The present invention relates to the field of neurological diseases, particularly to neurodegenerative diseases caused by dipeptide repeat toxicity. The invention provides genetic and chemical inhibitors of the protein kinase NEK6 to treat amyotrophic lateral sclerosis and frontotemporal dementia.

Disclosed herein include methods and compositions for making proteins in peroxisomes as well as methods of making cells for producing proteins in peroxisomes. Also disclosed herein are cells for producing a protein in a peroxisome, and methods for producing a protein in a eukaryotic cell containing a peroxisome as described herein.

Provided herein are compositions and methods that can be utilized to ameliorate, treat, or at least partially eliminate diseases and conditions that can arise from genomic mutations. Subject compositions and methods can be used to edit RNA to ameliorate, treat, or at least partially eliminate the disease and conditions in a subject.

Genetically modified cells that are compatible with multiple subjects, e.g., universal donor cells, and methods of generating said genetic modified cells are provided herein. The universal donor cells comprise at least one genetic modification within or near a gene that encodes one or more MHC-I or MHC-II human leukocyte antigens or a component or a transcriptional regulator of a MHC-I or MHC-II complex, wherein genetic modification comprises an insertion of a polynucleotide encoding a tolerogenic factor and/or survival factor. The universal donor cells may further comprise at least one genetic modification within or near a gene that encodes a survival factor, wherein said genetic modification comprises an insertion of a polynucleotide encoding a second tolerogenic factor and/or a different survival factor.

The invention provides PRKACB gene fusions, PRKACB fusion proteins, and fragments of those genes and polypeptides. The invention further provides methods of diagnosing and treating diseases or disorders associated wiih PRKACB fusions, such as conditions mediated by aberrant PRKACB expression or activity or overexpression of PRKACB.

Disclosed herein are therapeutic constructs including a delivery particle, at least one mitotic kinase inhibitor, and at least one immune checkpoint inhibitor. Also disclosed are therapeutic constructs including a mitotic kinase inhibitor, an immune checkpoint inhibitor, and a chemical linker. These therapeutic constructs cause cancer death by both therapeutic and immune effects and promote targeted delivery of more therapeutics to the surviving cancer cells in a positive feed-back loop. They enhance therapeutic index of free drugs and can be used intratumorally or systemically. This strategy can treat broad cancer types and is particular useful for cancer without obvious receptors for cancer-targeted delivery of otherwise toxic therapeutics.

Compounds of Formula la, lb, or Ic, are described, where the various substituents are defined herein. The compounds can modulate a property or effect of Akt3 in vitro or in vivo, and can also be used, individually or in combination with other agents, in the prevention or treatment of a variety of conditions. Methods for synthesizing the compounds are described. Pharmaceutical compositions and methods of using these compounds or compositions, individually or in combination with other agents or compositions, in the prevention or treatment of a variety of conditions are also described.

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In certain aspects, the invention provides a method for treating a disease or condition in a subject, the method comprising co-administering to a subject in need thereof a therapeutically effective amount of at least one ULK1-inhibiting pyrimidine, and a therapeutically effective amount of an mTOR inhibitor.

Provided herein are antisense oligonucleotides and prophylactic and therapeutic methods featuring such oligonucleotides. These oligonucleotides and methods are useful for treating or preventing ataxia telangiectasia in a subject. Specifically, the disclosure provides antisense nucleobase oligomers each comprising (8-40) nucleobases, wherein at least 90% of said nucleobases or more than (8) consecutive nucleobases of the oligomer are complementary to a nucleic acid sequence in an Ataxia-Telangiectasia Mutated (ATM) allele comprising a mutation associated with aberrant splicing.

Parkin protein variants having activating mutations and/or fused to a mitochondrial targeting sequence are provided. The engineered Parkin may be a fusion protein including a mitochondrial targeting sequence (MTS); a transmembrane domain; and a Parkin protein or functional variant or fragment thereof, such as a Parkin having an N-terminal deletion. The MTS may be the MTS of PINK1 or a functional variant thereof. Alternatively or in addition, the engineered Parkin may have one or more activating mutations, such as single amino-acid substitutions. The engineered Parkin may be delivered in a vector, such as an adeno-associated virus (AAV) vector, and may be used to treat a disease or disorder, such as Parkinson’s disease or any of various neurodegenerative diseases.