Taken together, these results suggest that pmIL-12/PPC may be an effective strategy for inhibiting progression of disseminated ovarian cancer and may offer a new option for treatment of advanced disease that can be used to complement standard therapies.
We have designed a series of versatile lipopolyamines which are amenable to chemical modification for in vivo delivery of small interfering RNA (siRNA). This report focuses on one such lipopolyamine (Staramine), its functionalized derivatives and the lipid nanocomplexes it forms with siRNA. Intravenous (i.v.) administration of Staramine/siRNA nanocomplexes modified with methoxypolyethylene glycol (mPEG) provides safe and effective delivery of siRNA and significant target gene knockdown in the lungs of normal mice, with much lower knockdown in liver, spleen, and kidney. Although siRNA delivered via Staramine is initially distributed across all these organs, the observed clearance rate from the lung tissue is considerably slower than in other tissues resulting in prolonged siRNA accumulation on the timescale of RNA interference (RNAi)-mediated transcript depletion. Complete blood count (CBC) analysis, serum chemistry analysis, and histopathology results are all consistent with minimal toxicity. An in vivo screen of mPEG modified Staramine nanocomplexes-containing siRNAs targeting lung cell-specific marker proteins reveal exclusive transfection of endothelial cells. Safe and effective delivery of siRNA to the lung with chemically versatile lipopolyamine systems provides opportunities for investigation of pulmonary cell function in vivo as well as potential treatments of pulmonary disease with RNAi-based therapeutics.
Despite recent improvements in treatment options for ovarian cancer patients, notably, the approval of using bevacizumab in combination with chemotherapies including pegylated liposomal doxorubicin (PLD), this disease is still the most deadly of all gynecological malignancies requiring new and novel therapeutics. Interleukin-12 (IL-12) is a highly active cytokine that can induce a potent anti-cancer immunity mediated through activation of cytotoxic T-lymphocytes, natural killer cell proliferation, and secretion of interferon-γ. We are developing an IL-12 based gene therapy for the treatment of gynecological malignancies that have spread into the peritoneal cavity. Our approach utilizes IL-12 plasmid (pIL-12) formulated with the PPC delivery system, which is comprised of a low molecular weight polyethylenimine covalently linked to polyethyleneglycol and cholesterol. Previously we have shown in a mouse model of disseminated ovarian cancer efficacy of a treatment regimen of pIL-12/PPC used in combination with paclitaxel and carboplatin. The combination treatment significantly improved survival compared to either pIL-12/PPC alone or chemotherapy alone and demonstrated the feasibility of using an IL-12 immunotherapy in combination with cytotoxic chemotherapies to achieve additive therapeutic effects. Results from a Phase I clinical trial in platinum resistant patients have shown that intraperitoneal delivery of pIL-12/PPC in combination with PLD produced an overall clinical benefit of 57.1% (PR=21.4%; SD=35.7%) in patients with measurable disease. The highest percentage of PRs were found at the highest dose level (28.6%) along with highest percentage of patients achieving SD (57.1%). Here we describe studies evaluating the combination of pIL-12/PPC with bevacizumab and PLD. For these studies 7,000,000 human SKOV-3 cells were implanted into the peritoneal cavity of immunocompromised Hsd:Athymic Nude-Foxn1nu mice. Treatment with pIL-12/PPC alone and bevacizumab alone resulted in a 50% and a 39% reduction of animals with visible tumors at the end of the study. Combining pIL-12/PPC + bevacizumab improved the response to 78% of animals with no visible tumors. Further, combining pIL-12/PPC + bevacizumab + PLD resulted in a >98% decrease in tumor burden in animals compared to controls and ~92% decrease in tumor burden compared to animals treated only with bevacizumab + PLD. All treatments were well tolerated and analysis of serum chemistries and hematology showed normal ranges of all parameters examined for all groups. There were no significant differences in animal weights between groups during the experiment. Together these results suggest synergistic efficacies can be achieved by combining a novel pIL-12/PPC immunotherapy with anti-angiogenesis therapies and cytotoxic chemotherapies in disseminated ovarian cancer.
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