During development, OPCs migrate extensively throughout the spinal cord, but their migration is restricted at transition zones (TZ). At these specialized locations, unique glial cells in both zebrafish and mice are at least partially responsible for preventing peripheral OPC migration, but the mechanisms of this regulation are not understood. In order to elucidate the signals that mediate OPC segregation at motor exit point (MEP) TZs, we performed an unbiased small molecule screen. Using chemical screening and in vivo imaging, we discovered that inhibition of A2a adenosine receptors (AR) causes ectopic OPC migration out of the spinal cord. In our studies, we provide in vivo evidence that endogenous neuromodulation by adenosine regulates OPC migration along motor axons, specifically at the MEP TZ. This work opens exciting possibilities for understanding how OPCs reach their final destinations during development and identifies mechanisms that could promote their migration in disease.

A compound for treatment of pain comprising a single multivalent/multifunctional ligand with agonist activity at opioid receptors and with antagonist activity at NK-1 receptors, joined by a linker. Also disclosed is a pharmaceutical compound comprising the above compound in a pharmaceutically acceptable carrier.

The invention provides a combination treatment for ischemia conditions in or otherwise affecting the CNS, such as stroke. The treatment involves administration of a PSD-95 inhibitor and performing reperfusion therapy (e.g., by administration of tPA). Administering a PSD-95 inhibitor in combination with reperfusion therapy increases the efficacy of the reperfusion therapy and/or slows the decline in efficacy of reperfusion therapy with time after onset of ischemia thus extending the window in which reperfusion therapy can be administered.

The invention provides a combination treatment for ischemia conditions in or otherwise affecting the CNS, such as stroke. The treatment involves administration of a PSD-95 inhibitor and performing reperfusion therapy (e.g., by administration of tPA). Administering a PSD-95 inhibitor in combination with reperfusion therapy increases the efficacy of the reperfusion therapy and/or slows the decline in efficacy of reperfusion therapy with time after onset of ischemia thus extending the window in which reperfusion therapy can be administered.

The present invention relates to combinations comprising a positive allosteric modulator (“PAM”) of metabotropic glutamatergic receptor subtype 2 (“mGluR2”) or a pharmaceutically acceptable salt or a solvate thereof, or an orthosteric agonist of metabotropic glutamatergic receptor subtype 2 compound or a pharmaceutically acceptable salt or a solvate thereof, and a synaptic vesicle protein 2A (“SV2A”) ligand.

Described herein are methods for treating a subject having or at risk of developing an autoimmune or inflammatory condition or an infection by administering a neuromodulating agent.

Described herein are methods for treating a subject having or at risk of developing cancer by administering a neuromodulating agent.

The present disclosure provides compositions, methods, and kits that enable the in situ growth of polymers on or within a subject. In some aspects, the monomer, dopamine, polymerizes in vivo to form a polymer on a tissue. In additional aspects, the compositions, methods, and kits are useful for treating or preventing a disease or disorder.

Described herein are methods for treating a subject having or at risk of developing cancer administering a neuromodulating agent.

Provided herein are fusion constructs including a biologically active agent such as an antibody or derivative thereof which is functionally linked with a functional moiety such as an LC3 protein or portion thereof. Also provided are compositions and exosomes including such constructs, as well as methods for preparing exosomes containing such constructs, and methods for delivering such constructs to cells. Methods and uses of such constructs and exosomes for treating diseases or disorders are also provided, in which the constructs trigger autophagy of disease-related cellular or cytoplasmic targets such as misfolded/aggregated proteins in neurodegenerative diseases, for example.