Non-human animal cells and non-human animals comprising CRISPR/Cas synergistic activation mediator system components and methods of making and using such non-human animal cells and non-human animals are provided. Methods are provided for using such non-human animals to increase expression of target genes in vivo and to assess CRISPR/Cas synergistic activation mediator systems for the ability to increase expression of target genes in vivo.

Provided herein are methods and agents for modulating the signaling pathway and components thereof that are responsible for assembly and disassembly of synapses in neurons, including amyloid beta (Aβ) mediated synaptotoxicity and synapse loss. Also provided herein are methods for screening and identifying candidate agents capable of modulating synapse formation and (Aβ) mediated synaptotoxicity.

Described herein are methods of prolonging or reactivating organogenesis in a subject in need thereof (e.g., a subject that has impaired organ function such as a prematurely born infant). The methods comprise increasing the expression or activity of Lin28A or Lin28B proteins, inhibiting the expression or activity of let-7 family microRNAs, and/or inhibiting the expression or activity of Dis3L2 exonuclease.

Provided herein are polynucleotide constructs comprising a CD11b promoter operably linked to a nucleic acid encoding one or more therapeutic polypeptides, to vectors, cells, and/or compositions comprising the same, and to methods of their use.

Methods for the treatment and prevention of laminopathies and diseases characterised by hyperlipidemia through LING complex inhibition are disclosed. In particular, LING complex disruption by expression of dominant-negative LING complex proteins alleviates pathophysiology in Lmna mutation-associated muscular dystrophy, progeria, and dilated cardiomyopathy. In addition, LING complex disruption by expression of dominant-negative LING complex proteins also alleviates pathophysiology in mouse models of atherosclerosis and familial hypercholesterolemia.

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.

A nerve in a mammal is optogenetically transduced, wherein the nerve is susceptible to stimulus by selective application of transdermal light, and a light source is applied to dermis of the mammal at or proximate to the optogenetically transduced nerve, to thereby stimulate the nerve. A wearable device for optogenetic motor control and sensation restoration of a mammal includes a wearable support, a power source at the wearable support, a controller at the wearable support and in electrical communication with a power source, and a transdermal light source coupled to the controller.

Nonsense-mediated mRNA decay (NMD) polypeptides, nucleic acids encoding NMD polypeptides, and methods of using such polypeptides and nucleic acids in the treatment of ALS and in screening for agents for the treatment of ALS are described.

Provided herein are methods for enhancing survival of a neuron, for inhibiting degeneration of a neuron, and for inhibiting abnormal protein accumulation in a neuron, optionally a motor neuron, comprising, consisting or consisting essentially of increasing the level of cyclin F in the neuron regardless of the neuron's level or activity of endogenous cyclin F. Optionally the neuron is in a subject with a neurodegenerative condition or at risk of developing a neurodegenerative condition, typically a neurodegenerative condition associated with a neuronal TDP-43 proteinopathy.

A preparation method of an anti-PD-1/PD-L1 monoclonal antibody (mAb)-induced autoimmune myocarditis model is provided, including: mediating a model with adeno-associated virus 9 (AAV9) to achieve the high expression of PDL1 in a myocardial tissue, and applying an anti-PD-1/PD-L1 mAb to the model with high PDL1 expression in the myocardial tissue for modeling. The present disclosure also provides use of an animal model prepared by the preparation method. The model prepared by the present disclosure truly simulates the pathogenesis and clinical course of autoimmune myocarditis in a patient administered with an anti-PD1/PD-L1 mAb, is close to a pathophysiological status of a clinical patient, has a high modeling rate, and can be dynamically monitored.