Menkes disease: Oral administration of glyoxal-bis(N(4)-methylthiosemicarbazonato)-copper(II) rescues the macular mouse.

BACKGROUND: Menkes disease is a copper metabolism disorder caused by mutations in ATP7A, a copper-transporting P-type ATPase. In this study, oral copper supplementation via glyoxal-bis(N(4)-methylthiosemicarbazonato)-copper(II) (CuGTSM), a lipophilic copper complex, was investigated in male hemizygous macular (MoMl/y) mice, a mouse model of Menkes disease. METHODS: CuGTSM was administered by oral gavage on postnatal days 5, 8, 11, 17, 23, and 32. The copper levels in the organs and serum, copper-dependent enzyme activities in the brain, and ceruloplasmin (Cp) activity in the serum were measured at 15 days and 3 and 8 months of age. Histological analysis of the intestines and the rotarod test were also performed. RESULTS: CuGTSM treatment extended the lifespan of MoMl/y mice and partly restored the copper concentrations and cytochrome oxidase and DBH activities in the brain; however, the rotarod test showed impaired motor performance. The treatment also increased copper concentrations and Cp activity in the serum. In suckling MoMl/y mice, CuGTSM treatment transiently induced diarrhea accompanied by copper accumulation and altered villus morphology in the ileum. CONCLUSION: Oral administration of CuGTSM extended the lifespan of MoMl/y mice. Oral administration is attractive, but pharmaceutical studies are needed to reduce the adverse enteral effects.

In vitro studies on nobiletin isolated from citrus plants and the bioactive metabolites, inhibitory action against gelatinase enzymatic activity and the molecular mechanisms in human retinal Müller cell line.

Diabetic retinopathy (DR) is the most common cause of vision loss in patients with diabetes mellitus. Despite the presence of effective therapy, DR is still a significant health burden. A recent research suggests that matrix metalloproteinases (MMPs) could be promising targets, which exert multiple actions on early- and late-stage pathogenesis of DR. Among the MMP family, gelatinases (MMP-2 and MMP-9) act as potent proinflammatory, proangiogenic, and pro-apoptotic factors. Therefore, the pharmacological inhibitory effect of gelatinases on retinal MMP-producing cells may be useful in the treatment or prevention of DR. Nobiletin isolated from citrus plants is a multi-functional polymethoxylated flavone, which exerts biological effects including inhibitory action against MMP activity in several cancer cells. In the present study, we demonstrated that nobiletin isolated from citrus plants attenuated MMP-9 enzymatic activity through the suppression of transcription for MMP-9 gene expression and augmentation of TIMP-1 production in retinal Müller cells. Nobiletin regulated MMP-9 gene expression and TIMP-1 by inhibiting the PI3K/Akt signaling pathway. In addition, we observed the augmentation of inhibitory action against MMP-9 enzymatic activity by 4'-demethylated nobiletin, which is a major metabolite of nobiletin. We believe that the enhancement of inhibitory action against MMP-9 enzymatic activity by 4'-demethylated nobiletin is through the dual inhibition on Erk1/2 and Akt phosphorylation. The structure-activity relationship analysis revealed that, for the enhancement of inhibitory action against MMP-9 enzymatic activity, demethylation at position 4' in B-ring was a key structural modification in Müller cells, which are an important source of MMPs found in vitreous fluid and retinal tissues in retinal proliferative diseases. These results suggested that nobiletin, derived from a natural source, may serve as a novel MMP inhibitor with minimal side effects, and lead compound for the design of more efficacious drugs.

The DC2.3 gene in Caenorhabditis elegans encodes a galectin that recognizes the galactoseß1→4fucose disaccharide unit.

Galectins comprise a large family of ß-galactoside-binding proteins in animals and fungi. We previously isolated cDNAs of 10 galectin and galectin-like genes (lec-1 to lec-6 and lec-8 to lec-11) from Caenorhabditis elegans and characterized the carbohydrate-binding properties of their recombinant proteins. In the present study, we isolated cDNA corresponding to an open reading frame of the DC2.3a gene from C. elegans total RNA; this cDNA encodes another potential galectin. A recombinant DC2.3a protein was expressed in Escherichia coli and used for analysis. The protein displayed hemagglutinating activity against rabbit erythrocytes, bound to an asialofetuin-Sepharose column, and was eluted with lactose. Furthermore, frontal affinity chromatography (FAC) analysis confirmed that DC2.3a recognized oligosaccharides with a non-reducing terminal galactose. According to these results, we designated DC2.3 as lec-12. The carbohydrate-binding property of the recombinant DC2.3a/LEC-12a was essentially similar to that of LEC-6. Additionally, DC2.3a/LEC-12a and LEC-6 showed higher affinities for the galactoseß1→4fucose (Galß1→4Fuc) disaccharide than for N-acetyllactosamine. This suggests that the principal recognition unit is the Galß1→4Fuc disaccharide as in the case of the C. elegans galectins. However, the recombinant DC2.3a/LEC-12a showed weak affinity for N-glycan E3, which was previously shown to be a preferential endogenous ligand for LEC-6. The DC2.3a/LEC-12a endogenous ligand structures appear to be somewhat different but contain the same galactose-fucose recognition motif.

[Determination of the optical purity of N-nitrosofenfluramine found in the Chinese slimming diet].

From 2001 to the summer of 2002, more than 800 cases of liver damage were reported in Japan among people taking Chinese diet aids. The Japanese Ministry of Health, Labor and Welfare has recently announced that N-nitrosofenfluramine was the hepatotoxic compound contained in the diet aids based on animal experiments performed by the National Institute of Health Sciences. Although N-nitrosofenfluramine is a derivative of fenfluramine, a previously used antiobesity drug, neither pharmacologic nor toxicologic properties have been reported for N-nitroso fenfluramine. It should be noted that N-nitrosofenfluramine has two optical isomers, although it is not yet known which isomer damages the liver and other organs. The Japanese Ministry of Health, Labor and Welfare has not commented on this point. Pursuing this question, 10 types of Chinese slimming aid samples including those obtained from patients with fulminating hepatitis were analyzed by NMR, GC/MS, and a newly established HPLC method using a chiral separation column. It was found that the N-nitrosofenfluramine in all of the toxic diet aids was the (S)-isomer form. No (R)-isomer was detected. These results strongly suggest that the nitroso-compound in the diets must be prepared from pharmacologically active (S)-fenfluramine (dexfenfluramine). Thus the pharmacologic and toxicologic properties of each isomer should be investigated.