An isolated protease comprising a polypeptide having the structure is described: P-A-B5 in which P is a protease domain, A is an A-domain, and B is a B-domain, of a Group VII to XIII cell envelope protease (CEP), wherein the protease does not have a PA domain. An isolated protease according to claim 1, selected from a wild-type Group VII to XIII cell envelope protease. The use of the protease as a medicament is treating immune dysregulation diseases is also described.

The present disclosure provides compositions and methods for treating, preventing, or inhibiting diseases of the eye. In one aspect, the disclosure provides recombinant CF1 adeno-associated virus (rAAV) vectors comprising a complement system gene.

This invention relates to inhibition of the complement signaling using an anti-C5 antibody or fusion protein thereof. Specifically, the invention relates to methods of treating a complement-mediated disease or complement-mediated disorder in an individual by contacting the individual with an anti-C5 antibody fusion protein thereof.

The present invention relates to combinations of anti-C5 antibodies and antigen-binding fragments which have been determined to exhibit superior activity relative to that of a single anti-C5 antibody or fragment. The combinations include anti-C5 antibodies and antigen-binding fragments which do not compete with one another from C5 binding. Bispecific antibodies comprising antigen-binding domains which do not compete and/or bind the same epitope on C5 are also provided. Compositions and therapeutic methods relating to such anti-C5 combinations and bispecific antibodies are provided herein.

Aspects of the disclosure relate to compositions and methods for expressing a Factor H protein (or a variant thereof) in a cell or subject. In some embodiments, the disclosure provides isolated nucleic acids and rAAVs comprising a transgene encoding a Factor H protein variant and one or more regulatory sequences. In some embodiments, compositions described herein are useful for treating subjects having diseases associated with Factor H deficiency.

The present invention provides, among other things, improved therapeutic compositions comprising a C3 fusion protein and methods of making and using the same. In particular, the present invention provides improved methods for the treatment of spinal cord injury and other CNS trauma and/or facilitate axon growth or other tissue repair.

Non-human animals comprising a human or humanized C3 and/or C5 nucleic acid sequence are provided as well as methods for using the same to identify compounds capable of modulating the complement system. Non-human animals that comprise a replacement of the endogenous C5 gene and/or C3 gene with a human or humanized C5 gene and/or C3 gene, and methods for making and using the non-human animals, are described. Non-human animals comprising a human or humanized C5 gene under control of non-human C5 regulatory elements is also provided, including non-human animals that have a replacement of non-human C5-encoding sequence with human C5-encoding sequence at an endogenous non-human C5 locus. Non-human animals comprising a human or humanized C3 gene under control of non-human C3 regulatory elements is also provided, including non-human animals that have a replacement of non-human C3 protein-encoding sequence with human or humanized C3 protein-encoding sequence at an endogenous non-human C3 locus. Non-human animals comprising human or humanized C3 and/or C5 sequences, wherein the non-human animals are rodents, e.g., mice or rats, are provided.

Provided are antibodies and antigen-binding fragments thereof that bind specifically to human complement factor C2 and are capable of inhibiting activation of the classical and lectin pathways of the complement system. The antibodies and antigen-binding fragment exhibit improved manufacturability, pharmacokinetics, and antigen sweeping. Also provided are pharmaceutical compositions comprising the antibodies and antigen-binding fragments, nucleic acids and vectors encoding the antibodies and antigen-binding fragments, host cells comprising the nucleic acids or vectors, and methods of making and using the antibodies and antigen-binding fragments. The antibodies and antigen-binding fragments can be used to inhibit the classical pathway of complement activation in a subject, e.g., a human. The antibodies and antigen-binding fragments can also be used to inhibit the lectin pathway of complement activation in a subject, e.g., a human.

Disclosed herein are nucleic acids encoding for and proteins expressing chimeric C1q polypeptides, non-human animals comprising said nucleic acids, and methods of making or using said non-human animals.

Non-human animals comprising a human or humanized C3 and/or C5 nucleic acid sequence are provided as well as methods for using the same to identify compounds capable of modulating the complement system. Non-human animals that comprise a replacement of the endogenous C5 gene and/or C3 gene with a human or humanized C5 gene and/or C3 gene, and methods for making and using the non-human animals, are described. Non-human animals comprising a human or humanized C5 gene under control of non-human C5 regulatory elements is also provided, including non-human animals that have a replacement of non-human C5-encoding sequence with human C5-encoding sequence at an endogenous non-human C5 locus. Non-human animals comprising a human or humanized C3 gene under control of non-human C3 regulatory elements is also provided, including non-human animals that have a replacement of non-human C3 protein-encoding sequence with human or humanized C3 protein-encoding sequence at an endogenous non-human C3 locus. Non-human animals comprising human or humanized C3 and/or C5 sequences, wherein the non-human animals are rodents, e.g., mice or rats, are provided.