The present application provides a group of human immortalized B lymphocyte cell lines and use thereof, and specifically provides a combination of four closely related immortalized lymphocyte cell lines. The combination can be used as a reference substances for measuring the performance of a detection platform. When the four closely related immortalized lymphocyte cell lines are used as reference substances for epigenome, transcriptome, proteome, and metabolome, an intrinsic magnitude difference gradient can be formed to evaluate the sensitivity of histological detection.

This invention concerns compositions and methods of treating or diagnosing inflammatory disorders and other disorders, as well as compositions and methods of treating HIV.

Methods for treating B cell lymphomas are provided. B cell lymphomas patients suitable for treatments can be identified based on the baseline B cell subset frequencies. For instance, increased frequency of transitional (CD10+) B cells within total nave B cells or within total B cells predicts poor response to kinase inhibitors. By contrast, having an increased nave B cells to total B cells frequency without an increased transitional (CD10+) B cell frequency predicts good response to the kinase inhibitors. Having a decreased frequency of nave B cells of the total B cell population with a corresponding increase in frequency of memory switched and double negative B cells of the total B cell population also predicts good response to the kinase inhibitors. Once the patients are identified, the patients can be suitably treated with the kinase inhibitors such as cerdulatinib.

Compositions for determining the efficacy and/or potency of a vaccine preparation are described herein. Splenocytes from immunized animals are isolated and can be frozen. Upon thawing such cells are activated by exposure to a series of dilutions of a vaccine preparation being tested and a series of dilutions of a reference vaccine with known characteristics. Cells secreting immunogen-specific antibody and cells secreting nonspecific antibody are enumerated, as is the amount of immunogen-specific and nonspecific antibody produced. Comparison between the results from the vaccine preparations provides a measure of relative vaccine efficacy and/or potency.

The present invention relates generally to the field of making novel antigen binding domains against infectious diseases. The present invention also relates to novel CARs that utilize the novel antigen binding domains as an extracellular element. The present invention also relates to use of the novel antigen binding domains as therapeutic agents.

This invention provides methods for diagnosing Alzheimer's disease in a symptomatic human subject, and for determining whether a human subject is predisposed to becoming afflicted with Alzheimer's disease. These methods employ the steps of (a) culturing a subject's lymphocytes with a suitable basement membrane matrix to permit the lymphocytes to aggregate; (b) measuring the resulting lymphocyte aggregation; and (c) based on such measurement, either diagnosing Alzheimer's disease or determining a predisposition to it, as appropriate.

The present invention relates to the field of producing, identifying, and selecting biological binding molecules, e.g. in particular antibodies or fragments thereof, which selectively bind to somatically hypermutated B-cell receptors or B-cell receptor complexes. The method is used in order to select a biological binding molecule which specifically binds to a B-cell receptor having hypermutated regions as the target receptor, but not to a B-cell receptor without hypermutated regions, and is carried out in a cell-based system using immature B cells which are in the pro/pre stage and cause a ‘Triple Knockout’ of the genes for RAG2 or RAG1, Lambda5, and SLP65.

The invention provides methods and compositions for the diagnosis, prognosis, and/or treatment response characterization of individuals suffering from systemic lupus erythematosus (SLE) using single cell network profiling.

The invention provides improved non-human vertebrates and non-vertebrate cells capable of expressing antibodies comprising human variable region sequences. The present invention is directed to the provision of long HCDR3s from non-human vertebrates and cells. The present invention is also directed to the provision of novel V, D and J pairings in immunoglobulin heavy and light chain loci. Novel, biased antibody diversities and potentially expanded diversities are provided. The invention also provides for novel and potentially expanded diversity or diversity that is biased towards variable gene usage common to antibodies useful for treating and/or preventing certain diseases or conditions, such as infectious diseases. The invention also provides methods of generating antibodies using such vertebrates, as well as the antibodies per se, therapeutic compositions thereof and uses.

This invention is directed to methods and compositions for diagnosis, prognosis and for determining methods of treatment. The physiological status of a cell present in a sample (e.g. clinical sample) can be used in diagnosis or prognosis of a condition (e.g. Chronic Lymphocytic Leukemia), in patient selection for therapy, to monitor treatment and to modify or optimize therapeutic regimens.