The present disclosure relates to an inhibitor of Dynamin 2 for use in the treatment of centronuclear myopathies. The present disclosure relates to pharmaceutical compositions containing Dynamin 2 inhibitor and to their use for the treatment of centronuclear myopathies. It also deals with a method for identifying or screening molecules useful in the treatment of a centronuclear myopathy.

Disclosed herein are antisense oligonucleotides that are capable of inducing expression of ubiquitin-protein ligase E3A (UBE3A) from the paternal allele in animal or human neurons. The oligonucleotides target the suppressor of the UBE3A paternal allele by hybridization to SNHG14 long non-coding RNA at the 5′-end of UBE3A-AS, which is downstream of SNORD115-45 snoRNA. Also disclosed are pharmaceutical compositions and methods for treatment of Angelman syndrome.

The invention encompasses methods for generating stable exosome formulations and encompasses stable exosome formulations. The exosome formulations encompass stable liquid exosome formulations and stable lyophilized exosome formulations. In some embodiments, the exosome formulations can be generated by ultrafiltration and diafiltration. The exosome formulations can be suitable for administration to a human.

The present disclosure provides novel compositions and methods suitable for specifically eliminating target cells (e.g., cancer cells) without affecting non-target cells (e.g., non-cancer cells). For example, CR-ISPR system and the compositions of the present disclosure can be employed to specifically introduce a suicidal gene into a cancer cell in the loci of a cancer-specific target sequence, which as a result of chromosomal re-arrangement or translocation in a cancer cell presents a cancer specific sequence for a guide RNA and CAS to be recognized and such sequence is absent in a non-cancer cell. Consequently, the specific introduction of the composition(s) to cancer-specific site(s) and integration of suicide gene in the target genome, which is inapplicable to normal cells for lack of the site(s), leads to selective elimination of cancer cells but not non-cancer cells, and therefore render novel therapeutic methods and compositions for cancer treatment.

Compositions and methods are provided for Tat-inducible expression of a CRISPR-associated endonuclease by a truncated HIV LTR promoter containing at least a core region and a TAR region of a HIV LTR promoter. The compositions may be used as a therapeutic treatment for the treatment and/or prevention of HIV.

Disclosed is an oligonucleotide-modified nucleic acid containing at least one 1-β-D-arabinofuranosylcytosine as a modified nucleic acid having therapeutic efficacies and guanosine. More particularly, a novel oligonucleotide-modified nucleic acid containing at least one modified nucleic acid (N) having therapeutic efficacies and being rich in guanosine (G) is synthesized and the fact that the novel oligonucleotide-modified nucleic acid has excellent apoptotic activities on blood cancer cells and drug-resistant blood cancer cells is identified. Based on this, provided is a composition for preventing, ameliorating or treating blood cancer, containing the novel oligonucleotide-modified nucleic acid, and the novel oligonucleotide-modified nucleic acid or a pharmaceutically acceptable salt thereof as an active ingredient.

The present invention provides a cationic lipid, which allow nucleic acids to be easily introduced into cells, represented by formula (I) (wherein: R.sup.1 and R.sup.2 are, the same or different, alkenyl, etc, and X.sup.1 and X.sup.3 are hydrogen atoms, or are combined together to form a single bond or alkylene, and X.sup.3 is absent or is alkyl, etc, Y is absent or anion, a and b are, the same or different, 0 to 3, and L.sup.3 is a single bond, etc, R.sup.3 is alkyl, etc, L.sup.1 and L.sup.2 are —O—, —CO—O— or —O—CO—), a composition comprising the cationic lipid and a nucleic acid, and a method for introducing a nucleic acid into a cell by using the composition comprising the cationic lipid and the nucleic acid, and the like. ##STR00001##

The present invention provides compounds and methods for modulating target nucleic acids found in organelles or sub-organelles of cells. The invention includes, but is not limited to compounds and methods that modulate target nucleic acids in a sub-nuclear organelle, such as the nucleolus and/or a cajal body. In certain embodiments, the cell is in an animal.

The invention relates to methods and pharmaceutical compositions for the treatment of Cytokine Release Syndrome (CRS). The invention also relates to methods for the diagnosis of patients suffering from Cytokine Release Syndrome. The inventors investigate iron homeostasis and the role of CD44-mediated iron endocytosis in the severe inflammatory response and Cytokine Release Syndrome, particularly in SARS-CoV-2 patients. The inventors demonstrate that during activation of M1 macrophages, iron endocytosis is upregulated in a CD44-dependent manner and that CD44 protein levels increase. This effect is specific to M1 macrophages, whereas levels of the canonical iron endocytosis protein TfR1/CD71 remain unchanged. In the present invention, the inventors provide in vitro evidences towards a direct role of CD44-mediated iron endocytosis in the severe inflammatory response such as Cytokine Release Syndrome observed in SARS-CoV-2 patients. Thus, the present invention relates to an antagonist of CD44/Hyaluronic Acid pathway for use in the treatment of cytokine release syndrome in a subject in need thereof, particularly severe COVID-19-related cytokine release syndrome.

The present disclosure provides compositions and methods for treating or reducing the risk of pancreatic cancer by administering compounds capable of inhibiting the expression or activity of RUNX3.