Provided herein are methods of using compounds and compositions for treating, managing, and/or preventing systemic lupus erythematosus (SLE). Pharmaceutical compositions and dosing regimens for use in the methods are also provided herein.

A method for the diagnosis of systemic lupus erythematosus (SLE) based on an interfacial process of antigen-antibody molecular recognition, specifically between anti-Ro52 and Ro52 protein, in a piezoelectric resonator, for application in the diagnosis of autoimmune diseases such as SLE.

Provided herein are compositions, systems, kits, and methods for expressing a peptide of interest, such as Apolipoprotein H (ApoH), also known as β2-glycoprotein I (β2GPI), at increased levels using a non-ApoH signal peptide (e.g., a signal peptide that permits increased protein export from cells). Also provided herein are compositions, systems, kits, and methods for employing such recombinant ApoH with a non-ApoH signal peptide to detect subject Apolipoprotein H antibodies in a sample from a subject (e.g., to diagnose antiphospholipid syndrome in a subject).

A system and method for the detection of autoantibodies in saliva is described. In particular, the system is suitable for detecting an autoantibody in a subject, wherein the presence of the autoantibody is indicative of the presence or increased risk of development of an autoimmune disease or disorder.

The disclosure relates to antibodies specific to FcRn, formulations comprising the same, use of each in therapy, processes for expressing and optionally formulating said antibody, DNA encoding the antibodies and hosts comprising said DNA.

The present disclosure provides a test strip for milk immunofluorescence assay (IFA) and use thereof, and relates to the technical field of test strip. The test strip of the present disclosure includes a sample pad, a conjugate pad, a nitrocellulose membrane, and a wicking pad assembled and pasted successively on a PVC backing card; fluorescent latex microsphere-labeled mixed antibodies are coated on the conjugate pad; anti-casein antibody (T1 line), anti-beta-lactoglobulin (BLG) antibody (T2 line), anti-alpha-lactalbumin (ALA) antibody (T3 line), anti-lactoferrin/anti-bovine serum albumin (BSA) antibody (T4 line), and rabbit anti-mouse IgG antibody (C line) are coated on the nitrocellulose membrane, where the T1, T2, T3, and T4 lines are test lines, and the C line is a control line. The test strip of the present disclosure accurately and quantitatively detects the content of casein, BLG, ALA, and lactoferrin/BSA in food, and features easy operation and high accuracy and sensitivity.

A method of diagnosis of histamine intolerance in a person suspected of suffering from histamine intolerance syndrome. Isotope-labeled histamine metabolites, namely imidazole acetic acid and methylimidazole acetic acid are identified and measured in serum, plasma, urine and other bodily fluids following derivatization with a hydrazinoquinoline derivatization agent using the LC-MS/MS technique. The method and analytical technique is very sensitive and allows a safe use of an isotope-labeled oral histamine load as well as time-dependent measurements of the total activity of secreted and membrane-associated DAO enzymes for the sake of a differential diagnosis of histamine intolerance syndrome compared to food allergy, food hypersensitivity or food intolerance.

A method can be used for detecting, in a sample, an autoantibody binding to a polypeptide having the sequence SEQ ID NO: 1, SEQ ID NO: 11 or SEQ ID NO: 24. A carrier containing said polypeptide and an autoantibody binding to said polypeptide are useful. The autoantibody may be used for the diagnosis of a disease, and a method can be used for isolating an autoantibody binding to said polypeptide. The polypeptide and a kit containing said polypeptide are useful, and can be used for the manufacture of a kit or medical device. A method involves contacting a medical or diagnostic device containing said polypeptide with a buffered solution containing an antibody binding specifically to said polypeptide. A sample containing said autoantibody as a positive control and a diluted sample containing said autoantibody are useful.

Embodiments of the present disclosure provide a nanoparticle based platform, and nanoallergens for identifying, evaluating and studying allergen mimotopes as multiple copies of a single mimotope or various combinations on the same particle. The nanoparticle is extremely versatile and allows multivalent binding to IgEs specific to a variety of mimotopes, simulating allergen proteins. Nanoparticles can include various molecular ratios of components. For example, the nanoallergens can include about 0.1-40% mimotope-lipid conjugate and about 60-99.9% lipid. The mimotope-lipid conjugate includes a mimotope, a first linker, and lipid molecule. Nanoallergens can be used in in vitro and in vivo applications to identify a specific patient's sensitivity to a set of epitopes and predict a symptomatic clinical response, identify allergen epitopes through blind screening peptide sequences from allergen protein, and in a clinical application similar to a scratch test.

The present disclosure provides methods for enabling an individual having a cat allergy to have a cat as a pet. Such a method can include quantitatively determining a threshold in the individual for an environmental level of an allergen produced by the cat and selecting a cat or a breed of cat that creates an environmental level of the allergen that is less than the threshold. Additionally, such a method can include lowering the allergens disseminated by the cat by treating the environment inhabited by the cat during a time period where the cat expresses elevated allergens.