Abstract: Aspects of the invention provide methods for selecting a candidate oligonucleotide for activating expression of a target gene. Further aspects of the invention provide methods of selecting a set of oligonucleotides that is enriched in oligonucleotides that activate expression of a target gene. Further aspects provide single stranded oligonucleotides that modulate gene expression and compositions and kits comprising the same. Methods for modulating gene expression using the single stranded oligonucleotides are also provided.

Abstract: Aspects of the invention provide single stranded oligonucleotides for activating or enhancing expression of BDNF. Further aspects provide compositions and kits comprising single stranded oligonucleotides for activating or enhancing expression of BDNF. Methods for modulating expression of BDNF using the single stranded oligonucleotides are also provided. Further aspects of the invention provide methods for selecting a candidate oligonucleotide for activating or enhancing expression of BDNF.

Abstract: Provided herein are methods and compositions for modulating the activity or level of a sirtuin, thereby treating or preventing obesity or an insulin resistance disorder, such as diabetes in a subject. Exemplary methods comprise contacting a cell with a sirtuin activating compound or an inhibitory compound to thereby increase or decrease fat accumulation, respectively.

Abstract: Methods and devices are provided for activating brown adipose tissue (BAT) with cooling. Generally, the methods and devices can activate BAT to increase thermogenesis, e.g., increase heat production in the patient, which over time can lead to weight loss and/or improved metabolic function. In one embodiment, a medical device is provided that activates BAT by cooling tissue having a high density of cold sensitive thermoreceptors and/or by cooling BAT depots directly, thereby increasing thermogenesis in the BAT and inducing weight loss and/or improved metabolic function through energy expenditure.

Abstract: Aspects of the invention provide single stranded oligonucleotides for activating or enhancing expression of UTRN. Further aspects provide compositions and kits comprising single stranded oligonucleotides for activating or enhancing expression of UTRN. Methods for modulating expression of UTRN using the single stranded oligonucleotides are also provided. Further aspects of the invention provide methods for selecting a candidate oligonucleotide for activating or enhancing expression of UTRN.

Abstract: The present invention provides new zinc finger proteins and zinc finger nuclease (ZFNs) that find particular using in repairing the cystic fibrosis transmembrane conductance regulator (CFTR) gene.

Abstract: The present invention provides halofuginol, and derivatives and salts thereof, including diasteromerically enriched compositions thereof. The invention also provides pharmaceutical and cosmetic compositions thereof as well as methods for using halofuginol and derivatives thereof in treating chronic inflammatory diseases, autoimmune diseases, dry eye syndrome, fibrosis, scar formation, angiogenesis, viral infections, malaria, ischemic damage, transplant rejection, neurodegenerative diseases, T-cell neoplasms, and cosmetic conditions.

Abstract: The invention relates to antibodies that bind cross-linked amyloid ? oligomers, and methods for using such antibodies for diagnosis and treatment of Alzheimer's disease.

Abstract: Provided herein are methods for treating cancer that is resistant to treatment with an anti-ErbB therapeutic agent and which is associated with an activating MET gene mutation or a MET gene amplification. The methods involve administering to a subject a combination of an anti-ErbB therapeutic and an anti-MET therapeutic. Also provided are methods for reducing ErbB mediated signaling or PI3 kinase mediated signaling in a cancer cell.

Abstract: The disclosure relates to methods for treating a subject suffering from a burn injury or associated complications by administering to the subject an effective amount of an aromatic-cationic peptide. For example, a burn injury may be associated with distant pathophysiological effects, such as hypermetabolism, skeletal muscle dysfunction, and organ damage. The disclosure also relates to methods for protecting a subject from a burn injury by administering an effective amount of an aromatic-cationic peptide to a subject at risk of a burn injury.

Abstract: Methods and therapeutics are provided for treating metabolic disorders by increasing activation of brown adipose tissue. Generally, the methods and therapeutics can increase activation of brown adipose tissue to increase energy expenditure and induce weight loss. In one embodiment, a method for increasing activation of brown adipose tissue includes modifying brown adipocytes to express a gene that activates brown adipocytes, such as uncoupling protein 1. In another embodiment, a method for increasing brown adipose tissue activation includes increasing the number of brown adipocytes. This can be accomplished by inducing proliferation of adipocytes in vivo or expanding adipocytes ex vivo, transplanting adipocytes into brown adipose tissue depots or elsewhere and inducing differentiation of adipocyte progenitor cells, such as MSCs, adipocyte progenitor cells, pre-adipocytes and adipocyte precursor cells.

Abstract: The invention provides compositions and methods for delivering an agent to virally infected tissues and/or cells of a subject by conjugating agent-loaded nanoparticles to virus-specific T cells, such as cytotoxic T lymphocytes. The agent may be a latency-reversing drug (LRD), an antiviral agent and/or an agent that enhances cytotoxic efficacy of T lymphocytes.

Abstract: The present invention provides compounds of formula I, pharmaceutically acceptable salts thereof, and pharmaceutical compositions thereof. Compounds of the present invention are useful for inhibiting kinase (e.g., GSK3 (e.g., GSK3? or GSK3?) or CK1) activity. The present invention further provides methods of using the compounds described herein for treating kinase-mediated disorders, such as neurological diseases, psychriatic disorders, metabolic disorders, and cancer.

Abstract: Methods and compositions are generally provided for treating metabolic disorders, e.g., obesity. One aspect discloses methods and compositions for obtaining a biological sample from the subject, evaluating the sample for the presence or absence of a genetic indicator, wherein the genetic indicator is selected from a single nucleotide polymorphism and a level of gene expression, and performing a first metabolic procedure if the genetic indicator is present, or performing an alternative second metabolic procedure if the genetic indicator is absent. One aspect discloses methods and compositions for obtaining a sample including deoxyribonucleic acids (DNA) from the subject, evaluating the DNA for an absence or presence of one or more genetic indicators and performing a first metabolic procedure or an alternative second metabolic procedure based on the absence or presence of the genetic indicator(s). Other aspects are also disclosed.

Abstract: This invention is directed to ?-1-6-glucans, compositions and devices comprising the same, and methods of use thereof in modulating immune responses. The ?-1-6-glucans of certain embodiments of the invention are enriched for O-acetylated groups and/or conjugated to a solid support or linked to a targeting moiety.

Abstract: The present invention generally provides methods and systems for performing in vivo flow cytometry by using blood vessels as flow chambers through which flowing cells can be monitored in a live subject in vivo without the need for withdrawing a blood sample. In some embodiments, one or more blood vessels are illuminated with radiation so as to cause a multi-photon excitation of an exogenous fluorophore that was previously introduced into the subject to label one or more cell types of interest. In some other embodiments, rather than utilizing an exogenous fluorophore, endogenous (intrinsic) cellular fluorescence can be employed for in vivo flow cytometry. The emission of fluorescence radiation from such fluorophores in response to the excitation can be detected and analyzed to obtain information regarding a cell type of interest.

Abstract: Methods and devices are provided for activating brown adipose tissue with targeted substance delivery. Generally, the methods and devices can activate BAT to increase thermogenesis, e.g., increase heat production in the patient, which over time can lead to weight loss and/or improved metabolic function. In one embodiment, a chemical configured to stimulate nerves that activate the BAT and/or to stimulate brown adipocytes directly can be delivered to a patient, thereby increasing thermogenesis in the BAT and inducing weight loss and/or improved metabolic function through energy expenditure. The chemical can be delivered to the patient locally and/or systemically to stimulate the nerves and/or the brown adipocytes.

Abstract: The present invention relates to methods of decreasing inflammation by inhibiting polo-like kinase (PlK)

Abstract: The present invention provides polymers for use in preventing damage to the membranes of cells in fat grafts. Mixing of a triblock copolymer such as poloxymer P188 with adipocytes or adipose tissue to be transplanted into a subject is thought to stabilize the membranes of the cells leading to more successful fat transplantation in soft tissue reconstruction or augmentation. Such methods may also be used in the transplantation of adult stem cells or other cells derived from fat tissue. Other agents such as lipoic acid may also be added to the polymer/cell compositions for cell transplantation.

Abstract: A novel pathway in cancer cell metabolism is identified. Targeting of any gene, protein, or enzyme that modulates activity or flux through this pathway, including, but not limited to IDH1, isocitrate dehydrogenase 2 (IDH2), aconitase 1 (ACO1), aconitase 2 (ACO2), glutaminase (GLS), glutamate dehydrogenase (GDH) and transaminase, provides effective means of inhibiting tumor growth.