From Combinations to Single-Molecule Polypharmacology-Cromolyn-Ibuprofen Conjugates for Alzheimer's Disease.

Despite Alzheimer's disease (AD) incidence being projected to increase worldwide, the drugs currently on the market can only mitigate symptoms. Considering the failures of the classical paradigm "one target-one drug-one disease" in delivering effective medications for AD, polypharmacology appears to be a most viable therapeutic strategy. Polypharmacology can involve combinations of multiple drugs and/or single chemical entities modulating multiple targets. Taking inspiration from an ongoing clinical trial, this work aims to convert a promising cromolyn-ibuprofen drug combination into single-molecule "codrugs." Such codrugs should be able to similarly modulate neuroinflammatory and amyloid pathways, while showing peculiar pros and cons. By exploiting a linking strategy, we designed and synthesized a small set of cromolyn-ibuprofen conjugates (4-6). Preliminary plasma stability and neurotoxicity assays allowed us to select diamide 5 and ethanolamide 6 as promising compounds for further studies. We investigated their immunomodulatory profile in immortalized microglia cells, in vitro anti-aggregating activity towards Aß42-amyloid self-aggregation, and their cellular neuroprotective effect against Aß42-induced neurotoxicity. The fact that 6 effectively reduced Aß-induced neuronal death, prompted its investigation into an in vivo model. Notably, 6 was demonstrated to significantly increase the longevity of Aß42-expressing Drosophila and to improve fly locomotor performance.

Interpreting the behavior of concentration-response curves of hyaluronidase inhibitors under DMSO-perturbed assay conditions.

Hyaluronan-degrading enzyme (hyaluronidase) is involved in tumor growth and inflammation, and as such, hyaluronidase inhibitors have received recent attention as potential therapeutics. The previous studies have successfully discovered a wide range of inhibitors, but unfortunately most of them are dissimilar to original ligand hyaluronan and the mode of action is poorly understood. The present study mechanistically characterized these structurally unrelated inhibitors by interpreting the behavior of concentration-response curves under several in vitro assay conditions. Detergent-addition conditions definitely identified aggregation-based inhibitors. Subsequently, DMSO-perturbed conditions, though preliminary, highlighted the inhibitors that might bind to enzyme non-specifically. Here, an intriguing implication of the latter description is that DMSO-perturbed conditions would generate non-productive but not-denatured enzyme that is an assembly of effective species to capture non-specific binding molecules, and thereby would attenuate their inhibitory activities.

Preparation and evaluation of a liposomal formulation of sodium cromoglicate.

Sodium cromoglicate (SCG) is given by inhalation in prophylactic control of asthma. It was encapsulated in liposomes with a view to improve utilization of the drug when given via pulmonary route. The liposomes were characterized for encapsulation efficiency, shape, size and release rate. Liposomal dispersions were freeze-dried using a cryoprotectant. Freeze-dried liposomal dispersion retained 60% of drug upon reconstitution but increase in size of liposomes was noted. Liposomes exhibited good keeping properties when stored at 4 degrees C. In vivo performance of liposomal SCG was evaluated in sensitized guinea pigs. In one of the studies, differential leukocyte count and total leukocyte count in bronchoalveolar lavage fluid was measured. Liposomal dispersion showed significant inhibition of influx of neutrophils as compared with drug solution at 24 h. However, in the second study, when recovery period required by animal to revert back to normal respiratory pattern from the onset or preconvulsion time was measured, no significant difference was found between drug solution and liposomal dispersion when administered 2 h before allergen challenge.

Study of the acute human health effects of intermediates in the synthesis of sodium cromoglycate.

Sodium cromoglycate is manufactured by a seven-stage synthetic process. There has been no previous documentation of toxicological effects of the intermediate compounds in its synthesis. This paper describes the health effects of acute exposure to the intermediates on the skin, eye and respiratory tract. With the exception of the product of the fourth stage, 2,6-dihydroxyacetophenone, no significant local effects arise at exposures of 10 mg m-3. Inhalation of dried 2,6-dihydroxyacetophenone produces nasal irritation and sneezing at short-term exposures of around 1 mg m-3.

A novel cell-permeable cromoglycate derivative inhibits type I Fc epsilon receptor mediated Ca2+ influx and mediator secretion in rat mucosal mast cells.

Type I Fc epsilon receptor (Fc epsilon RI) mediated Ca2+ uptake and secretion of rat serosal mast cells have been shown to be inhibited by disodium 1,3-bis [(2'-carboxylatochromon-5'-yl) oxy]-2-hydroxypropane (disodium cromoglycate, DSCG), which is widely employed in the treatment of allergic asthma [Foreman et al. (1977) Br. J. Pharmacol. 59, 473P-474P; Cox (1967) Nature (London) 216, 1328-1329]. This drug was also found to modify the protein phosphorylation pattern of these mast cells. [Theoharides et al. (1980) Science 207, 80-82]. We have isolated by affinity chromatography on a water-insoluble cromoglycate-carrying matrix a cytosolic enzyme recently identified as a nucleoside 5'-diphosphate kinase. In order to examine a possible intracellular activity of the drug, a cell-permeant cromoglycate derivative, 1,3-bis [[2'-[[(acetoxymethyl)oxy]carbonyl]chromon-5'- yl]oxy]-2-hydroxypropane [bis(acetoxymethyl) cromoglycate, CG/AM], has been synthesized, and its uptake and effect on the Fc epsilon RI-mediated exocytosis of mast cells was investigated. A tritium-labeled CG/AM derivative, used as radioactive tracer, was found to permeate mucosal mast cells of the rat line RBL-2H3 and accumulate intracellularly up to 40-fold its extracellular concentration following hydrolysis by cytoplasmic hydrolases. A CG/AM dose dependent inhibition of the Fc epsilon RI-induced mediator secretion was observed in RBL-2H3 cells loaded with this compound (I50 approximately 40 microM extracellular CG/AM). A similar dose-dependent inhibition was observed for both the Fc epsilon RI-mediated transient rise in the concentration of cytosolic free Ca2+ ions [( Ca2+]i) and the net Ca2+ influx, as monitored by the fluorescent indicator Quin2 and the radioactive tracer 45Ca2+, respectively. These results clearly show that cell-permeant cromoglycate inhibits the Fc epsilon RI-mediated Ca2+ influx into the cell and further underscore the dominant role of this process in the coupling of stimulus to secretion in RBL cells. Furthermore, with the identification of nucleoside 5'-diphosphate kinase as a potential intracellular target for CG activity, distinct mechanisms of action may be inferred for cell-permeant and nonpermeant forms of CG.