Enhancing T Cell and Antibody Response in Mucin-1 Transgenic Mice through Co-Delivery of Tumor-Associated Mucin-1 Antigen and TLR Agonists in C3-Liposomes.

Mucin-1 (MUC1) is a highly relevant antigen for cancer vaccination due to its overexpression and hypo-glycosylation in a high percentage of carcinomas. To enhance the immune response to MUC1, our group has developed C3-liposomes that encapsulate the MUC1 antigen along with immunostimulatory compounds for direct delivery to antigen-presenting cells (APCs). C3-liposomes bind complement C3, which interacts with C3-receptors on APCs, resulting in liposomal uptake and the delivery of tumor antigens to APCs in a manner that mimics pathogenic uptake.

Liposome Delivery of Natural STAT3 Inhibitors for the Treatment of Cancer.

In the tumor microenvironment, cytokines, growth factors, and oncogenes mediate constitutive activation of the signal transducer and activator of transcription 3 (STAT3) signaling pathway in both cancer cells and infiltrating immune cells. STAT3 activation in cancer cells drives tumorigenic changes that allow for increased survival, proliferation, and resistance to apoptosis. The modulation of immune cells is more complicated and conflicting.

Intratumoral delivery of antigen with complement C3-bound liposomes reduces tumor growth in mice.

Antigen presenting cells (APCs) initiate the immune response against cancer by engulfing and presenting tumor antigens to T cells. Our lab has recently developed a liposomal nanoparticle that binds complement C3 proteins, allowing it to bind to the complement C3 receptors of APCs and directly deliver antigenic peptides. APCs were shown to internalize and process complement C3-bound liposomes containing ovalbumin (OVA), resulting in a significant increase in activated T cells that recognize OVA.

Complement C3-dependent uptake of targeted liposomes into human macrophages, B cells, dendritic cells, neutrophils, and MDSCs.

Antitumor immunity in cancer patients is heavily modulated by cells of the innate immune system. Antigen-presenting cells, including dendritic cells, macrophages, and B cells, initiate immune recognition of tumor antigen by displaying antigen to effector cells. Countering this immune stimulation are immunosuppressive cells which include M2 macrophages, N2 neutrophils, and myeloid-derived suppressor cells (MDSCs).

Complement C3 mediated targeting of liposomes to granulocytic myeloid derived suppressor cells.

Unlabelled: In cancer patients, granulocytic myeloid derived suppressor cells (G-MDSCs) expand in number, infiltrating tumor and lymphatic tissues where they suppress an anti-tumor immune response. We report here the development of a liposomal drug delivery system that selectively targets G-MDSCs. The liposomes form a disulfide bond with activated complement C3 after intravenous injection and are taken up by G-MDSCs, which express the receptor for activated C3.

Targeting Her-2+ breast cancer cells with bleomycin immunoliposomes linked to LLO.

Bleomycin is a membrane impermeable chemotherapeutic agent that is relatively innocuous extracellularly but highly cytotoxic when delivered directly to the cytoplasm. We report on the development of a liposome delivery system that targets Her-2 overexpressing breast cancer cells and breaches the endosomal barrier, delivering bleomycin to the cytoplasm. The liposomes are conjugated to the antibody trastuzumab, which results in specific binding and internalization of liposomes into Her-2 overexpressing cells.

Listeriolysin O enhances cytoplasmic delivery by Her-2 targeting liposomes.

To enhance cytoplasmic delivery of liposomal contents to breast cancer cells, the authors have attached the pore-forming protein, listeriolysin O (LLO), to thermosensitive liposomes. The antibody trastuzumab (Herceptin) was also conjugated with the outer surface of the liposomes, resulting in highly specific binding and internalization into mammary epithelial cells that overexpress the human epidermal growth factor receptor 2 (Her-2). The liposomes were preloaded with a marker fluorescent dye, and the effect of LLO on the distribution of dye within the cells was monitored using fluorescence microscopy.

Methods for the study of redox-mediated changes in p53 structure and function.

It is now generally accepted that both the structure and function of a number of specific transcriptional factors, including p53, are subject to redox regulation in cells in which these factors are expressed. The present chapter describes methods for the analysis of redox changes in the structure of p53 and the effect of redox modulation on binding of p53 to a DNA consensus sequence. In addition, methods are described for studying the effect of redox perturbations of cells on the functioning of p53 in the cell cycle and in apoptosis.

A two-component drug delivery system using Her-2-targeting thermosensitive liposomes.

We report on a new method for enhancing the specificity of drug delivery for tumor cells, using thermosensitive immunoliposomes. The liposomes are conjugated to the antibody trastuzumab (Herceptin), which targets the human epidermal growth factor receptor 2 (Her-2), a cell membrane receptor overexpressed in many human cancers. Being thermosensitive, the liposomes only release their contents when heated slightly above body temperature, allowing for the possibility of tissue targeting through localized hyperthermia.

Aminothiol WR1065 induces differential gene expression in the presence of wild-type p53.

The aminothiol WR1065 exerts selective cytoprotective effects in normal cells compared to cancer cells and has clinical applications for the protection of normal cells in cancer patients undergoing radio- or chemotherapy. There is evidence that p53 is activated in response to WR1065. To examine the effects of WR1065 on the signalling pathways controlled by p53, isogeneic human colon carcinoma cell lines (HCT116) differing only in the presence or absence of wild-type p53 were used.