PRIMARY OBJECTIVE: Antisense oligomers to NF-kappaB (ASO) were incorporated into albumin microspheres to determine if microcapsules containing ASO inhibit pro-inflammatory cytokines to a greater extent than comparable doses of ASO in solution. Phagocytosis of microcapsules and intracellular release of ASO in macrophages was evaluated. RESEARCH DESIGN: Comparable doses of microencapsulated ASO and ASO in solution were evaluated in non-human primates. METHODS: Blood was sampled and stimulated with Escherichia coli endotoxin ex vivo. TNF, IL-1 and IL-6 concentrations were compared for 72 hrs. The intracellular concentration of ASO was measured in macrophages in vitro to evaluate the difference in intracellular penetration of microencapsulated ASO. RESULTS: Microencapsulated ASO produced significantly greater cytokine inhibition at all time points compared to ASO in solution. There were no side effects to ASO in the baboons. Intracellular ASO concentration was 10 fold greater in macrophages using microencapsulation. CONCLUSIONS: Microencapsulated ASO to NF-kappaB is more effective than ASO in solution in pro-inflammatory cytokine inhibition in non-human primates.
PRIMARY OBJECTIVE: Antisense oligomers to NF-kappaB (ASO) were incorporated into albumin microspheres to determine if microcapsules containing ASO inhibit pro-inflammatory cytokines to a greater extent than comparable doses of ASO in solution. Phagocytosis of microcapsules and intracellular release of ASO in macrophages was evaluated. RESEARCH DESIGN: Comparable doses of microencapsulated ASO and ASO in solution were evaluated in non-human primates. METHODS: Blood was sampled and stimulated with Escherichia coli endotoxin ex vivo. TNF, IL-1 and IL-6 concentrations were compared for 72 hrs. The intracellular concentration of ASO was measured in macrophages in vitro to evaluate the difference in intracellular penetration of microencapsulated ASO. RESULTS: Microencapsulated ASO produced significantly greater cytokine inhibition at all time points compared to ASO in solution. There were no side effects to ASO in the baboons. Intracellular ASO concentration was 10 fold greater in macrophages using microencapsulation. CONCLUSIONS: Microencapsulated ASO to NF-kappaB is more effective than ASO in solution in pro-inflammatory cytokine inhibition in non-human primates.
Authors: D J Stearns-Kurosawa; Valta Collins; Scott Freeman; Vernon L Tesh; Shinichiro Kurosawa Journal: Infect Immun Date: 2010-03-22 Impact factor: 3.441
Authors: Rokon Uz Zaman; Nihal S Mulla; Keegan Braz Gomes; Cherilyn D'Souza; Kevin Sean Murnane; Martin J D'Souza Journal: Int J Pharm Date: 2018-07-19 Impact factor: 5.875