The invention relates to a therapeutic combination, comprising a first proteinaceous molecule comprising a first binding site for binding to a first epitope of a first cell-surface molecule, the first proteinaceous molecule provided with at least one saponin covalently bound to an amino-acid residue of said first proteinaceous molecule, and comprising a second pharmaceutical composition comprising a second proteinaceous molecule different from the first proteinaceous molecule, the second proteinaceous molecule comprising a second binding site for binding to a second epitope of a second cell-surface molecule different from the first cell-surface molecule, and comprising an effector moiety, wherein the second epitope is different from the first epitope. An aspect of the invention is a composition comprising the first proteinaceous molecule and the second proteinaceous molecule of the invention. The invention also relates to an antibody-drug conjugate comprising the first proteinaceous molecule of the invention and an effector moiety. An aspect of the invention relates to a pharmaceutical composition comprising the composition or the antibody-drug conjugate of the invention, and optionally further comprising a pharmaceutically acceptable excipient. The invention also relates to the therapeutic combination or the composition or the antibody-drug conjugate or the pharmaceutical composition of the invention, for use as a medicament. The invention also relates to the therapeutic combination of the invention for use in the treatment or prophylaxis of a cancer.

RNA interference (RNAi) triggers for inhibiting the expression of Factor XII (F12) gene through the mechanism of RNA interference are described. Pharmaceutical compositions comprising one or more F12 RNAi triggers together with one or more excipients capable of delivering the RNAi trigger(s) to a liver cell in vivo are also described. Delivery of the F12 RNAi trigger(s) to liver cells in vivo provides for inhibition of F12 gene expression and treatment of angioedema, including hereditary angioedema (HAE) and venous thromboembolism (VTE), and diseases associated with angioedema.

Methods for using microRNA, particularly miRRA, to regulate nucleotide excision repair (NER) for treatment of cancer, particularly drug resistant breast cancer (BC) or late-stage breast cancer. The microRNA will effectively lower NER capacity in breast cancer, allowing for application or reapplication of chemotherapy that will be significantly more effective after pretreatment with the microRNA. Pharmaceutical compositions including microRNA are also provided.

The present disclosure describes the role for miR-322(424)/503 in the differentiation of cardiac precursor cells. Thus, the use of these molecules in the programming of resident stem/progenitor cells into cardiomyocytes, both in vitro and in vivo. Such methods find particular use in the treatment of patients post-myocardial infarction to prevent or limit scarring and to promote myocardial repair.

Disclosed herein are transcription activator-like effector nuclease (TALEN)-related compositions and methods of using said TALENs for correcting mutant genes.

RNAi constructs directed to MAP4K4 that demonstrate unexpectedly high gene silencing activities, and uses thereof are disclosed. The blunt-ended constructs have a double-stranded region of 19-49 nucleotides. The constructs have selective minimal modifications to confer an optimal balance of biological activity, toxicity, stability, and target gene specificity. For example, the strands may be modified (e.g., one or both ends of the sense strand is modified by 2′-O-methyl groups), such that the construct is not cleaved by Dicer or other RNAse III, the antisense strand may also be modified by a 2′-O-methyl group at the penultimate 5′-end nucleotide to greatly reduce off-target silencing.

A novel compound to induce a pluripotent stem cell is provided. A novel anti-malignant-tumor substance is provided. A pluripotent stem cell-inducing agent, including a single-stranded or double-stranded polynucleotide containing the base sequence shown in SEQ ID NO:41 or a base sequence including deletion, substitution, or addition of 1 to 3 bases in SEQ ID No: 41, in which the pluripotent stem cell-inducing agent induces a cell to become a pluripotent stem cell is provided.

Chronic inflammation is an increasing medical problem area of high socioeconomic significance. The invention relates to a method and a kit for diagnosing a molecular phenotype of a patient suffering from an illness accompanied by chronic inflammation, and to a medicament for treating such a patient. To that end, the gene expression of GATA-3 and/or Tbet in a biological isolate of the patient is measured and used for association with a molecular phenotype of the illness.

Provided herein are chemically ligated guide RNA oligonucleotides (lgRNA) which comprise two functional RNA modules (crgRNA and tracrgRNA) joined by non-nucleotide chemical linkers (nNt-linker), their complexes with CRISPR-Cas9, preparation methods of Cas9-lgRNA complexes, and their uses for prevention and treatments of herpesvirus infections in humans. Also disclosed are processes and methods for preparation of these compounds.

The present invention is based, at least in part, upon discovery of a process for identifying phase changing peptides. Such phase changing peptides are capable of enhancing in vitro and in vivo delivery of oligonucleotides (e.g., dsRNAs) in lipidic, vesicular, micellar and/or naked oligonucleotide formulations.