Your search keyword '"Ricin drug effects"' showing total 2 results

1. ABMA, a small molecule that inhibits intracellular toxins and pathogens by interfering with late endosomal compartments.

Author

Wu Y, Pons V, Goudet A, Panigai L, Fischer A, Herweg JA, Kali S, Davey RA, Laporte J, Bouclier C, Yousfi R, Aubenque C, Merer G, Gobbo E, Lopez R, Gillet C, Cojean S, Popoff MR, Clayette P, Le Grand R, Boulogne C, Tordo N, Lemichez E, Loiseau PM, Rudel T, Sauvaire D, Cintrat JC, Gillet D, and Barbier J

Subjects

Adamantane chemistry, Adamantane pharmacology, Animals, Benzyl Compounds chemistry, Benzylamines, Cell Compartmentation drug effects, Endoplasmic Reticulum drug effects, Golgi Apparatus drug effects, HeLa Cells, Humans, Lysosomes drug effects, Mice, Ricin drug effects, Ricin toxicity, Toxins, Biological chemistry, Toxins, Biological toxicity, Adamantane analogs & derivatives, Benzyl Compounds pharmacology, Endosomes drug effects, Ricin antagonists & inhibitors, Toxins, Biological antagonists & inhibitors

Abstract

Intracellular pathogenic microorganisms and toxins exploit host cell mechanisms to enter, exert their deleterious effects as well as hijack host nutrition for their development. A potential approach to treat multiple pathogen infections and that should not induce drug resistance is the use of small molecules that target host components. We identified the compound 1-adamantyl (5-bromo-2-methoxybenzyl) amine (ABMA) from a cell-based high throughput screening for its capacity to protect human cells and mice against ricin toxin without toxicity. This compound efficiently protects cells against various toxins and pathogens including viruses, intracellular bacteria and parasite. ABMA provokes Rab7-positive late endosomal compartment accumulation in mammalian cells without affecting other organelles (early endosomes, lysosomes, the Golgi apparatus, the endoplasmic reticulum or the nucleus). As the mechanism of action of ABMA is restricted to host-endosomal compartments, it reduces cell infection by pathogens that depend on this pathway to invade cells. ABMA may represent a novel class of broad-spectrum compounds with therapeutic potential against diverse severe infectious diseases.

Published

2017

2. Effect of immunosuppressive agents on the immunogenicity and efficacy of an immunotoxin in mice.

Author

Gelber EE and Vitetta ES

Subjects

Animals, Antibodies analysis, Female, Immunosuppression Therapy, Immunosuppressive Agents immunology, Immunotoxins therapeutic use, Mice, Mice, Inbred BALB C, Ricin immunology, Antibodies drug effects, Immunosuppressive Agents pharmacology, Immunotoxins immunology, Ricin drug effects

Abstract

Immunotoxins (ITs) are potent cytotoxic agents used in the treatment of cancer, autoimmune disease, and graft-versus-host disease. Results from clinical trials demonstrate that many IT-treated patients, especially those with an intact immune system, develop anti-IT antibodies that may prohibit repeated IT dosing. We, therefore, evaluated a panel of novel immunosuppressive (IS) agents for their ability to inhibit the antitoxin immune response in mice receiving multiple courses of a ricin A chain (RTA)-containing IT and also assessed whether this suppression would result in an increase in IT-mediated antitumor activity. The results indicate that a 3-day pretreatment, plus one additional boost 2 weeks later, of a combination of hCTLA4Ig + anti-CD40L, virtually eliminated the anti-RTA response in normal mice receiving six weekly injections of an IT. When tested in BCL1 tumor-bearing mice, the concomitant use of a combination of hCTLA4Ig + anti-CD40L and six doses of the IT resulted in a 1.5-fold increase in tumor cell killing, as compared with treatment with IT alone. We conclude that a combination of IS + IT therapy should facilitate the administration of multiple courses of IT, as well as enhance its antitumor activity.

Published

1998