Abstract: The present invention is related to the use of HMGB1 antagonists such as K883 in the treatment and/or prevention and/or inhibition of severe sepsis 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.

Abstract: Methods of treating HMGB1-mediated inflammation by administering a therapeutically effective amount of an MD2-antagonist to a subject in need thereof are described. The novel MD2 antagonist tetrapeptide P5779 is also described.

Abstract: The present invention is related to the use of HMGB1 antagonists in the treatment and/or prevention and/or inhibition of acute lung injury in mammals, e.g., humans, and pharmaceutical compositions for the same comprising HMGB1 antagonists, in particular K883, in an effective amount to treat and/or prevent and/or inhibit this condition.

Abstract: Dimers for use in synthesis of peptidomimetics are described. Uses of dimers as synthons in synthesis of azapeptides and other peptidomimetics, azapeptides and other peptidomimetics synthesized from the dimers and uses of azapeptides and other peptidomimetics are also described.

Abstract: The present invention is related to the use of HMGB1 antagonists such as K883 in the treatment and/or prevention and/or inhibition of severe sepsis 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.

Abstract: Methods of treating HMGB1-mediated inflammation by administering a therapeutically effective amount of an MD2-antagonist to a subject in need thereof are described. The novel MD2 antagonist tetrapeptide P5779 is also described.

Abstract: Thioesters, thiocarbamates, thiocarbazates, semithiocarbazates, peptides, aza-amino acid conjugates, and azapeptides; and a chemoselective and site-specific functionalization protocol of protected thiocarbazates and semithiocarbazates are described. The protocol features the use of Mitsunobu reaction to alkylate specifically the nitrogen atom close to the acylthiol moiety with alcohols to produce protected mono-substituted thiocarbazates that can be stored for months, activated under mild conditions at low temperature using halonium reagents and integrated orthogonally to make substituted semicarbazides that can be used, e.g., as synthons in synthesis of aza-amino acid conjugates, azapeptides and other peptidomimetics.

Abstract: The present invention is related to the use of HMGB1 antagonists such as K883 in the treatment and/or prevention and/or inhibition of severe sepsis 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.

Abstract: Synthesis of O-benzotriazole and O-imidazole synthons are described. Uses of synthons in synthesis of azapeptides and other peptidomimetics, azapeptides and other peptidomimetics synthesized from the synthons and uses of azapeptides and other peptidomimetics are also described.

Abstract: The present invention is related to HMGB1 antagonists and, in particular, HMGB1 tetramer peptidomimetics which have been stabilized with at least one azatide linkage, such as K883. The present invention is also related to pharmaceutical compositions comprising HMGB1 antagonists such as K883.

Abstract: 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.

Abstract: Thioesters, thiocarbamates, thiocarbazates, semithiocarbazates, peptides, aza-amino acid conjugates, and azapeptides; and a chemoselective and site-specific functionalization protocol of protected thiocarbazates and semithiocarbazates are described. The protocol features the use of Mitsunobu reaction to alkylate specifically the nitrogen atom close to the acylthiol moiety with alcohols to produce protected mono-substituted thiocarbazates that can be stored for months, activated under mild conditions at low temperature using halonium reagents and integrated orthogonally to make substituted semicarbazides that can be used, e.g., as synthons in synthesis of aza-amino acid conjugates, azapeptides and other peptidomimetics.

Abstract: Thioesters, thiocarbamates, thiocarbazates, semithiocarbazates, peptides, aza-amino acid conjugates, and azapeptides; and a chemoselective and site-specific functionalization protocol of protected thiocarbazates and semithiocarbazates are described. The protocol features the use of Mitsunobu reaction to alkylate specifically the nitrogen atom close to the acylthiol moiety with alcohols to produce protected mono-substituted thiocarbazates that can be stored for months, activated under mild conditions at low temperature using halonium reagents and integrated orthogonally to make substituted semicarbazides that can be used, e.g., as synthons in synthesis of aza-amino acid conjugates, azapeptides and other peptidomimetics.

Abstract: Synthesis of O-benzotriazole and O-imidazole synthons are described. Uses of synthons in synthesis of azapeptides and other peptidomimetics, azapeptides and other peptidomimetics synthesized from the synthons and uses of azapeptides and other peptidomimetics are also described.

Abstract: This disclosure generally relates to treating anemias. More specifically, the disclosure relates to use of muscarinic acetylcholine receptor subtype 4 antagonists, such as small molecule compounds, to promote self-renewal of burst forming unit erythroid (BFU-E) cells and treat anemias.

Abstract: Synthesis of O-benzotriazole and O-imidazole synthons are described. Uses of synthons in synthesis of azapeptides and other peptidomimetics, azapeptides and other peptidomimetics synthesized from the synthons and uses of azapeptides and other peptidomimetics are also described.

Abstract: Methods of treating HMGB1-mediated inflammation by administering a therapeutically effective amount of an MD2-antagonist to a subject in need thereof are described. The novel MD2 antagonist tetrapeptide P5779 is also described.

Abstract: Synthesis of O-benzotriazole and O-imidazole synthons are described. Uses of synthons in synthesis of azapeptides and other peptidomimetics, azapeptides and other peptidomimetics synthesized from the synthons and uses of azapeptides and other peptidomimetics are also described.

Abstract: The present invention is related to the use of HMGB1 antagonists such as K883 in the treatment and/or prevention and/or inhibition of severe sepsis 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.

Abstract: Methods of treating HMGB1-mediated inflammation by administering a therapeutically effective amount of an MD2-antagonist to a subject in need thereof are described. The novel MD2 antagonist tetrapeptide P5779 is also described.