDrug conjugates, consisting of a tumor targeting part coupled to a highly toxic molecule, are promising for treatment of many different types of cancer. However, for many patients it is not curative, and investigation of alternative or complimentary types of drug conjugates is motivated. Here, we have devised and studied a novel cancer cell-directed drug conjugate ZHER2:2891-ABD-E3-mcDM1. We found that it could induce efficient shrinkage and, in some cases, complete regression of human tumors implanted in mice, and thus holds promise to become a therapeutic agent for clinical use in the future.The human epidermal growth factor receptor 2 (HER2) is frequently overexpressed in a variety of cancers and therapies targeting HER2 are routinely used in the clinic. Recently, small engineered scaffold proteins, such as affibody molecules, have shown promise as carriers of cytotoxic drugs, and these drug conjugates may become complements or alternatives to the current HER2-targeting therapies. Here, we investigated if a monovalent HER2-binding affibody molecule, ZHER2:2891, fused with a plasma half-life extending albumin binding domain (ABD), may be used as carrier of the cytotoxic maytansine derivate mcDM1. We found that the resulting drug conjugate, ZHER2:2891-ABD-E3-mcDM1, had strong affinity for its cognate molecular targets: HER2 and serum albumin. ZHER2:2891-ABD-E3-mcDM1 displayed potent cytotoxic activity towards cells with high HER2 expression, with IC50 values ranging from 0.6 to 33 nM. In vivo, an unspecific increase in uptake in the liver, imparted by the hydrophobic mcDM1, was counteracted by incorporation of hydrophilic and negatively charged glutamate residues near the site of mcDM1 conjugation. A dose-escalation experiment showed that increasing doses up to 15.1 mg/kg gave a proportional increase in uptake in xenografted HER2-overexpressing SKOV3 tumors, after which the tumors became saturated. Experimental therapy with four once-weekly injection of 10.3 or 15.1 mg/kg led to efficient regression of tumors in all animals and complete regression in some. Weight loss was detected for some animals in the group receiving the highest dose, suggesting that it was close to the maximum tolerated dose. In conclusion, the monovalent HER2-targeting affibody drug conjugate presented herein have potent anti-tumor activity in vivo.
Highlights
An emerging trend in recent years has been the development of targeted drug conjugates, where a targeting domain is coupled to a cytotoxic drug, allowing for selective killing of cancer cells
The affibody-drug conjugates (AffiDCs) in this study were relatively simple to produce, where recomto the monoclonal antibody (mAb) or ADCgenerated format, novel drugs are in need that may either be used in combinabinantly produced fusion proteins in Escherichia coli could be purified with a single affinity tion with standard drugs or even replace them
Our results show that clearance through the kidneys is the predominant route for ZHER2:2891 -albumin binding domain (ABD)-E3 -mcDM1, which could be beneficial if the kidneys are more resistant to the cytotoxic effect of DM1
Summary
An emerging trend in recent years has been the development of targeted drug conjugates, where a targeting domain is coupled to a cytotoxic drug, allowing for selective killing of cancer cells. Several drugs selectively targeting HER2 have been described and one of the first. ADCs approved for clinical use by the US Food and Drug Administration, was trastuzumab emtansine (T-DM1), targeting HER2. It is approved for therapy of metastatic HER2-positive breast cancer, and has been found to significantly increase progression-free survival among patients compared to standard treatment [2]. Most patients treated with T-DM1 eventually progress [2,3], which motivates investigation and development of alternative or complimentary treatment options including novel drugs
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