Abstract
Exosomes facilitate cross-talk amongst tumor cells, and thus also possess the potential to influence tumor-microenvironment and chemo-resistance. miRNAs, the important constituent of exosomes, are often dysregulated in cancer. They have been shown to play an essential role in tumor progression, metastasis, invasion, and resistance developed against different therapies. Acquisition of cisplatin-chemoresistance remains a major hurdle in the effective treatment of oral squamous cell carcinoma (OSCC). In this study, we demonstrate the importance of exosome-mediated miR-30a transfer in conferring cisplatin sensitivity in the otherwise resistant OSCC cells. Notably, miR-30a was found to be significantly reduced in exosomes isolated from the serum of OSCC patients, especially those having disease-recurrence, post cisplatin treatment. In conjunction with the findings in clinical samples, decreased miR-30a expression was observed in vitro in the cisplatin-resistant cultured OSCC cells compared to the cisplatin-sensitive cells. Besides, we identified Beclin1, an autophagy-related marker, as a target of miR-30a and found it to be overexpressed in cisplatin-resistant OSCC cells, thus indicating at its possible negative-regulation by miR30a. Exosomes from the cisplatin-resistant cells that have been transfected with miR-30a mimics, when delivered to the naïve cisplatin-resistant cells, caused not only the significant enhancements in miR-30a expression but also a concomitant decrease in Beclin1 and Bcl2 expression (autophagic and anti-apoptotic marker). More importantly, this together resulted in the sensitization of cisplatin-resistant cells. Thus, our study highlighted the role of exosomal-mediated miR-30a transfer in regaining sensitivity of the cisplatin-resistant OSCC cells via Beclin1 and Bcl2 regulation and hence suggests at its potential therapeutic role.
Highlights
Oral squamous cell carcinoma (OSCC) is the sixth most frequent cancer that affects the human population worldwide [1]
Some of the miRNAs they cargo serve as a critical regulator of cell-cycle, metabolism, proliferation, migration, invasion, angiogenesis and act as a modulator of the tumor microenvironment and chemoresistance [32, 33]
Resistance to anticancer agents is a foremost obstacle to the successful treatment of OSCC, and understanding of the underlying mechanisms is essential for overcoming this therapeutic barrier
Summary
Oral squamous cell carcinoma (OSCC) is the sixth most frequent cancer that affects the human population worldwide [1]. Despite significant developments in the current treatment modalities for OSCC, the diseasefree survival rate has remained poor for the last several decades. Though is a first-line chemotherapeutic drug used for the treatment of OSCC patients [2, 3], acquisition of cisplatin-resistance to date remains a major impediment in its efficacious clinical application. The role of tumor cell derived-exosomes in inhibiting immune-surveillance and bestowing oncogenic transformation has gathered increasing attention [6]. They have been implicated in the development of drug-resistance [7], and being considered as promising candidates both for cancer diagnostics and therapeutics [8]
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