An objective of the invention is to provide anti-C5 antibodies and methods of using the same. The invention provides anti-C5 antibodies and methods of using the same. In some embodiments, an isolated anti-C5 antibody of the present invention binds to an epitope within the β chain of C5 with a higher affinity at neutral pH than at acidic pH. The invention also provides isolated nucleic acids encoding an anti-C5 antibody of the present invention. The invention also provides host cells comprising a nucleic acid of the present invention. The invention also provides a method of producing an antibody comprising culturing a host cell of the present invention so that the antibody is produced. The invention further provides a method of producing an anti-C5 antibody comprising immunizing an animal against a polypeptide which comprises the MG1-MG2 domain of the β chain of C5. Anti-C5 antibodies of the present invention may be for use as a medicament. Anti-C5 antibodies of the present invention may be for use in treating a complement-mediated disease or condition which involves excessive or uncontrolled activation of C5. Anti-C5 antibodies of the present invention may be for use in enhancing the clearance of C5 from plasma.

The present disclosure relates to an isolated anti-FcRN antibody, which is an antibody binding to FcRN (stands for neonatal Fc receptor, also called FcRP, FcRB or Brambell receptor) that is a receptor with a high affinity for IgG or a fragment thereof, a method of preparing thereof, a composition for treating autoimmune disease, which comprises the antibody, and a method of treating and diagnosing autoimmune diseases using the antibody. The FcRn-specific antibody according to the present disclosure binds to FcRn non-competitively with IgG to reduce serum pathogenic auto-antibody levels, and thus can be used for the treatment of autoimmune diseases.

The present disclosure relates to an isolated anti-FcRN antibody, which is an antibody binding to FcRN (stands for neonatal Fc receptor, also called FcRP, FcRB or Brambell receptor) that is a receptor with a high affinity for IgG or a fragment thereof, a method of preparing thereof, a composition for treating autoimmune disease, which comprises the antibody, and a method of treating and diagnosing autoimmune diseases using the antibody. The FcRn-specific antibody according to the present disclosure binds to FcRn non-competitively with IgG to reduce serum pathogenic auto-antibody levels, and thus can be used for the treatment of autoimmune diseases.

In certain embodiments, the present invention provides a method of treating or preventing lupus (e.g., SLE) in a subject, comprising: (a) identifying the subject as having at least one differentially regulated biomarker selected from CD40, CD40L, CD86, CD80, and PD1; and (b) administering an agent that inhibits the CD40 or CD28 signaling pathway, thereby treating or preventing lupus in the subject. In other embodiments, the present invention provides a method of treating or preventing lupus (e.g., SLE) in a subject, comprising: (a) administering an agent that inhibits the CD40 or CD28 signaling pathway; (b) determining whether the agent neutralizes at least one differentially regulated biomarker selected from CD40, CD40L, CD86, CD80, and PD1; and (c) adjusting the dosing of the agent in the subject, thereby treating or preventing lupus in the subject.

In certain embodiments, the present invention provides a method of treating or preventing lupus (e.g., SLE) in a subject, comprising: (a) identifying the subject as having at least one differentially regulated biomarker selected from CD40, CD40L, CD86, CD80, and PD1; and (b) administering an agent that inhibits the CD40 or CD28 signaling pathway, thereby treating or preventing lupus in the subject. In other embodiments, the present invention provides a method of treating or preventing lupus (e.g., SLE) in a subject, comprising: (a) administering an agent that inhibits the CD40 or CD28 signaling pathway; (b) determining whether the agent neutralizes at least one differentially regulated biomarker selected from CD40, CD40L, CD86, CD80, and PD1; and (c) adjusting the dosing of the agent in the subject, thereby treating or preventing lupus in the subject.

Type 1 diabetes (T1D) patients make antibodies to self-proteins that are potential biomarkers for early detection and risk prediction. We have identified seventeen antigens as biomarkers for early diagnosis and risk prediction of T1D, including the antigens MLH1, MTIF3, PPIL2, NUP50, TOX4, FIGN, C9orf142, ZNF280D, HES1, QRFPR, CTRC, SNX6, SYTL4, ELA2A, IGRP, PAX6, and HMGN3.

Type 1 diabetes (T1D) patients make antibodies to self-proteins that are potential biomarkers for early detection and risk prediction. We have identified seventeen antigens as biomarkers for early diagnosis and risk prediction of T1D, including the antigens MLH1, MTIF3, PPIL2, NUP50, TOX4, FIGN, C9orf142, ZNF280D, HES1, QRFPR, CTRC, SNX6, SYTL4, ELA2A, IGRP, PAX6, and HMGN3.

The present invention contemplates that complement receptor 1 and 2 may play a role in the induction of regulatory B cells under inflammatory conditions that accompany immune-mediated diseases. For example, long noncoding RNA may regulation transcription of the complement receptor I gene, thereby resulting in an induction and/or suppression of regulatory B cells. Such long noncoding RNA in mature B cells may be specifically targeted to modify complement receptor 1 levels and induce or suppress the generation of antigen-specific regulatory B cells, thereby modifying the course of immune mediated diseases including, but not limited to, autoimmune disease, cancer, and infection.

A system for detecting an infection caused by a strain of bacteria, the system comprising an electrode functionalised with proteins isolated from a cell wall of a bacteria of the strain of bacteria and a controller configured to communicate with the electrode to perform an electrochemical test of a blood sample from a subject. The blood binding sites of proteins to bacteria cell wall to sample deposited on the electrode, wherein the electrochemical test measures a binding energy of one or more biomarkers in the blood sample with the proteins functionalised on the electrode to determine whether the subject has or has had an immune response to the strain of bacteria indicative of an infection caused by the strain of bacteria.

The invention relates to assay methods and kits for assessing autoimmune diseases in a human subject. In embodiments, the present disclosure provides assay methods and kits for diagnosing a subject with or predicting that a subject will develop Type 1 diabetes. In embodiments, the present disclosure provides assay methods and kits for assessing responsiveness of a subject having Type 1 diabetes to treatment with alefacept. In embodiments, the present disclosure provides assay methods and kits for diagnosing a subject with systemic lupus erythematosus. In embodiments, the present disclosure provides assay methods and kits for determining if a subject is at risk of a systemic lupus erythematosus flare. In embodiments, the present disclosure provides assay methods and kits for diagnosing a subject with celiac disease.