Abstract
Targeted cancer therapy includes, amongst others, antibody-based delivery of toxic payloads to selectively eliminate tumor cells. This payload can be either a synthetic small molecule drug composing an antibody-drug conjugate (ADC) or a cytotoxic protein composing an immunotoxin (IT). Non-human cytotoxic proteins, while potent, have limited clinical efficacy due to their immunogenicity and potential off-target toxicity. Humanization of the cytotoxic payload is essential and requires harnessing of potent apoptosis-inducing human proteins with conditional activity, which rely on targeted delivery to contact their substrate. Ribonucleases are attractive candidates, due to their ability to induce apoptosis by abrogating protein biosynthesis via tRNA degradation. In fact, several RNases of the pancreatic RNase A superfamily have shown potential as anti-cancer agents. Coupling of a human RNase to a humanized antibody or antibody derivative putatively eliminates the immunogenicity of an IT (now known as a human cytolytic fusion protein, hCFP). However, RNases are tightly regulated in vivo by endogenous inhibitors, controlling the ribonucleolytic balance subject to the cell’s metabolic requirements. Endogenous inhibition limits the efficacy with which RNase-based hCFPs induce apoptosis. However, abrogating the natural interaction with the natural inhibitors by mutation has been shown to significantly enhance RNase activity, paving the way toward achieving cytolytic potency comparable to that of bacterial immunotoxins. Here, we review the immunoRNases that have undergone preclinical studies as anti-cancer therapeutic agents.
Highlights
Introduction to Targeted Therapy and ImmunotoxinsSelective cytotoxicity is the holy grail of targeted anti-cancer therapy
Granzyme B (GrB), a cytolytic protein unleashed upon cells that are designated for elimination by cytotoxic T-lymphocytes [57], has recently featured as a human cytolytic fusion proteins (hCFPs) effector
RNases play a crucial role in cellular biosynthesis and are tightly regulated by endogenous inhibitors, in subcellular compartments where their unchecked activity may be detrimental to cell survival
Summary
With recent developments in antibody technologies, target-cell selectivity has been demonstrated with monoclonal antibodies and derivatives thereof When these targeting components are armed with apoptosis-inducing effectors, such as chemotherapeutic drugs, small molecule toxins or cytotoxic peptides, the resultant chimeric proteins have exhibited enhanced tumor-specificity in comparison with the toxic agents on their own [1]. The majority of candidate drugs currently in clinical application disrupt the cell cycle by inducing DNA damage in one way or another, which triggers apoptotic signaling [3] This can be counterintuitive, as chemo- and radiotherapy are highly mutagenic, which poses the risk of increased resistance in tumors with mutated p53 [4,5]. This review focuses on the recent developments in the field of recombinant immunotherapeutics with RNases as cytotoxic effector components
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