Preclinical development of a C6-ceramide NanoLiposome, a novel sphingolipid therapeutic.

Despite the therapeutic potential of sphingolipids, the ability to develop this class of compounds as active pharmaceutical ingredients has been hampered by issues of solubility and delivery. Beyond these technical hurdles, significant challenges in completing the necessary preclinical studies to support regulatory review are necessary for commercialization. This review seeks to identify the obstacles and potential solutions in the translation of a novel liposomal technology from the academic bench to investigational new drug (IND) stage by discussing the preclinical development of the Ceramide NanoLiposome (CNL), which is currently being developed as an anticancer drug for the initial indication of hepatocellular carcinoma (HCC).

Nanoscale structure-activity relationships, mode of action, and biocompatibility of gold nanoparticle antibiotics.

The emergence of resistance to multiple antimicrobial agents by pathogenic bacteria has become a significant global public health threat. Multi-drug-resistant (MDR) Gram-negative bacteria have become particularly problematic, as no new classes of small-molecule antibiotics for Gram-negative bacteria have emerged in over two decades. We have developed a combinatorial screening process for identifying mixed ligand monolayer/gold nanoparticle conjugates (2.4 nm diameter) with antibiotic activity. The method previously led to the discovery of several conjugates with potent activity against the Gram-negative bacterium Escherichia coli. Here we show that these conjugates are also active against MDR E. coli and MDR Klebsiella pneumoniae. Moreover, we have shown that resistance to these nanoparticles develops significantly more slowly than to a commercial small-molecule drug. These results, combined with their relatively low toxicity to mammalian cells and biocompatibility in vivo, suggest that gold nanoparticles may be viable new candidates for the treatment of MDR Gram-negative bacterial infections.

A novel method for potentiation of chemotherapy in soft tissue sarcomas with BromAc.

Single-agent doxorubicin currently forms part of standard care for patients with sarcomas. However, efficacy is limited by the presence of dose-dependent cardiotoxicity and toxicity to renal, hepatic, and neurological systems. Therefore, there is a pressing need for novel drug regimens which can provide increased efficacy and safety. BromAc is a novel drug combination developed as a mucolytic agent which has demonstrated anticancer activity both in vitro and in vivo in several cancers. Here, we investigated the efficacy of BromAc in combination with doxorubicin for four subtypes of sarcoma. Cell proliferation, alongside western blot for a variety of cell cycle, apoptosis, and autophagy biomarkers assays was performed following treatment of cell lines in vitro at various concentrations of BromAc and doxorubicin. The impact of drug treatment on MUC1 and MUC4 levels was assessed through immune-cytological methods. Drug agent synergy was assessed through the Chou-Talalay framework. BromAc treatment in combination with doxorubicin was more efficacious than single-agent doxorubicin, with synergistic effects observed. The immuno-cytological analysis demonstrated significant mucin depletion following treatment with BromAc and doxorubicin used in combination, providing a potential mechanistic underpinning for the observed anticancer effects.

Gold nanoparticles to improve HIV drug delivery.

BACKGROUND: Antiretroviral therapy (ART) has improved lifespan and quality of life of patients infected with the HIV-1. However, ART has several potential limitations, including the development of drug resistance and suboptimal penetration to selected anatomic compartments. Improving the delivery of antiretroviral molecules could overcome several of the limitations of current ART. RESULTS & CONCLUSION: Two to ten nanometer diameter inorganic gold crystals serve as a base scaffold to combine molecules with an array of properties in its surface. We show entry into different cell types, antiviral activity of an HIV integrase inhibitor conjugated in a gold nanoparticle and penetration into the brain in vivo without toxicity. Herein, gold nanoparticles prove to be a promising tool to use in HIV therapy.

Gastrointestinal bioavailability of 2.0 nm diameter gold nanoparticles.

The use of gold nanoparticles as imaging agents and therapeutic delivery systems is growing rapidly. However, a significant limitation of gold nanoparticles currently is their low absorption efficiencies in the gastrointestinal (GI) tract following oral administration. In an attempt to identify ligands that facilitate gold nanoparticle absorption in the GI tract, we have studied the oral bioavailability of 2.0 nm diameter gold nanoparticles modified with the small molecules p-mercaptobenzoic acid and glutathione, and polyethylene glycols (PEG) of different lengths and charge (neutral and anionic). We show that GI absorption of gold nanoparticles modified with the small molecules tested was undetectable. However, the absorption of PEGs depended upon PEG length, with the shortest PEG studied yielding gold nanoparticle absorptions that are orders-of-magnitude larger than observed previously. As the oral route is the most convenient one for administering drugs and diagnostic reagents, these results suggest that short-chain PEGs may be useful in the design of gold nanoparticles for the diagnosis and treatment of disease.