The disclosure is directed to compounds and methods for preparing purified macrocyclic peptide using “catch-release” methods. These methods comprise reacting a free amino group of a resin-bound linear peptide with an azide- or alkyne-functionalized cap to form a resin-bound capped linear peptide having an azide- or alkyne-functionalized cap; cleaving the capped linear peptide from the resin to form a free capped linear peptide having an azide- or alkyne-functionalized cap; reacting the free capped linear peptide having an azide-functionalized cap with an alkyne-functionalized catch resin, or reacting the free capped linear peptide having an akynyl-functionalized cap with an azide functionalized catch resin, to form a catch-resin bound capped linear peptide; reacting the catch-resin bound capped linear peptide under conditions sufficient to effect macrocyclization of the linear peptide and release of the macrocyclic peptide from the catch resin.

A method for cleaving a disulfide bond in a protein includes: cleaving a disulfide bond in a protein present in a reaction system by reduction via a reduced redox protein; and reducing an oxidized redox protein produced by oxidation of the reduced redox protein in the cleaving to the reduced redox protein by donating an electron from an electrode connected to an external power supply outside the reaction system to the oxidized redox protein.

A method for cleaving a disulfide bond in a protein includes: cleaving a disulfide bond in a protein present in a reaction system by reduction via a reduced redox protein; and reducing an oxidized redox protein produced by oxidation of the reduced redox protein in the cleaving to the reduced redox protein by donating an electron from an electrode connected to an external power supply outside the reaction system to the oxidized redox protein.

The present invention provides a production method for a metal-encapsulated cage-like protein, comprising a step of introducing a metal element into a cage-like protein in the presence of a polysaccharide to produce a metal-encapsulated cage-like protein that encapsulates the metal element.

The present invention is related to the use of HMGB1 antagonists, specifically derivatives of K883 in the treatment and/or prevention and/or inhibition of neuropathy pain, and in particular diabetic neuropathy in mammals, e.g., humans, and pharmaceutical compositions for the same comprising HMGB1 antagonists in an effective amount to treat and/or prevent and/or inhibit this condition.

The present invention is related to the use of HMGB1 antagonists, specifically derivatives of K883 in the treatment and/or prevention and/or inhibition of neuropathy pain, and in particular diabetic neuropathy in mammals, e.g., humans, and pharmaceutical compositions for the same comprising HMGB1 antagonists in an effective amount to treat and/or prevent and/or inhibit this condition.

Provided herein are peptidomimetic macrocycles containing amino acid sequences with at least two modified amino acids that form an intramolecular cross-link that can help to stabilize a secondary structure of the amino acid sequence. Suitable sequences for stabilization include those with homology to the p53 protein. These sequences can bind to the MDM2 and/or MDMX proteins. Also provided herein are methods of using such macrocycles for the treatment of diseases and disorders, such as cancers or other disorders characterized by a low level or low activity of a p53 protein or high level of activity of a MDM2 and/or MDMX protein.

Provided herein are peptidomimetic macrocycles containing amino acid sequences with at least two modified amino acids that form an intramolecular cross-link that can help to stabilize a secondary structure of the amino acid sequence. Suitable sequences for stabilization include those with homology to the p53 protein. These sequences can bind to the MDM2 and/or MDMX proteins. Also provided herein are methods of using such macrocycles for the treatment of diseases and disorders, such as cancers or other disorders characterized by a low level or low activity of a p53 protein or high level of activity of a MDM2 and/or MDMX protein.

The present disclosure pertains to compositions comprising anti-VEGF proteins and methods for producing such compositions.

The present disclosure pertains to compositions comprising anti-VEGF proteins and methods for producing such compositions.