Methods and devices are provided herein for identifying a cell population comprising an effector cell that exerts an extracellular effect. In one embodiment the method comprises retaining in a microreactor a cell population comprising one or more effector cells, wherein the contents of the microreactor further comprise a readout particle population comprising one or more readout particles, incubating the cell population and the readout particle population within the microreactor, assaying the cell population for the presence of the extracellular effect, wherein the readout particle population or subpopulation thereof provides a direct or indirect readout of the extracellular effect, and determining, based on the results of the assaying step, whether one or more effector cells within the cell population exerts the extracellular effect on the readout particle. If an extracellular effect is measured, the cell population is recovered for further analysis to determine the cell or cells responsible for the effect.

The disclosure describes a genome engineering strategy that allows for the production of secreted antibody fragments or non-immunoglobulin binding domains and the corresponding cell surface B cell receptor (BCR) from a human immunoglobulin (Ig) locus, and uses thereof.

The present invention relates to a method for memory B cell-specific differentiation induction and to uses thereof and, more specifically, to an anti-CD3 antibody or ligand in a biological sample obtained from and individual, a method for memory B cell-specific differentiation induction comprising a step of treating an anti-CD28 antibody or ligand, and a method for detection a memory B cell which is specific to a specific antigen by using same.

The present invention relates to a method for promoting diversification of variable regions of an antibody. Specifically, the present invention relates to a method for promoting diversification of the amino acid sequences of variable regions of an antibody generated by an avian B cell population, wherein the method comprises suppressing the PI3Kα activity of each avian B cell comprised in the avian B cell population expressing the antibody.

In one aspect, methods of generating human monoclonal antibodies that specifically binds to an allergen are provided. In some embodiments, the monoclonal antibodies are generated from sequences identified from isolated single B cells from a human subject who is allergic to the allergen.

Methods of expanding tumor infiltrating lymphocytes (TILs), including peripheral blood lymphocytes and marrow infiltrating lymphocytes, from blood and/or bone marrow of patients with hematological malignancies, such as liquid tumors, including lymphomas and leukemias, and uses of such expanded TILs in the treatment of diseases such as cancers and hematological malignancies are disclosed herein.

The invention is directed to an isolated population of mammal cells comprising about 75% or higher B-1a regula e PBS-treated tory cells expressing the cell surface inhibitory receptors lympho-cyte-activation gene 3 (LAG-3), programmed cell death protein 1 (PD-1), and C-X-C chemokine receptor type 4 (CXCR4), and secreting interleukin-27 (IL-27). The invention is also directed to methods of preparing and using the cell population to suppress the immune system and/or to treat or prevent diseases.

The present disclosure relates to genetically modified B cells, including memory cells, differentiated to plasmablasts or plasma cells useful for long term in vivo expression of a transgene, such as a specific antibody or other protein therapeutic. Also disclosed are methods of producing the cells and methods of treatment.

In some embodiments, marrow-infiltrating lymphocytes (“MILs”) comprising a chimeric antigen receptor (“CAR”) are provided. In some aspects, the embodiments relate to a method for making a recombinant MIL, comprising obtaining bone marrow comprising MILs; and transfecting, transforming, or transducing the MILs with a nucleic acid encoding a chimeric antigen receptor. In some aspects, the embodiments relate to a method for treating a condition in a subject, comprising administering to the subject a MIL comprising a CAR.

Provided are engineered B lymphocytes modified to express one or several different types of microRNAs or anti-miRs where in one embodiments the lymphocytes contain multiple copy numbers of nucleic acids encoding the one or several different types of miRs or anti-miRs. Provided are compositions and methods for treating, ameliorating, or preventing a cancer cell, a breast cancer cell or a triple negative breast cancer, or a breast cancer cell that tests negative for estrogen receptors, progesterone receptors, or HER2, comprising or by administering a composition, formulation or pharmaceutical composition comprising a microRNA or anti-miR. Provided are methods for treating an inflammation, a disease, a condition, infection or cancer capable of being treated by modulation or inhibition or expression of an miRNA or anti-miRs by administering to an individual in need thereof a B lymphocyte that secretes a microRNA or anti-miR, or a B lymphocyte supernatant, extracellular vesicle or exosome having a microRNA or anti-miR.