Severe acute respiratory syndrome coronavirus 2 ( SARS-CoV-2 ) causes Coronavirus disease 2019 ( COVID-19 ) and global pandemic. Therefore, understanding the interaction between viruses and their hosts is beneficial for the development of antiviral drugs. The SARS-CoV-2 3CL protease is a protein translated from the open reading frame (ORF1a) in the viral genome. It has a molecular weight of 33 kDa and possesses Cysteine activity. Its structure contains a catalytic dyad formed by Histidine 41 ( His 41 ) and Cysteine 145 ( Cys145 ). Other research demonstrated that 3CL protease can cleavage viral polyprotein to help viral replication and it is highly conserved in β-coronaviruses. Therefore, it has been recognized as a key target for preventing and treating COVID-19. Increasing evidence demonstrated that 3CL protease can cleavage host proteins and further affect host immune response and viral replication. However, the detailed mechanism of how the SARS-CoV-2 3CL protease and host proteins affect viral replication is still unknown. Therefore, this study wants to identify which host proteins can be cleaved by the SARS-CoV-2 3CL protease and investigate the mechanism of viral replication and host. The main focus of the paper is divided into three parts to establish the cleavage system of the 3CL protease.. The first part involves the establishment of an in vitro cleavage system. Firstly, we constructed a 3CL protease expression plasmid with proteinase activity and a 3CL-C145A protease expression plasmid without proteinase activity. Subsequently, we purified the 3CL protein using the Escherichia coli system. Enzymatic activity assays are performed to evaluate the activity of the 3CL protein, as well as to test different in vitro cleavage buffer systems using known host proteins p62, SNX6 and DCP1A, which can be cleaved by SARS-CoV-2 3CL protease. The results indicate that the optimal in vitro cleavage system for us was to incubate 250 ug of Calu-3 cell lysate with in vitro cleavage buffer A and 10 μg of SARS-CoV-2-3CL-WT and SARS-CoV-2-3CL-C145A proteins together at 37°C for 12 hours. Subsequently, samples from this reaction condition were sent for Mass spectrometry analysis to identify host proteins that can be cleavage by the 3CL protease. The second part involves the establishment of a cell model in 293TACE2 cells to overexpress the SARS-CoV-2-3CL and SARS-CoV-2-3CL-C145A plasmids. This allows the observation whether there is protein degradation of host proteins p62, SNX6, and DCP1A.. The results show that when 3CL is overexpressed, DCP1A exhibits the expected cleavage products, while p62 and SNX6 remain unaffected. The third part investigates the occurrence of cleavage in cell models infected with the virus. It is found that when CaLu-3 cells are infected with 0.1 MOI SARS-CoV-2 for 24 and 48 hours, the protein levels of p62, SNX6 and DCP1A decreased. Similarly, when A549 cells are infected with 0.1 MOI HCoV-229E for 24 and 48 hours also results in decreased protein levels of p62 and SNX6, accompanied by the appearance of cleavage products in DCP1A. Based on the results of this study, we have established an in vitro and in vivo cleavage system for the 3CL protein. This system will be beneficial for investigating the mechanisms underlying the interaction between the virus and the host.