Abstract: Complexes comprising a nucleic acid-guided endonuclease, a sequence-specific targeting nucleic acid and an amphipathic helical peptide are provided. Compositions and methods for delivery of complexes comprising a nucleic acid-guided endonuclease, a sequence-specific targeting nucleic acid and an amphipathic helical peptide to mammals for both research and therapeutic use are provided. Methods of treating or reducing one or more symptoms of type 2 diabetes, prediabetes and/or gestational diabetes are provided.

Abstract: Complexes comprising a nucleic acid-guided endonuclease, a sequence-specific targeting nucleic acid and an amphipathic helical peptide are provided. Compositions and methods for delivery of complexes comprising a nucleic acid-guided endonuclease, a sequence-specific targeting nucleic acid and an amphipathic helical peptide to mammals for both research and therapeutic use are provided. Methods of treating or reducing one or more symptoms of type 2 diabetes, prediabetes and/or gestational diabetes are provided.

Abstract: This disclosure relates to novel DGAT2 targeting sequences. Novel DGAT2 targeting oligonucleotides for the treatment of non-alcoholic fatty liver disease (NAFLD) and lipodystrophy syndromes (or metabolic syndrome) are also provided.

Abstract: Provided herein are methods and compositions for disrupting expression of nuclear receptor interacting protein 1 (Nrip1) in adipose cells, and methods of use of such adipose cells for treating, or reducing risk of, a condition associated with an elevated body mass index (BMI).

Abstract: Complexes comprising a nucleic acid-guided endonuclease, a sequence-specific targeting nucleic acid and an amphipathic helical peptide are provided. Compositions and methods for delivery of complexes comprising a nucleic acid-guided endonuclease, a sequence-specific targeting nucleic acid and an amphipathic helical peptide to mammals for both research and therapeutic use are provided. Methods of treating or reducing one or more symptoms of type 2 diabetes, prediabetes and/or gestational diabetes are provided.

Abstract: Provided herein are methods of inducing differentiation of a mammalian myoblast into a mammalian myocyte that include contacting a mammalian myoblast with an oligonucleotide that decreases Mitogen-activated protein kinase kinase kinase kinase 4 (Map4k4) mRNA expression in a mammalian myoblast or myocyte. Also provided are methods of inducing mammalian myoblasts or myocytes to form a myotube that include contacting two or more mammalian myoblasts or two or more mammalian myocytes with an oligonucleotide that decreases Map4k4 mRNA expression in a mammalian myoblast or myocyte. Also provided are methods of identifying a candidate agent useful for inducing muscle formation, and compositions containing an oligonucleotide that decreases Map4k4 mRNA expression in mammalian myoblast or myocyte and one or more additional muscle therapeutic agents and/or muscle-building neutraceuticals.

Abstract: Provided herein are methods of decreasing leukocyte extravasation from a lymph or blood vessel into a tissue in a mammal, methods of decreasing fluid leakage from a lymph or blood vessel in a mammal in need thereof, methods of decreasing formation of atherosclerotic plaques in a mammal in need thereof, and methods of treating atherosclerosis in a mammal that include administering to the mammal an oligonucleotide that decreases Mitogen-activated protein kinase kinase kinase kinase 4 (Map4k4) mRNA expression in an endothelial cell. Also provided are methods of identifying a candidate agent useful for decreasing leukocyte extravasation or decreasing fluid leakage from a lymph or blood vessel in a mammal, and compositions containing an oligonucleotide that decreases Map4k4 mRNA expression in an endothelial cell and additional therapeutic agents.

Abstract: The present invention generally relates to peptide-modified glucan particles (PcGPs) and/or amine-modifies glucan particles (amGPs) for use in delivering payload molecules, in particular, nucleic acid payload molecules, to cells. The invention relates to particular peptides and small molecule amines which are ideally suited for use in the pcGPs and amGPs of the invention, respectively. Preferred aspects of the invention feature a single-component delivery vehicle comprising the pcGPs or amGPs and siRNA, for use as an siRNA delivery vehicle. Methods of making such particles and methods of using such particles, for example, for in mediating in vitro and in vivo gene silencing are disclosed herein.

Abstract: Provided herein are methods of inducing differentiation of a mammalian myoblast into a mammalian myocyte that include contacting a mammalian myoblast with an oligonucleotide that decreases Mitogen-activated protein kinase kinase kinase kinase 4 (Map4k4) mRNA expression in a mammalian myoblast or myocyte. Also provided are methods of inducing mammalian myoblasts or myocytes to form a myotube that include contacting two or more mammalian myoblasts or two or more mammalian myocytes with an oligonucleotide that decreases Map4k4 mRNA expression in a mammalian myoblast or myocyte. Also provided are methods of identifying a candidate agent useful for inducing muscle formation, and compositions containing an oligonucleotide that decreases Map4k4 mRNA expression in mammalian myoblast or myocyte and one or more additional muscle therapeutic agents and/or muscle-building neutraceuticals.

Abstract: Provided herein are methods of decreasing leukocyte extravasation from a lymph or blood vessel into a tissue in a mammal, methods of decreasing fluid leakage from a lymph or blood vessel in a mammal in need thereof, methods of decreasing formation of atherosclerotic plaques in a mammal in need thereof, and methods of treating atherosclerosis in a mammal that include administering to the mammal an oligonucleotide that decreases Mitogen-activated protein kinase kinase kinase kinase 4 (Map4k4) mRNA expression in an endothelial cell. Also provided are methods of identifying a candidate agent useful for decreasing leukocyte extravasation or decreasing fluid leakage from a lymph or blood vessel in a mammal, and compositions containing an oligonucleotide that decreases Map4k4 mRNA expression in an endothelial cell and additional therapeutic agents.

Abstract: Inhibition of RIP140 increases glucose transport. Compounds that inhibit RIP140 expression or activity are useful for treating disorders associated with aberrant glucose transport (e.g., diabetes), treating obesity, increasing metabolism (e.g., fatty acid metabolism), and increasing brown fat.

Abstract: Methods and compositions for delivering agents (e.g., gene silencing agents) and molecules to cells using yeast cell wall particles are presented herein. Embodiments of the invention are particularly useful for the delivery of nucleic acids (e.g., siRNAs) to cells.

Abstract: Methods and compositions for modulating glucose transport are provided herein.

Abstract: Inhibition of RIP140 increases glucose transport. Compounds that inhibit RIP140 expression or activity are useful for treating disorders associated with aberrant glucose transport (e.g., diabetes), treating obesity, increasing metabolism (e.g., fatty acid metabolism), and increasing brown fat.

Abstract: Inhibition of RIP140 increases glucose transport. Compounds that inhibit RIP140 expression or activity are useful for treating disorders associated with aberrant glucose transport (e.g., diabetes), treating obesity, increasing metabolism (e.g., fatty acid metabolism), and increasing brown fat.

Abstract: Methods and compositions for modulating glucose transport are provided herein.

Abstract: Inhibition of RIP140 increases glucose transport. Compounds that inhibit RIP140 expression or activity are useful for treating disorders associated with aberrant glucose transport (e.g., diabetes), treating obesity, increasing metabolism (e.g., fatty acid metabolism), and increasing brown fat.

Abstract: Inhibition of RIP140 increases glucose transport. Compounds that inhibit RIP140 expression or activity are useful for treating disorders associated with aberrant glucose transport (e.g., diabetes), treating obesity, increasing metabolism (e.g., fatty acid metabolism), and increasing brown fat.

Abstract: Methods and compositions for delivering agents (e.g., gene silencing agents) and molecules to cells using yeast cell wall particles are presented herein. Embodiments of the invention are particularly useful for the delivery of nucleic acids (e.g., siRNAs) to cells.

Abstract: Methods and compositions for modulating glucose transport are provided herein.