Preparation of Chemically Modified DNA Library for SELEX via Incorporation of CLB-dUTP in Primer Extension Reaction.

Aptamers are single-stranded DNA or RNA molecules which bind with high specificity to the molecular target for which they have been selected. Through a number of unnatural modifications, the diversity of interactions available for this class of molecules can be greatly expanded, potentially leading to better binding properties. Herein we describe a method to prepare an initial chemically modified DNA library for SELEX. It comprises the synthesis of a modified nucleotide in the CuAAC reaction and its purification by an adapted HPLC method. Subsequent stage is the incorporation of the prepared modified nucleotide into a DNA library in a primer extension reaction and a quick and easy method of its purification using an electroelution device. This allows the recovery of the resulting chemically modified ssDNA library with high efficiency to kick off the aptamer selection process.

Cellular and Gene Expression Response to the Combination of Genistein and Kaempferol in the Treatment of Mucopolysaccharidosis Type I.

Flavonoids are investigated as therapeutics for mucopolysaccharidosis, a metabolic disorder with impaired glycosaminoglycan degradation. Here we determined the effects of genistein and kaempferol, used alone or in combination, on cellular response and gene expression in a mucopolysaccharidosis type I model. We assessed the cell cycle, viability, proliferation, subcellular localization of the translocation factor EB (TFEB), number and distribution of lysosomes, and glycosaminoglycan synthesis after exposure to flavonoids. Global gene expression was analysed using DNA microarray and quantitative PCR. The type and degree of flavonoid interaction were determined based on the combination and dose reduction indexes. The combination of both flavonoids synergistically inhibits glycosaminoglycan synthesis, modulates TFEB localization, lysosomal number, and distribution. Genistein and kaempferol in a 1:1 ratio regulate the expression of 52% of glycosaminoglycan metabolism genes. Flavonoids show synergy, additivity, or slight antagonism in all analysed parameters, and the type of interaction depends on the concentration and component ratios. With the simultaneous use of genistein and kaempferol in a ratio of 4:1, even a 10-fold reduction in the concentration of kaempferol is possible. Flavonoid mixtures, used as the treatment of mucopolysaccharidosis, are effective in reducing glycosaminoglycan production and storage and show a slight cytotoxic effect compared to single-flavonoid usage.