siRNA compositions are provided that contain gemcitabine (GEM) in place of cytosine moieties within the siRNA sequence. Pharmaceuticals compositions containing these siRNA molecules, and methods of using the compositions for treating diseases such as cancer are provided.

The present invention provides gene editing systems comprising gene editing dimerization switches comprising a first and second gene editing switch domain that allow for the regulation of a gene editing function by the introduction, e.g., administration, of a gene editing dimerization molecule having the ability to bring together a first gene editing switch domain and a second gene editing switch domain. A regulated gene editing function provides, e.g., less off-target side effects, and increases the therapeutic window.

The present invention also provides improved FKBP/FRB-based dimerization switches wherein the FRB switch domain or the FKBP switch domain, or both the FRB and FKBP switch domains, comprise one or more mutations that optimize performance, e.g., that alter, e.g., enhance the formation of a complex between the first switch domain, the second switch domain, and the dimerization molecule, rapamycin, or a rapalog, e.g., RAD001.

The present invention relates to compositions, methods, uses and kits for the treatment of renal cystogenesis. In particular, the compositions, methods, uses and kits are particularly useful, but not limited to, the treatment or prevention of Polycystic Kidney Disease. In one aspect, the prevent invention provides a method of minimising or delaying renal cystogenesis in a subject in need thereof, the method comprising inhibiting AKT in the subject, or reducing the level of Aurora kinase in the subject, thereby minimising or delaying renal cystogenesis.

The present disclosure provides surprisingly useful fusion polypeptides including an immunomodulatory moiety and a metal-hydroxide binding moiety, as well as various related technologies, including methods of making and of using such fusion polypeptides.

Exemplary methods, compositions, kits and uses thereof for treating neoplasia are provided. For example, a method can be provided for treating neoplasia in a subject, including administering to the subject a VRK2 (vaccinia-related kinase 2) inhibitor, alone or in combination with an inhibitor of Programmed cell death receptor-1 (PD-1). The exemplary methods, compositions and kits may improve cancer immunotherapy.

Materials and methods for treating potentially chemoresistant tumors (e.g., using DNA-PKcs inhibitors and anti-B7-H1 antibodies) are provided herein.

Compositions and methods for treating cancer are provided. In particular, the compositions comprise an anti-neoplastic agent and either an interferon type I agonist or an interferon type II agonist, or a combination of an interferon type I agonist and an interferon type II agonist.

Compositions and methods for the management and treatment of inflammatory disorders including SLE are disclosed.

Aspects of the present disclosure provide compositions comprising NEK10 for example, wild-type NEK10 or a hyper-active NEK10 mutant such as NEK10.sup.S684D, and methods of using such for treating a respiratory disorder such as bronchiectasis.

Provided are methods and compositions for promoting tissue (e.g., muscle) regeneration using one or more activators of fatty acid oxidation, such as one or more PPARγ activators. The methods and compositions described herein are also useful for promoting tissue growth, inducing proliferation of stem cells, inducing differentiation of tissuegenic cells (e.g., myogenic cells), and treating a disease or condition associated with a tissue (e.g., muscle), such as tissue injury, degeneration or aging, in an individual.