Tβ4-17 peptide enhances the chemo-sensitivity of ovarian cancer cells to DDP by affecting NF-κB signaling pathway.
This study investigated whether Tβ4-17, a small bioactive peptide derived from the precursor protein thymosin β4 and identified via iTRAQ technology, could enhance the sensitivity of cisplatin (DDP)-resistant ovarian cancer cells to chemotherapy. Using in vitro cell line models of DDP-resistant ovarian cancer, the researchers tested the combination of Tβ4-17 with DDP on cell proliferation, migration, and apoptosis. Results indicated that the combination significantly inhibited proliferation and migration of resistant cells while promoting apoptosis compared to either treatment alone. Mechanistically, the study found that NF-κB (specifically the p65 subunit) was highly expressed in DDP-resistant ovarian cancer cells, and that Tβ4-17 appeared to downregulate NF-κB p65 protein expression. These findings were supported by qRT-PCR, Western blot, CCK-8 assays, EDU fluorescence proliferation assays, and scratch migration assays, as well as experiments using NF-κB inhibitors and activators. Key limitations include reliance solely on in vitro cell line models with no animal or human data, and the absence of pharmacokinetic or safety assessments. The study suggests a potential mechanism by which Tβ4-17 may overcome chemoresistance in ovarian cancer but requires substantial further validation.
Why this grade: All experiments were conducted exclusively in cell line models with no animal studies or human subjects, providing only preliminary mechanistic evidence.
Ovarian cancer is a gynecologic malignancy with high mortality and poor prognosis. Chemoresistance is a key cause of ovarian cancer recurrence and metastasis. It has been found that some bioactive peptides can inhibit the growth and metastasis of cancer cells and promote cell apoptosis, thus exerting anti-cancer effects. Tβ4-17 is a small polypeptide that we selected using ITRAQ technology, and its precursor protein is thymosin β4. This study mainly investigated its effect in combination with cisplatin (DDP) on the proliferation, migration and apoptosis of ovarian cancer resistant cells and related molecular mechanisms. Our results showed that Tβ4-17 peptide combined with DDP significantly inhibited the proliferation and migration of drug resistance cells in ovarian cancer, promoted apoptosis, and increased the chemo-sensitivity of ovarian cancer cells to DDP. In addition, qRT-PCR and Western blot showed that NF-κB was significantly highly expressed in DDP-resistant cells of ovarian cancer. After application of NF-κB inhibitors and activators, Western blot, CCK8, EDU fluorescence proliferation assay, and cell scratch assay showed that Tβ4-17 peptide down-regulated NF-κB p65 protein expression and inhibited cell proliferation and migration. In conclusion, our study demonstrates that Tβ4-17 peptide enhances the sensitivity of ovarian cancer cells to DDP by down-regulating NF-κB expression.
Educational summary of published research — not medical advice. License: cc by-nc-nd. Full text is shown only where licensing permits.