Abstract: The disclosure relates to compositions and methods for the preparation, manufacture and therapeutic use of polynucleotide molecules comprising an mRNA encoding an OX40L polypeptide. Also provided is a method for activating T cells or increasing the number of NK cells in a subject in need thereof.

Abstract: The invention provides for a method for selectively reducing the expression of a mutant mRNA and/or protein having an expanded nucleotide repeat relative to a wild-type mRNA, comprising contacting a cell with an antisense oligonucleotide of sufficient length and complementarity to the expanded nucleotide repeat. More particularly it relates to selectively reducing the expression of mutant Huntington protein associated with Huntington's disease. The antisense oligonucleotide comprising either a nucleotide or a repeated three nucleotide sequence as defined in the claims.

Abstract: Described herein are methods and compositions for the prevention or treatment of obesity and obesity-related disorders. The methods and compositions are based, inter alia, on the observations that OPN3 is the most highly expressed opsin in the hypothalamus, a key site for the regulation of energy homeostasis. Indeed, OPN3 expression was highest in regions associated with energy homeostasis, namely the paraventricular nucleus and arcuate nucleus of the hypothalamus. OPN3 was shown to interact and form a complex with MC3R and MC4R, and to modulate MC3R- and MC4R-mediated signaling in the hypothalamus. Accordingly, the methods involve the regulation of melanocortin receptors by downregulating opsin 3 (OPN3) protein expression, OPN3 gene expression, and/or OPN3 activation in the hypothalamus.

Abstract: Provided are methods for increasing the amount or activity of FMR1 RNA, and in certain instances of increasing the amount of FMRP protein, in an animal Such methods are useful to prevent or ameliorate at least one symptom of a Fragile X-Spectrum disorder. Such Fragile X-Spectrum disorders include FXS, FXTAS, and FXPOI.

Abstract: The present disclosure relates to the use of nucleic acid (e.g., mRNA) combination therapies for the treatment of cancer. The disclosure provides compositions, and methods for their preparation, manufacture, and therapeutic use, wherein those compositions comprise at least two polynucleotides (e.g., mRNAs) in combination wherein the at least two polynucleotides are selected from the group consisting of (i) a polynucleotide encoding an immune response primer (e.g., IL23), (ii) a polynucleotide encoding an immune response co-stimulatory signal (e.g., OX40L), (iii) a polynucleotide encoding a checkpoint inhibitor (e.g., an anti CTLA-4 antibody), and, (iv) a combination thereof. The therapeutic methods disclosed herein comprise, e.g., the administration of a combination therapy disclosed herein for the treatment of cancer, e.g., by reducing the size of a tumor or inhibiting the growth of a tumor, in a subject in need thereof.

Abstract: The disclosure relates to double stranded ribonucleic acid (dsRNAi) agents and compositions targeting a SOD1 gene, as well as methods of inhibiting expression of a SOD1 gene and methods of treating subjects having a SOD1-associated neurodegenerative disease or disorder, e.g., Amyotrophic Lateral Sclerosis (ALS), Alzheimer's disease (AD), Parkinson's disease (PD), and Down's syndrome (DS), using such dsRNAi agents and compositions.

Abstract: The present invention relates to methods for detecting activation of a brown/beige fat cell or brown/beige adipose tissue (BAT) in a biological sample taken from a mammal to be diagnosed, comprising measuring the amount of miR-92 in said sample. The invention furthermore relates to diagnostic and clinical applications of the methods of the invention.

Abstract: Methods and compositions for the amplification of nucleic acids and generation of concatemers are disclosed. Amplification methods provided herein may be performed under isothermal conditions. Methods and compositions may include reagents such nucleic acid polymerases and primers.

Abstract: Provided is a short-chain guide RNA that is able to induce site-specific editing even when only a small number of nucleotides is attached to the target recognition site. The guide RNA includes a first oligonucleotide that identifies the target RNA, and a second oligonucleotide that links to the 3? end of the first oligonucleotide. The first oligonucleotide contains: a target-corresponding nucleotide residue that corresponds to an adenosine residue in the target RNA; an oligonucleotide of 15 to 30 residues that links to the 5? end of the target-corresponding nucleotide residue and that has a base sequence complementary to the target RNA; and an oligonucleotide of 3 or 4 residues that links to the 3? end of the target-corresponding nucleotide residue and that has a base sequence complementary to the target RNA. The second oligonucleotide contains 2 to 24 nucleotide residues, and induces site-specific editing of the target RNA.

Abstract: The present disclosure involves a process to identify a patient likely to have OSCC by taking a sample containing miRNA from epithelial cells from the patient's oral cavity and determining the relative level of expression of miRNA sequences which have different levels of expression in epithelial cell OSCC tissue than in benign tissue. The epithelial cells are those that form the mucosal epithelium that consists mainly of keratinocytes with some immune cells. It involves determining the relative level of expression of at least miRNA sequences hsa-miR-130-3p, hsa-miR-7-5p, hsa-miR-101-3p and hsa-miR-146b-5p. It also involves discriminating between benign oral lesions and OSCC using a sample of epithelial cells of the lesion and determining the relative level of expression of miRNA sequences which have different levels of expression in epithelial cell OSCC tissue than in benign tissue. It uses the relative level of expression of at least miRNA sequences hsa-miR-196a-5p and hsa-miR-873-5p.

Abstract: The present disclosure relates to the technical field of biology, and in particular to a Macrobrachium nipponense Cathepsin L gene and use of dsRNA thereof, including the Macrobrachium nipponense Cathepsin L gene, a gene fragment and the dsRNA thereof, and use of the dsRNA in inhibiting ovary development of Macrobrachium nipponense. The Macrobrachium nipponense Cathepsin L gene is obtained at first with the full-length nucleotide sequence as shown in SEQ ID No. 1 and the amino acid sequence as shown in SEQ ID No. 2. Gene fragments with sequences of SEQ ID No. 3 and SEQ ID No. 8 are obtained by using technologies such as RNA interference, and dsRNA1 and dsRNA2 are synthesized from the two gene fragments. The synthesized dsRNA1 and dsRNA2 are injected into a pericardial cavity of a female Macrobrachium nipponense and the result shows that the dsRNA1 can effectively slow down the ovary development speed of the female Macrobrachium nipponense.

Abstract: The present invention provides an aptamer that binds to chymase, and contains a common sequence represented by UAACR1N1R2GGGG wherein R1 and R2 are each any one base, and N1 shows 3 to 30 bases (uracil is optionally thymine).

Abstract: This disclosure relates to oligonucleotides, compositions and methods useful for reducing CTNNB1 expression, particularly in hepatocytes, for the treatment of bile duct paucity-associated conditions. Disclosed oligonucleotides for the reduction of CTNNB1 expression may be double-stranded or single-stranded, and may be modified for improved characteristics such as stronger resistance to nucleases and lower immunogenicity. Disclosed oligonucleotides for the reduction of CTNNB1 expression may also include targeting ligands to target a particular cell or organ, such as the hepatocytes of the liver.

Abstract: The present disclosure provides compositions with a modulating gene expression and methods for modulating transcription.

Abstract: The present application discloses a lentiviral transfer system which includes: (i) a self-inactivating transfer vector comprising: multiple gene units, wherein each gene unit includes a heterologous nucleic acid sequence operably linked to a regulatory nucleic acid sequence; and (ii) a helper construct which lacks a 5? LTR, wherein the 5? LTR has been replaced with a heterologous promoter, in which the helper construct further comprises: a lentiviral env nucleic acid sequence containing a deletion, wherein the deleted env nucleic acid sequence does not produce functional env protein; and a packaging signal contains a deletion, wherein the deleted packaging signal is nonfunctional.

Abstract: The present disclosure relates to an anti-miRNA delivery system, and more specifically, relates to a technique of using a cancer-targeting anti-miRNA delivery system including porous silicon nanoparticles containing anti-miRNA to which a cancer cell surface protein-binding peptide is conjugated, for use in treating cancer. As a result of intensive studies in order to use and apply anti-miR-21 oligonucleotides to the treatment of ovarian cancer, the present inventors confirmed for the first time that when porous silicon nanoparticles containing an anti-miRNA-21 oligonucleotide to which a specific cancer cell surface protein-binding peptide is conjugated are applied, apoptosis is induced in an ovarian cancer cell line and cell viability is reduced, thus, an anti-miRNA delivery system, which is the aforementioned conjugate, is expected to be usefully used as a platform for treating various cancers, especially for treating ovarian cancer.

Abstract: A nucleic acid-drug complex is provided in the present disclosure, which includes a nucleic acid sequence of an anti-PD-L1 aptamer and a CpG oligonucleotide sequence capable of activating TLR9, in which the CpG oligonucleotide sequence consists of a first fragment and a second fragment, and the nucleic acid sequence of the anti-PD-L1 aptamer is inserted between the first fragment and the second fragment.

Abstract: Disclosed herein are compositions and methods for inhibiting the growth of cells or inducing cell death. The composition capable of inhibiting the growth of cells or inducing cell death comprises a 5?-triphosphate non-linear RNA. The RNA comprises a first stem-loop formed from the complete or partial hybridization of at least 8 nucleotide pairings and may optionally comprise a second stem-loop formed from the complete or partial hybridization of at least 8 nucleotide pairings and a spacer between the first stem-loop and the second stem loop. Methods for inhibiting the growth of cells or inducing cell death comprise contacting cells with the composition or administering the composition to a subject in an amount effective to inhibit the growth of the cells or induce death of the cells.

Abstract: The present invention relates to RNAi agents, e.g., double stranded RNA (dsRNA) agents, targeting the Angiopoietin-like 3 (ANGPTL3) gene. The invention also relates to methods of using such RNAi agents to inhibit expression of an ANGPTL3 gene and to methods of preventing and treating an ANGPTL3-associated disorder, e.g., a disorder of lipid metabolism, such as hyperlipidemia or hypertriglyceridemia.

Abstract: Disclosed are polynucleotides, compositions, and methods related to RNA interference (RNAi). The disclosed polynucleotides, compositions, and methods may be utilized for treating diseases and disorders through RNAi. Particular disclosed are toxic RNAi active seed sequences and methods of using toxic RNAi active sequences for killing cancer cells. The disclosed toxic RNAi active seed sequences preferentially target and inhibit the expression of multiple essential genes for cell survival and/or growth through a process called “death-induced by survival gene elimination” or “DISE.