Compositions and methods for modulating inflammation and wound healing are provided.

Provided are thiol-ene polymer networks which can reduce the ROS species that contribute to delayed bone healing and fusion. Furthermore, patients that suffer from neuropathic comorbidities such as diabetes suffer from a diminished healing capacity. An increase in proinflammatory factors and the high presence of reactive oxygen species (ROS) present in diabetics are linked to lower fusion rates. To this end, there is a need for a clinically relevant bone graft to promote bone fusions in patients with neuropathic comorbidities. Incorporating thiol-ene networks for bone scaffolds has demonstrated increased osteogenic biomarkers over traditional polymeric materials and act as antioxidants. Thiol-ene networks offer improved bone grafts for diabetic patients by reducing the number of hydroxyl radicals associated with neuropathic comorbidities. These networks are particularly well suited in promoting healing in patients with Type II Diabetes or other conditions exacerbated by ROS-mediated damage.

Provided are thiol-ene polymer networks which can reduce the ROS species that contribute to delayed bone healing and fusion. Furthermore, patients that suffer from neuropathic comorbidities such as diabetes suffer from a diminished healing capacity. An increase in proinflammatory factors and the high presence of reactive oxygen species (ROS) present in diabetics are linked to lower fusion rates. To this end, there is a need for a clinically relevant bone graft to promote bone fusions in patients with neuropathic comorbidities. Incorporating thiol-ene networks for bone scaffolds has demonstrated increased osteogenic biomarkers over traditional polymeric materials and act as antioxidants. Thiol-ene networks offer improved bone grafts for diabetic patients by reducing the number of hydroxyl radicals associated with neuropathic comorbidities. These networks are particularly well suited in promoting healing in patients with Type II Diabetes or other conditions exacerbated by ROS-mediated damage.

The disclosure relates to a method for protecting a kidney from renal injury. For example, acute renal injury may be associated with decreased or blocked blood flow in the subject's kidney or exposure to a nephrotoxic agent, such as a radiocontrast dye. The methods include administering to the subject an effective amount of an aromatic-cationic peptide to a subject in need thereof.

The disclosure relates to a method for protecting a kidney from renal injury. For example, acute renal injury may be associated with decreased or blocked blood flow in the subject's kidney or exposure to a nephrotoxic agent, such as a radiocontrast dye. The methods include administering to the subject an effective amount of an aromatic-cationic peptide to a subject in need thereof.

The present invention relates to use of peptides as a therapeutic agent, wherein it has been confirmed that the peptides of the present invention significantly inhibit the activity of T cells and the differentiation of T helper 17 cells (Th17 cells), which are associated with autoimmune disease, and have remarkable effects of treating and improving arthritis in an animal model of arthritis. Therefore, the peptides may be used as an active ingredient in therapeutic agents for various autoimmune diseases such as bone disease, inflammatory disease or rheumatoid arthritis.

Disclosed are gene risk profiles that predict outcomes in COVID-19. Single-cell analysis reveals immune responses associated with COVID-19 mortality.

Disclosed are gene risk profiles that predict outcomes in COVID-19. Single-cell analysis reveals immune responses associated with COVID-19 mortality.

The present invention relates to a method for increasing the blood-brain barrier permeability, and more particularly, to a method for increasing the blood-brain barrier permeability, the method including: (S1) a step of delivering a nanogenerator carrying a nitric oxide (NO) donor to a site adjacent to the blood-brain barrier; (S2) a step of delivering a first triggering stimulus to an area where the nanogenerator has been delivered so as to release nitric oxide from the nanogenerator; and (S3) a step of allowing the released nitric oxide to activate matrix metallopeptidase-9 (MMP-9) and inducing the activated MMP-9 to weaken the tight junction between a cerebrovascular endothelial cell and another cerebrovascular endothelial cell.

Provided is a technique that allows for the promotion of energy expenditure. The present invention is a composition for promoting energy expenditure, including, as an active ingredient, a milk protein hydrolysate having an average molecular weight of 220 Daltons or more and 1,000 Daltons or less, a peptide having only Met-Lys-Pro, or a peptide including the amino acid sequence.