A method of preparing extracellularly assembled higher order antigen from a native lower order antigen the method comprising the following steps: (i) contacting lower order antigen with a solution comprising a reducing agent for a time and under 5 conditions sufficient to reduce one or more native cysteines; and (ii) removing or diluting the reducing agent or contacting the reduced lower order antigen with an oxidising agent, to elicit assembly of lower order antigen from (i) into an assembled higher order antigen; wherein at least 10% of the lower order antigen is converted to higher order antigen in step (ii) and whereby the assembled higher order antigen 10 displays at least reduced binding to non-neutralizing antibodies compared to the lower order antigen and retains binding to at least one neutralizing antibody. A method of producing a vaccine composition comprising following the steps of the method and then mixing the assembled higher order antigen with a pharmaceutically or physiologically acceptable diluent, carrier or adjuvant. A composition comprising a 15 higher order extracellularly assembled antigen, wherein the assembled antigen displays at least reduced binding to a non-neutralizing antibody compared to a native control higher order antigen. Use of the assembled higher order antigen to stimulate an immune response or for the detection and/or isolation of an immune cell such as a B-cell specific for the antigen.

The present disclosure provides rapid and non-invasive methods for determining whether a patient will benefit from treatment with therapeutic agents that inhibit Hepatitis C virus (HCV). These methods are based on detecting HCV RNA and/or anti-HCV antibodies in small-volume dried biological fluid samples that are collected using a microsampling device. Kits for use in practicing the methods are also provided.

Modified hepatitis C virus polypeptides are described. The polypeptides include the HCV NS4a domain and modified NS3 domain. The polypeptides retain conformational epitopes. HCV immunoassays including the polypeptides are also described.

The present invention relates to a polypeptide comprising an epitope of an antigen; a kit and a composition for diagnosing allergy, wherein the kit and the composition comprise the aforementioned polypeptide, and a method for diagnosing allergy and a method for treating allergy, wherein the methods use the aforementioned polypeptide; a pharmaceutical composition comprising the aforementioned polypeptide; and a raw material or a processed product in which the antigen comprising the aforementioned polypeptide is removed or reduced. Furthermore, the present invention relates to a tester for determining the presence or absence of the antigen in an object.

The present disclosure relates to hepatitis C virus (HCV) core and minicore-binding molecules and nucleic acid sequences encoding such molecules. In particular embodiments, the present invention provides HCV core and minicore-binding molecules (e.g., monoclonal antibodies or antibody fragments) with particular light chain and/or heavy chain CDRs (e.g., selected from SEQ ID NOS: 2-4 and 6-8) and methods for using such molecules to detect the presence of HCV core proteins (e.g., mature p21 core protein or minicore proteins) in a sample.

Modified hepatitis C virus polypeptides are described. The polypeptides include the HCV NS4a domain and modified NS3 domain. The polypeptides retain conformational epitopes. HCV immunoassays including the polypeptides are also described.

The present disclosure relates to a method for detecting a core polypeptide of a hepatitis C virus (HCV) in a sample from a subject involving (a) contacting said sample with a base and with a surfactant having a cationic detergent, and (b) detecting a core polypeptide of the HCV in the sample. The present invention further relates to a method for pre-processing a sample from a subject for detection of HCV, involving contacting the sample with a base and with a surfactant having a cationic detergent; and to a pre-processing reagent for detecting HCV in a sample, having a base and a surfactant including a cationic detergent, wherein the surfactant also has a nonionic detergent. Moreover, the present disclosure further relates to kits, uses, and devices related to the methods disclosed.

The present disclosure relates to a method for detecting a core polypeptide of a hepatitis C virus (HCV) in a sample from a subject with the steps of (a) contacting the sample with a surfactant comprising a cationic detergent; (b) contacting the sample with a binding compound; and (c) detecting a core polypeptide of the HCV in the sample; wherein step a) is immediately followed by step b). The present disclosure further relates to a method for pre-processing a sample from a subject for detection of an HCV core polypeptide, involving (a) contacting the sample with a surfactant comprising a cationic detergent and, optionally, with an agent inducing a pH shift, immediately followed by (b) contacting the sample with a binding compound. Moreover, the present disclosure further relates to uses, devices, and analytical systems related to aforesaid methods.

A method for determining or diagnosing the presence or absence, or the risk of development, or the therapy control of autoimmune hepatitis in a subject is provided. In a method, the presence or absence of antibodies against the huntingtin interacting protein 1 related protein (HIP1R) or against immunoreactive peptides derived therefrom are analyzed, the presence of said antibodies is indicative for the presence, or the risk of development or for therapy control of autoimmune hepatitis of the subject. The use of the HIP1R or an immunoreactive peptide derived therefrom in the diagnosis, the risk assessment or therapy control of hepatitis diseases by determining the presence of antibodies against said HIP1R or immunoreactive peptide derived therefrom, may be helpful for differential diagnosis of autoimmune hepatitis.

The present disclosure provides methods, kits, and compositions for detecting subject anti-HCV antibodies in a sample using NS3 capture peptides. In certain embodiments, at least two NS3 helicase (NS3h) capture peptides and at least two conjugate peptides (e.g., NS3h conjugate peptides) are employed together, which allows for a broad dynamic range of subject antibody detection in a one-step type assay. In other embodiments, methods are provided of detecting NS3-specific subject antibodies without the use of a reducing agent. In some embodiments, NS3-specific subject antibodies are detected with a double shot of NS3 conjugate peptide (e.g., conjugate peptide added to a sample both before and after washing).