The present disclosure provides compositions and methods for enhancing immunity (or immune response). The compositions and methods are particularly useful for potentiating immune response of a lymphoid cell. The compositions and methods are applicable for treating cancer and other diseases.

The present invention relates to an immobilized capping enzyme, preferably an immobilized Vaccinia virus capping enzyme. Furthermore, the present invention relates to an immobilized cap-specific nucleoside 2′-O-methyltransferase, preferably an immobilized Vaccinia virus cap-specific nucleoside 2′-O-methyltransferase. Moreover, the present invention relates to a method for immobilizing said enzymes and to a method of using said enzymes for the addition of a 5′-cap structure to RNAs. Moreover, the present invention relates to an enzyme reactor for performing the capping reaction using said immobilized enzymes and the subsequent separation of the 5′-capped RNA product. In addition, the present invention relates to a kit comprising the capping enzyme and/or the cap-specific nucleoside 2′-O-methyltransferase.

The present invention relates to an immobilized capping enzyme, preferably an immobilized Vaccinia virus capping enzyme. Furthermore, the present invention relates to an immobilized cap-specific nucleoside 2′-O-methyltransferase, preferably an immobilized Vaccinia virus cap-specific nucleoside 2′-O-methyltransferase. Moreover, the present invention relates to a method for immobilizing said enzymes and to a method of using said enzymes for the addition of a 5′-cap structure to RNAs. Moreover, the present invention relates to an enzyme reactor for performing the capping reaction using said immobilized enzymes and the subsequent separation of the 5′-capped RNA product. In addition, the present invention relates to a kit comprising the capping enzyme and/or the cap-specific nucleoside 2′-O-methyltransferase.

The present disclosure provides methods and compositions related to the modification of immune effector cells to increase therapeutic efficacy. In some embodiments, immune effector cells modified to reduce expression of one or more endogenous target genes, or to reduce one or more functions of an endogenous protein to enhance effector functions of the immune cells are provided. In some embodiments, immune effector cells further modified by introduction of transgenes conferring antigen specificity, such as exogenous T cell receptors (TCRs) or chimeric antigen receptors (CARs) are provided. Methods of treating a cell proliferative disorder, such as a cancer, using the modified immune effector cells described herein are also provided.

The present invention relates to the food field. The invention provides a method for obtaining an improved property in a drink comprising a plant protein, said method comprising incubating a solution comprising a plant protein with phytase and a peptidyl arginine deiminase (PAD) and optionally processing the phytase and PAD treated solution into a drink comprising a plant protein, wherein the plant protein is pea protein or faba bean protein.

The present invention relates to the food field. The invention provides a method for obtaining an improved property in a drink comprising a plant protein, said method comprising incubating a solution comprising a plant protein with phytase and a peptidyl arginine deiminase (PAD) and optionally processing the phytase and PAD treated solution into a drink comprising a plant protein, wherein the plant protein is pea protein or faba bean protein.

The disclosure features isolated polynucleotides, such as mRNAs, encoding a polypeptide that disrupts immune cell activity, such as T cell or B cell activity, including mRNAs comprising one or more modified nucleobase. The immune cell disruptor polynucleotides encode a polypeptide that comprises a first domain that mediates association of the polypeptide with an immune cell component and a second domain that mediates inhibition of immune cell activity when the polypeptide is expressed in the immune cell. The disclosure also features methods of using the same, for example, for inhibiting immune responses when administered to a subject, such as to inhibit autoimmune reactions.

The disclosure features isolated polynucleotides, such as mRNAs, encoding a polypeptide that disrupts immune cell activity, such as T cell or B cell activity, including mRNAs comprising one or more modified nucleobase. The immune cell disruptor polynucleotides encode a polypeptide that comprises a first domain that mediates association of the polypeptide with an immune cell component and a second domain that mediates inhibition of immune cell activity when the polypeptide is expressed in the immune cell. The disclosure also features methods of using the same, for example, for inhibiting immune responses when administered to a subject, such as to inhibit autoimmune reactions.

The disclosure relates to compositions and methods for treating infection, allergic reactions, colitis, IBD, contact dermatitis, psoriasis, atopic dermatitis, graft vs. host disease and disorders and other disease and disorders comprising dendritic cell activation as well as compositions and method to improve allergen sensitization.

The disclosure relates to compositions and methods for treating infection, allergic reactions, colitis, IBD, contact dermatitis, psoriasis, atopic dermatitis, graft vs. host disease and disorders and other disease and disorders comprising dendritic cell activation as well as compositions and method to improve allergen sensitization.