A Dual Recognition Strategy For Accurate Detection Of Ctcs Based On Novel Branched PtAuRh Trimetallic Nanospheres

Accurate detection of circulating tumor cells（CTCs）has a pivotal role in the metastasis monitoring and prognosis of tumor.In this work,an ultrasensitive electrochemical cytosensor was developed based on excellent electrocatalytic materials and a dual recognition strategy.Herein,novel branched PtAuRh trimetallic nanospheres（b-PtAuRh TNS）were synthesized for the first time by a facile one-pot method,which had a huge specific surface area and outstanding catalytic activity.B-PtAuRh TNS linked with aptamers targeting mucin1（MUC1）were served as signal tags to amplify the signal.As electrode modified material,the nanocomposites of Cabot carbon black（BP2000）and Au NPs were used to improve the electron transfer efficiency of electrode.In addition to using b-PtAuRh TNS labeled anti-MUC1 aptamers as signal probes,anti-EpCAM antibodies were worked as capture probes to achieve dual recognition of target cells.In other words,only cells expressing both MUC1 and EpCAM could produce electrochemical signal.The constructed cytosensor presented a wide linear range(5-1×10⁶cells m L^-1)and a low detection limit(1 cell m L^-1).It was worth noting that the proposed cytosensor could detect CTCs in clinical blood samples.To sum up,the developed cytosensor might become a promising detection platform for cancer diagnosis and tumor metastasis.