Provided are compositions and methods useful in regenerating damaged tissue, especially cardiac tissue, by delivering to the site of injury an miRNA that can reduce, for example, the expression of phosphatase and tensin homolog (PTEN). The compositions and methods of the disclosure may be generally applied to deliver an miRNA to a cell or tissue such as, but not limited to, a neuron, a smooth muscle cell, or a tumor cell. The compositions comprise a transmembrane carrier peptide conjugated, optionally by a linker, to an oligonucleotide complementary to an miRNA. The carrier peptide facilitates the entry of the miRNA into cells and for delivery to a tissue of an animal or human may be mixed with an extracellular matrix-derived hydrogel carrier.

Methods and compositions for treating central nervous system diseases and disorders are disclosed.

The present invention provides a recombinant bacterium and methods of using the recombinant bacterium to induce an immune response.

The present invention relates to a pharmaceutical composition for inhibiting rejection of transplanted cells including a high mobility group box 1 A domain (HMGB1A) as an active ingredient. The use of the pharmaceutical composition can minimize immunological rejection, which may occur upon cell transplantation, and increase the success rate of cell transplantation.

Protein kinase inhibitors and more specifically inhibitors of the protein kinase c-Jun amino terminal kinase are herein described. Additionally, JNK inhibitor sequences, chimeric peptides, nucleic acids encoding same as well as pharmaceutical compositions for treating pathophysiologies associated with JNK signaling are herein provided.

The present invention relates to a pharmaceutical composition for inhibiting rejection of transplanted cells including a high mobility group box 1 A domain (HMGB1A) as an active ingredient. The use of the pharmaceutical composition can minimize immunological rejection, which may occur upon cell transplantation, and increase the success rate of cell transplantation.

The application provides data from a clinical trial of a PSD-95 inhibitor in subjects undergoing endovascular repair of an aneurysm in or otherwise affecting the CNS. The subjects were stratified by whether the aneurysm ruptured before performing the endovascular surgery. Rupture is associated with higher mortality or increased debilitation if a subject survives. The trial provided evidence of significant benefit in subjects with and without aneurysm rupture before endovascular was surgery performed. Surprisingly, the subjects benefitting most from treatment as judged both by pathology and neurocognitive outcome were those in which the aneurysm had ruptured causing a subarachnoid hemorrhage. These data constitute evidence that a PSD-95 inhibitor is beneficial not only in ischemic and hemorrhagic stroke but in forms of hemorrhage in or affecting the CNS, particularly, subarachnoid hemorrhage.

The application provides data from a clinical trial of a PSD-95 inhibitor in subjects undergoing endovascular repair of an aneurysm in or otherwise affecting the CNS. The subjects were stratified by whether the aneurysm ruptured before performing the endovascular surgery. Rupture is associated with higher mortality or increased debilitation if a subject survives. The trial provided evidence of significant benefit in subjects with and without aneurysm rupture before endovascular was surgery performed. Surprisingly, the subjects benefitting most from treatment as judged both by pathology and neurocognitive outcome were those in which the aneurysm had ruptured causing a subarachnoid hemorrhage. These data constitute evidence that a PSD-95 inhibitor is beneficial not only in ischemic and hemorrhagic stroke but in forms of hemorrhage in or affecting the CNS, particularly, subarachnoid hemorrhage.

The application provides data from a clinical trial of a PSD-95 inhibitor in subjects undergoing endovascular repair of an aneurysm in or otherwise affecting the CNS. The subjects were stratified by whether the aneurysm ruptured before performing the endovascular surgery. Rupture is associated with higher mortality or increased debilitation if a subject survives. The trial provided evidence of significant benefit in subjects with and without aneurysm rupture before endovascular was surgery performed. Surprisingly, the subjects benefitting most from treatment as judged both by pathology and neurocognitive outcome were those in which the aneurysm had ruptured causing a subarachnoid hemorrhage. These data constitute evidence that a PSD-95 inhibitor is beneficial not only in ischemic and hemorrhagic stroke but in forms of hemorrhage in or affecting the CNS, particularly, subarachnoid hemorrhage.

Protein kinase inhibitors and more specifically inhibitors of the protein kinase c-Jun amino terminal kinase are herein described. Additionally, JNK inhibitor sequences, chimeric peptides, nucleic acids encoding same as well as pharmaceutical compositions for treating pathophysiologies associated with JNK signaling are herein provided.