Abstract
Drug resistance remains a major clinical obstacle to successful treatment of cancer. As posttranslational modification is becoming widely recognized to affect the function of oncoproteins, targeting specific posttranslational protein modification provides an attractive strategy for anticancer drug development. CD147 is a transmembrane glycoprotein contributing to chemo-resistance of cancer cells in a variety of human malignancies. Ubiquitination is an important posttranslational modification mediating protein degradation. Degradation of oncoproteins, CD147 included, emerges as an attractive alternative for tumor inhibition. However, the ubiquitination of CD147 remains elusive. Here in this study, we found that deletion of the CD147 intracellular domain (CD147-ICD) prolonged the half-life of CD147 in HEK293T cells, and we identified that CD147-ICD interacts with FBXO22 using mass spectrometry and Western blot. Then, we demonstrated that FBXO22 mediates the polyubiquitination and degradation of CD147 by recognizing CD147-ICD. While knocking down of FBXO22 prolonged the half-life of CD147 in HEK293T cells, we found that FBXO22 regulates CD147 protein turnover in SMMC-7721, Huh-7 and A549 cells. Moreover, we found that the low level of FBXO22 contributes to the accumulation of CD147 and thereafter the cisplatin resistance of A549/DDP cells. To conclude, our study demonstrated that FBXO22 mediated the polyubiquitination and degradation of CD147 by interacting with CD147-ICD, and CD147 polyubiquitination by FBXO22 reversed cisplatin resistance of tumor cells.
Highlights
Chemotherapy presently is the core of anticancer treatment, and the development of targeted cancer therapies has advanced the treatment of various cancers with improved antitumor efficacy and specificity
CD147 is distributed on the cell membrane, and membrane CD147 could be internalized through an ARF6-related clathrin-independent endocytosis (CIE) pathway [12]
Membrane proteins internalized through ARF6-related CIE pathway accumulated in this special structure
Summary
Chemotherapy presently is the core of anticancer treatment, and the development of targeted cancer therapies has advanced the treatment of various cancers with improved antitumor efficacy and specificity. The drug resistance is proposed to be facilitated by a small number of pre-existing cancer cells that are intrinsically resistant or poised to adapt to drug treatment quickly and responsible for tumor initiation, progression, relapse and metastasis, resulting in tumor recurrence [2,3]. Numerous posttranslational protein modifications including glycosylation, ubiquitination, and even phosphorylation are reported to regulate the expression and function of CD147 [5,8,9]. A balance between ubiquitination and deubiquitination exists in the cell that determines the fate of internalized proteins: recycling to the membrane versus trafficking to the lysosome [14]. Ubiquitination of CD147 seems to play a critical role in determining the cell membrane expression level and thereafter the function of CD147. The mechanism and significance of CD147 ubiquitination remains elusive
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