Enhanced antitumor activity of combined lipid bubble ultrasound and anticancer drugs in gynecological cervical cancers.

Chemotherapy plays an important role in the treatment of patients with gynecological cancers. Delivering anticancer drugs effectively to tumor cells with just few side effects is key in cancer treatment. Lipid bubbles (LB) are compounds that increase the vascular permeability of the tumor under diagnostic ultrasound (US) exposure and enable the effective transport of drugs to tumor cells. The aim of our study was to establish a novel drug delivery technique for chemotherapy and to identify the most effective anticancer drugs for the bubble US-mediated drug delivery system (BUS-DDS) in gynecological cancer treatments. We constructed xenograft models using cervical cancer (HeLa) and uterine endometrial cancer (HEC1B) cell lines. Lipid bubbles were injected i.v., combined with either cisplatin (CDDP), pegylated liposomal doxorubicin (PLD), or bevacizumab, and US was applied to the tumor. We compared the enhanced chemotherapeutic effects of these drugs and determined the optimal drugs for BUS-DDS. Tumor volume reduction of HeLa and HEC1B xenografts following cisplatin treatment was significantly enhanced by BUS-DDS. Both CDDP and PLD significantly enhanced the antitumor effects of BUS-DDS in HeLa tumors; however, volume reduction by BUS-DDS was insignificant when combined with bevacizumab, a humanized anti-vascular endothelial growth factor mAb. The BUS-DDS did not cause any severe adverse events and significantly enhanced the antitumor effects of cytotoxic drugs. The effects of bevacizumab, which were not as dose-dependent as those of the two drugs used prior, were minimal. Our data suggest that BUS-DDS technology might help achieve "reinforced targeting" in the treatment of gynecological cancers.

Effect of primary prophylaxis with pegfilgrastim in endometrial cancer patients treated with doxorubicin and cisplatin.

OBJECTIVE: Although the incidence of febrile neutropenia (FN) is relatively higher for doxorubicin and cisplatin combination regimen than for other regimens in endometrial cancer, evidence regarding the efficacy of pegfilgrastim in this regimen is lacking. MATERIALS AND METHODS: We retrospectively reviewed the data of 58 patients with endometrial cancer who were treated with doxorubicin plus cisplatin. The patients were divided into primary prophylaxis and non-prophylaxis groups. We compared the incidence of FN and neutropenia as well as the chemotherapy relative dose intensity (RDI) and usage of antibiotics between the groups. RESULTS: The rates of FN (8.0% vs. 34.8%) and grade 4 neutropenia (12.0% vs. 87.0%) were significantly lower in the primary prophylaxis group. Although there was no difference in the RDI between the groups, the primary prophylaxis group had a lower rate of antibiotic prescriptions. CONCLUSION: Prophylaxis with pegfilgrastim efficiently prevented FN in patients treated with doxorubicin and cisplatin.

Systemic delivery of siRNA by actively targeted polyion complex micelles for silencing the E6 and E7 human papillomavirus oncogenes.

Human papillomavirus (HPV) E6 and E7 oncogenes are essential for the immortalization and maintenance of HPV-associated cancer and are ubiquitously expressed in cervical cancer lesions. Small interfering RNA (siRNA) coding for E6 and E7 oncogenes is a promising approach for precise treatment of cervical cancer, yet a delivery system is required for systemic delivery to solid tumors. Here, an actively targeted polyion complex (PIC) micelle was applied to deliver siRNAs coding for HPV E6/E7 to HPV cervical cancer cell tumors in immune-incompetent tumor-bearing mice. A cell viability assay revealed that both HPV type 16 and 18 E6/E7 siRNAs (si16E6/E7 and si18E6/E7, respectively) interfered with proliferation of cervical cancer cell lines in an HPV type-specific manner. A fluorescence imaging biodistribution analysis further revealed that fluorescence dye-labeled siRNA-loaded PIC micelles efficiently accumulated within the tumor mass after systemic administration. Ultimately, intravenous injection of si16E6/E7 and si18E6/E7-loaded PIC micelles was found to significantly suppress the growth of subcutaneous SiHa and HeLa tumors, respectively. The specific activity of siRNA treatment was confirmed by the observation that p53 protein expression was restored in the tumors excised from the mice treated with si16E6/E7- and si18E6/E7-loaded PIC micelles for SiHa and HeLa tumors, respectively. Therefore, the actively targeted PIC micelle incorporating HPV E6/E7-coding siRNAs demonstrated its therapeutic potential against HPV-associated cancer.