Abstract: Modulation of microRNAs against myotonic dystrophy type 1 and antagonists of microRNAs therefor. The invention provides the use of inhibitors of microRNAs repressors of MBNL1 and/or MBNL2 genes for the manufacture of a medicinal product for the treatment of myotonic dystrophy 1. Inhibiting these microRNAs allows to increase the endogenous levels of the corresponding proteins MBNL1 and/or MBNL2, thereby alleviating symptoms of the disease, especially when inhibiting repressors that are expressed in the main affected organs: skeletal muscle, heart or organs of the central nervous system. The inhibition of the microRNAs miR-23b-3p and miR-218-5p is preferred. It also provides oligoribonucleotide or oligoribonucleotide analogue antagonists suitable therefor, preferably antagomiRs directed against the microRNAs mentioned with chemical modifications that enhance their interaction with the target, their stability in vivo and their ability to penetrate into the cells and distribute throughout tissues and organs.

Abstract: Modulation of microRNAs against myotonic dystrophy type 1 and antagonists of microRNAs therefor. The invention provides the use of inhibitors of microRNAs repressors of MBNL1 and/or MBNL2 genes for the manufacture of a medicinal product for the treatment of myotonic dystrophy 1. Inhibiting these microRNAs allows to increase the endogenous levels of the corresponding proteins MBNL1 and/or MBNL2, thereby alleviating symptoms of the disease, especially when inhibiting repressors that are expressed in the main affected organs: skeletal muscle, heart or organs of the central nervous system. The inhibition of the microRNAs miR-23b-3p and miR-218-5p is preferred. It also provides oligoribonucleotide or oligoribonucleotide analogue antagonists suitable therefor, preferably antagomiRs directed against the microRNAs mentioned with chemical modifications that enhance their interaction with the target, their stability in vivo and their ability to penetrate into the cells and distribute throughout tissues and organs.

Abstract: The present invention provides oligonucleotides that inhibit the binding of miR-27a to VE-cadherin mRNA, particularly in the form of blockmirs. The invention also provides compositions comprising such oligonucleotides and methods of use of such oligonucleotides to modulate the activity of VE-cadherin, inhibit or reduce vascular permeability, treat or prevent a vascular permeability-associated disease or condition, inhibit tumor growth, treat ischaemic injury, enhance recovery from ischaemic injury, treat surgical wounds and/or promotes post-operative recovery, and promote or induce angiogenesis.

Abstract: The present invention describes oligonucleotides that bind to microRNA target sites in target RNAs, such as mRNAs. The oligonucleotides of the invention may mediate RNase H degradation of the target RNA, mediate RNAi of the target RNA or prevent microRNA regulation of the target RNA. The oligonucleotides of the invention are useful e.g. as research tools for studying microRNA:mRNA interactions and for therapeutic development. The present invention also describes methods of identifying microRNA target sites, methods of validating microRNA target sites, methods of identifying oligonucleotides of the invention and methods of modulating the activity of a target RNA using the oligonucleotides of the invention.

Abstract: The present invention provides oligonucleotides that inhibit the binding of miR-27a to VE-cadherin mRNA, particularly in the form of blockmirs. The invention also provides compositions comprising such oligonucleotides and methods of use of such oligonucleotides to modulate the activity of VE-cadherin, inhibit or reduce vascular permeability, treat or prevent a vascular permeability-associated disease or condition, inhibit tumour growth, treat ischaemic injury, enhance recovery from ischaemic injury, treat surgical wounds and/or promotes post-operative recovery, and promote or induce angiogenesis.

Abstract: The present invention relates to oligonucleotides for modulation of target RNA activity. Thus, the invention provides oligonucleotides that bind to microRNA binding sites of target RNA. The oligonucleotides may activate RNase H or RNAi. In a preferred embodiment, the oligonucleotides prevents a microRNA from binding to its binding site of the target RNA and thereby prevent the microRNA from regulating the target RNA. Such oligonucleotides have uses in research and development of new therapeutics.

Abstract: The present invention relates to oligonucleotides for modulation of target RNA activity. Thus, the invention provides oligonucleotides that bind to microRNA binding sites of target RNA. The oligonucleotides may activate RNase H or RNAi. In a preferred embodiment, the oligonucleotides prevents a microRNA from binding to its binding site of the target RNA and thereby prevent the microRNA from regulating the target RNA. Such oligonucleotides have uses in research and development of new therapeutics.

Abstract: The present invention relates to oligonucleotides for modulation of target RNA activity. Thus, the invention provides oligonucleotides that bind to microRNA binding sites of target RNA. The oligonucleotides may activate RNase H or RNAi. In a preferred embodiment, the oligonucleotides prevents a microRNA from binding to its binding site of the target RNA and thereby prevent the microRNA from regulating the target RNA. Such oligonucleotides have uses in research and development of new therapeutics.

Abstract: The present invention relates to oligonucleotides for modulation of target RNA activity. Thus, the invention provides oligonucleotides that bind to microRNA binding sites of target RNA. The oligonucleotides may activate RNase H or RNAi. In a preferred embodiment, the oligonucleotides prevents a microRNA from binding to its binding site of the target RNA and thereby prevent the microRNA from regulating the target RNA. Such oligonucleotides have uses in research and development of new therapeutics.

Abstract: The present invention describes oligonucleotides that bind to microRNA target sites in target RNAs, such as mRNAs. The oligonucleotides of the invention may mediate RNase H degradation of the target RNA, mediate RNAi of the target RNA or prevent microRNA regulation of the target RNA. The oligonucleotides of the invention are useful e.g. as research tools for studying microRNA:mRNA interactions and for therapeutic development. The present invention also describes methods of identifying microRNA target sites, methods of validating microRNA target sites, methods of identifying oligonucleotides of the invention and methods of modulating the activity of a target RNA using the oligonucleotides of the invention.