The present disclosure provides methods for inhibiting and/or reducing self-reactive IgE and/or basophils, thereby treating or preventing lupus, lupus nephritis, and lupus-related disorders.

The invention relates to a method of controlling the level of a polypeptide sequence comprising administering a polypeptide sequence fused to a ubiquitin targeting protein which comprises a minimal degron structural motif. In particular, the polypeptide sequence comprises a chimeric antigen receptor therefore the present invention is useful in methods of cell and gene therapy where the activity of the chimeric antigen receptor needs to be controlled.

The present application provides for IL-2 muteins, compositions comprising the same, and methods of using the same.

Described herein are methods of identifying immunologically protective neo-epitopes from the cancer tissue DNA of cancer patients using biophysical principles as well as bioinformatics techniques. The identification of immunologically protective neo-epitopes provides pharmaceutical compositions with a limited number of tumor-specific peptides suitable for personalized genomics-driven immunotherapy of human cancer. Specifically disclosed herein is a method of using the conformational stability of an epitope in an MHC protein-binding groove to predict immunogenicity of peptides in a putative neo-peptide set from a tumor from a cancer patient. Pharmaceutical compositions and methods of administration are also included.

Described herein are methods of identifying immunologically protective neo-epitopes from the cancer tissue DNA of cancer patients using biophysical principles as well as bioinformatics techniques. The identification of immunologically protective neo-epitopes provides pharmaceutical compositions with a limited number of tumor-specific peptides suitable for personalized genomics-driven immunotherapy of human cancer. Specifically disclosed herein is a method of using the conformational stability of an epitope in an MHC protein-binding groove to predict immunogenicity of peptides in a putative neo-peptide set from a tumor from a cancer patient. Pharmaceutical compositions and methods of administration are also included.

The present invention provides methods of treating, stabilizing or lessening the severity or progression of a disease or disorder associated with BTK.

The present invention relates to anti-VEGF/anti-IL-1beta antibodies and methods of using the same.

This disclosure relates to intranasal administration of conjugates comprising guanidinylated aminoglycosides (“guanidinoglycosides”) and a polypeptide (e.g., an enzyme, antibody, or polypeptide growth factor). For example, such administration methods are useful for delivering a polypeptide to the brain and/or cerebrospinal fluid. Such methods are useful for treating a lysosomal storage disease through intranasal administration of a conjugate comprising one or more guanidinoglycosides and an enzyme useful for treating a lysosomal storage disease.

The present invention provides a compound, preferably a peptide, having the following characteristics: a) consisting of 9 amino acids in a linear arrangement; b) of those 9 amino acids, 5 are cationic and 4 have a lipophilic R group; c) at least one of said 9 amino acids is a non-genetically coded amino acid (e.g. a modified derivative of a genetically coded amino acid); and optionally d) the lipophilic and cationic residues are arranged such that there are no more than two of either type of residue adjacent to one another; and further optionally e) the molecule comprises two pairs of adjacent cationic amino acids and one or two pairs of adjacent lipophilic residues;
for use in the treatment of a tumour by combined, sequential or separate administration with an immune checkpoint inhibitor. The present invention further provides pharmaceutical packs or compositions comprising these active agents and methods of treating a tumour comprising administration of these active agents. Also provided are the peptidic compounds as defined above for use in the destabilisation of a mitochondrial membrane, and a peptidic compound as defined above and an immunotherapeutic agent as a combined preparation for separate, simultaneous or sequential use in treating tumours.

The present invention provides a compound, preferably a peptide, having the following characteristics: a) consisting of 9 amino acids in a linear arrangement; b) of those 9 amino acids, 5 are cationic and 4 have a lipophilic R group; c) at least one of said 9 amino acids is a non-genetically coded amino acid (e.g. a modified derivative of a genetically coded amino acid); and optionally d) the lipophilic and cationic residues are arranged such that there are no more than two of either type of residue adjacent to one another; and further optionally e) the molecule comprises two pairs of adjacent cationic amino acids and one or two pairs of adjacent lipophilic residues;
for use in the treatment of a tumour by combined, sequential or separate administration with an immune checkpoint inhibitor. The present invention further provides pharmaceutical packs or compositions comprising these active agents and methods of treating a tumour comprising administration of these active agents. Also provided are the peptidic compounds as defined above for use in the destabilisation of a mitochondrial membrane, and a peptidic compound as defined above and an immunotherapeutic agent as a combined preparation for separate, simultaneous or sequential use in treating tumours.