This invention relates to glaucoma, and more particularly to use of VE-PTP-null allele to rescue from the glaucoma symptom of elevated intraocular pressure. This invention also relates to conditional knockout of VE-PTP to rescue from the glaucoma symptom of elevated intraocular pressure expressed in an Angiopoietin 1 and Angiopoietin 2 conditional knockout mouse. This invention also relates to the use of VE-PTP-null alleles.

This disclosure relates to modified viruses, e.g., oncolytic vaccinia viruses, which have been modified to contain an exogenous nucleic acid that expresses a protein that modulates STAT3 activity. It is based, at least in part, on the discovery that vaccinia viruses modified to contain nucleic acid encoding PIAS3 and that express PIAS3 or a fragment thereof can inhibit STAT3 activity and enhance the anti-cancer activity of the vaccinia virus. Accordingly, this disclosure provides for oncolytic vaccinia viruses and methods of using them in the treatment of cancers.

Genetically modified non-human animals and methods and compositions for making and using the same are provided, wherein the genetic modification comprises a humanization of an endogenous signal-regulatory protein gene, in particular a humanization of a SIRP? gene. Genetically modified mice are described, including mice that express a human or humanized SIRP? protein from an endogenous SIRP? locus.

Disclosed herein is a method of promoting sustained survival, sustained regeneration, in a lesioned mature neuron, sustained compensatory outgrowth in a neuron, or combinations thereof. The method comprises contacting the lesioned mature neuron with an effective amount of an inhibitor of PTEN and an effective amount of an inhibitor of SOCS3 to thereby promote survival and/or regeneration and/or compensatory outgrowth of the neuron. Therapeutic methods of treatment of a subject with a neuronal lesion by administration of a therapeutically effective amount of an inhibitor of PTEN and a therapeutically effective amount of an inhibitor of SOCS3, are also disclosed, as are pharmaceutical compositions and devices for use in the methods.

Provided is a single-stranded oligonucleotide that is capable of controlling a target gene with high efficiency and can be easily produced. The single-stranded oligonucleotide is represented by the formula X-L-Y wherein X and Y hybridize by a first nucleotide sequence portion and a second nucleotide sequence portion. X is composed of 7 to 100 nucleotides, contains at least one modified nucleotide, and has a first nucleotide sequence that is capable of hybridizing with a second oligonucleotide and contains at least four contiguous nucleotides recognized by RNase H. Y is composed of 4 to 100 nucleotides, and has a second nucleotide sequence that is capable of hybridizing with a second oligonucleotide and contains at least one ribonucleotide. At least one of nucleotide sequence X and nucleotide sequence Y has an antisense sequence capable of hybridizing with a target RNA. L is a group derived from a third oligonucleotide that is degraded under physiological conditions.

Provided herein are oligomeric compounds with conjugate groups. In certain embodiments, the oligomeric compounds are conjugated to N-Acetylgalactosamine.

Provided herein are recombinant nucleic acids encoding chimeric priming receptors that bind ALPG/P, chimeric antigen receptors that bind MSLN, and shRNA that target FAS, PTPN2, and/or TOX. Also provided are systems of chimeric priming receptors that bind ALPG/P, chimeric antigen receptors that bind MSLN, and shRNA that target FAS, PTPN2, and/or TOX, cells expressing such proteins and shRNA, and methods of use thereof.

The present invention relates to efficient methods for providing antigen-specific lymphoid cells. These lymphoid cells may be used to provide antigen specific T cell receptors having a defined MHC restriction and to identify immunologically relevant T cell epitopes. Furthermore, the present invention relates to antigen-specific T cell receptors and T cell epitopes and their use in immunotherapy.

The present disclosure is directed to providing a new skin-penetrating peptide, a fusion product with a biologically active substance bound using the same, a cosmetic composition containing the same and a pharmaceutical composition for external application to skin containing the same. The skin-penetrating peptide of the present disclosure is less likely to cause an immune response as compared to existing skin-penetrating peptides and exhibits remarkably improved skin permeability. Therefore, the biologically active substance can be effectively delivered through the skin, particularly through the stratum corneum.

Provided herein are oligomeric compounds with conjugate groups. In certain embodiments, the oligomeric compounds are conjugated to N-Acetylgalactosamine.