Apt-clean: Aptamer-mediated cleavage of extracellular antigen, a new strategy for the inhibition of membrane protein functions

Recently, targeted protein degradation (TPD) has attracted much attention as a powerful strategy for effective inhibition of disease-related proteins. However, development of ligands with high affinity and specificity for a target protein is still a demanding task and poses a particular challenge for designing TPD therapeutics. In this work, we report a novel TPD strategy called aptamer-mediated cleavage of extracellular antigen (Apt-clean), where oligonucleotide-based affinity agents are used for selective recruitment of proteases to target membrane proteins. Our data demonstrate that Apt-clean induces selective degradation of the target protein both in vitro and in cellulo. In addition, potential of Apt-clean was demonstrated through the inhibition of a tumor-related growth factor signaling. This novel TPD modality may serve as an efficient and flexible strategy for targeting membrane proteins

A DNA Aptamer That Inhibits the Formation of Unliganded Receptor Dimer and Ligand-Independent Signaling in Cancer Cells

Growth factor receptors are activated through dimerization by the binding of their ligands and play pivotal roles in normal cell function. However, in cancer cells, the overexpression of receptors often causes the formation of unliganded receptor dimers, which can be activated in a ligand-independent manner. Thus, the unliganded receptor dimer is a promising target to inhibit aberrant signaling in cancer. Here, we report an aptamer that inhibits ligand-independent receptor activation via preventing the formation of unliganded receptor dimer. By biasing the receptor monomer–dimer equilibrium to the monomer, this aptamer inhibited aberrant cell signaling caused by the unliganded receptor dimer. This work presents a new possibility of oligonucleotide-based therapeutics for cancer.</p