Abstract: Antibodies, fragments thereof, and chimeric proteins comprising same are presented that have specific binding activity against T-cell immunoglobulin mucin receptor 3 (TIM3). Advantageously, contemplated molecules can be used in pharmaceutical compositions for immune therapy, particularly in individuals receiving cancer vaccines and/or checkpoint inhibitor treatment.

Abstract: Compositions, methods, and uses of recombinant B7-H4 protein or binding motifs to B7-H4 protein that can reduce the immune suppression effect of B7-H4 in relation to T cell activation, proliferation, and conversion. Preferably, the recombinant B7-H4 protein has a plurality of mutations in N-glycosylation residue to reduce its inhibitory effect to T cell activation and proliferation. The recombinant protein having binding motifs to B7-H4 protein preferably includes a binding motif to IgC domain and another binding motif to IgV domain such that the immune-suppressive effects by two Ig-like domains are concurrently reduced.

Abstract: Soluble fusion protein complexes, including domains from IL-15, IL-15 receptor, and ?CTLA4 antibody for preventing, reducing the occurrence of, and/or treating cancer or an autoimmune disease or disorder in a subject are provided herein. The methods provided herein include administering to a subject a pharmaceutical composition of a soluble fusion protein complex.

Abstract: Proteinaceous therapeutics, such as antibodies and fusion proteins, for preventing, reducing the occurrence of, and/or treating a SARS-CoV-2 infection in a subject are provided herein. The methods provided herein include administering to a subject an antigen binding fragments (Fab fragment) or antibody that binds to the S ARS-CoV-2 Spike protein, ACE2 decoy peptides that bind to the SAILS-CoV-2 Spike protein, and/or a DNA construct encoding an anti-Spike Fab fragment or ACE2 decoy peptide.

Abstract: Compositions, methods, and uses of recombinant B7-H4 protein or binding motifs to B7-H4 protein that can reduce the immune suppression effect of B7-H4 in relation to T cell activation, proliferation, and conversion. Preferably, the recombinant B7-H4 protein has a plurality of mutations in N-glycosylation residue to reduce its inhibitory effect to T cell activation and proliferation. The recombinant protein having binding motifs to B7-H4 protein preferably includes a binding motif to IgC domain and another binding motif to IgV domain such that the immune-suppressive effects by two Ig-like domains are concurrently reduced.

Abstract: Disclosed herein are mannan nanogels as a novel vaccine delivery platform as well as a novel method of making a self-assembling mannan nanogel for in vivo delivery of therapeutic agents.

Abstract: Compositions and methods for NK cell based treatments, and particularly NK cells that express and intracellularly retain IL-2, are presented in which the NK cells are stimulated with a chimeric protein that has a cancer cell targeting portion and an IL-12 portion. Beneficially, such chimeric protein has substantially reduced systemic toxicity and induces IFN-? secretion in a targeted manner. Moreover, chimeric proteins contemplated herein also significantly enhanced IFN-? secretion in NK cells that express and intracellularly retain IL-2 as compared to native NK cells. Preferred chimeric proteins comprise SEQ ID NO:1 or SEQ ID NO:2, and SEQ ID NO:3.

Abstract: Compositions and methods are provided for inhibiting TGF-?. Trap molecules are provided in which a ligand-binding domain of transforming growth factor-beta receptor type 2 (TGF?RII) is fused to an immunoglobulin Fc domain that contains an N-terminal immunoglobulin hinge region where at least one unpaired cysteine residue of said hinge region is replaced by a serine residue.

Abstract: Antibodies, fragments thereof, and chimeric proteins comprising same are presented that have specific binding activity against CD30. Advantageously, contemplated molecules can be used in pharmaceutical compositions for immune therapy, particularly in individuals diagnosed with hematopoietic malignancies, including Hodgkin lymphoma, CD30-positive B cell lymphomas, CD30-positive T cell lymphomas, CD30-positive NK cell lymphomas.

Abstract: Antibodies, fragments thereof, and chimeric proteins comprising same are presented that have specific binding activity against T-cell immunoglobulin mucin receptor 3 (TIM3). Advantageously, contemplated molecules can be used in pharmaceutical compositions for immune therapy, particularly in individuals receiving cancer vaccines and/or checkpoint inhibitor treatment.

Abstract: An ACE2-Fc hybrid construct is used as a therapeutic and/or analytic entity to treat an individual infected with a coronavirus or to detect a coronavirus in an analyte. In selected embodiments, the Fc portion of the hybrid construct is an IgA Fc portion, and in still further embodiments the ACE2 portion has a mutation that reduces or abolishes ACE2 catalytic activity.

Abstract: Compositions and methods are presented for prevention and/or treatment of a coronavirus disease wherein the composition comprises a recombinant entity. The recombinant entity comprises a nucleic acid that encodes a extracellular portion of CD40 ligand (CD40L) coupled by a flexible linker to a coronavirus 2 (CoV2) spike protein and/or a CoV2 nucleocapsid protein.

Abstract: Compositions, methods and uses of a recombinant virus and/or recombinant viral vector encoding a distinct antibody or antibody fragment generated from high-diversity nucleic acid library are presented. Preferably, the recombinant virus is genetically modified, low immunogenic virus, for example, an E2b-deleted adenovirus. The high-diversity nucleic acid library comprises or is derived from (1) a VH-CDR1/2 sub-library, (2) a plurality of VH-CDR3 sub-libraries, and (3) a VL sub-library, each of which comprises a plurality of members. Preferably, each member of the sub-libraries comprises at least one random cassette that has a plurality of degenerate base positions. In an especially preferred embodiment, at least portions of at least two members of the VH-CDR1/2 sub-library, the plurality of VH-CDR3 sub-libraries, and the VL sub-library are recombined to form an expression library member in an expression library, where each member of the expression library encodes a distinct antibody or antibody fragment.

Abstract: Compositions, methods and uses of high-diversity nucleic acid library that encodes a plurality of antibodies or antibody fragments are presented. The high-diversity nucleic acid library comprises or is derived from (1) a VH-CDR1/2 sub-library, (2) a plurality of VH-CDR3 sub-libraries, and (3) a VL sub-library, each of which comprises a plurality of members. Preferably, each member of the sub-libraries comprises at least one random cassette that has a plurality of degenerate base positions. In an especially preferred embodiment, at least portions of at least two members of the VH-CDR1/2 sub-library, the plurality of VH-CDR3 sub-libraries, and the VL sub-library are recombined to form an expression library member in an expression library, where each member of the expression library encodes a distinct antibody or antibody fragment.

Abstract: Compositions, methods and uses of a recombinant virus and/or recombinant viral vector encoding a distinct antibody or antibody fragment generated from high-diversity nucleic acid library are presented. Preferably, the recombinant virus is genetically modified, low immunogenic virus, for example, an E2b-deleted adenovirus. The high-diversity nucleic acid library comprises or is derived from (1) a VH-CDR1/2 sub-library, (2) a plurality of VH-CDR3 sub-libraries, and (3) a VL sub-library, each of which comprises a plurality of members. Preferably, each member of the sub-libraries comprises at least one random cassette that has a plurality of degenerate base positions. In an especially preferred embodiment, at least portions of at least two members of the VH-CDR1/2 sub-library, the plurality of VH-CDR3 sub-libraries, and the VL sub-library are recombined to form an expression library member in an expression library, where each member of the expression library encodes a distinct antibody or antibody fragment.

Abstract: Compositions, methods and uses of high-diversity nucleic acid library that encodes a plurality of antibodies or antibody fragments are presented. The high-diversity nucleic acid library comprises or is derived from (1) a VH-CDR1/2 sub-library, (2) a plurality of VH-CDR3 sub-libraries, and (3) a VL sub-library, each of which comprises a plurality of members. Preferably, each member of the sub-libraries comprises at least one random cassette that has a plurality of degenerate base positions. In an especially preferred embodiment, at least portions of at least two members of the VH-CDR1/2 sub-library, the plurality of VH-CDR3 sub-libraries, and the VL sub-library are recombined to form an expression library member in an expression library, where each member of the expression library encodes a distinct antibody or antibody fragment.

Abstract: Compositions, methods, and uses of recombinant IL-8 antibody, fragment thereof or single chain variable fragment (scFv) having high affinity to IL-8 to target tumor-expressed or endogenous IL-8 are presented. Preferably, the recombinant IL-8 antibody or scFv fragment includes a VH segment comprising a first amino acid sequence selected from SEQ ID NO. 1-15, 31-32, and/or a VL segment comprising a second amino acid sequence selected from SEQ ID NO. 16-30, 33-34. The recombinant IL-8 antibody or scFv fragment can be formulated as pharmaceutical compositions to administer to a patient having a tumor to reduce metastasis of the tumor, reduce immune suppression in the tumor microenvironment or reduce Th2 mediated immune response.

Abstract: A method of patterning a combined layer of an electrically-conductive film, such as indium-tin-oxide (ITO), that is disposed on a flexible substrate includes bending the combined layer about a radius of curvature. The combined layer is initially bent in a first direction so that the electrically-conducive film is distal to the radius of curvature, so as to form initial dielectric lines in the electrically-conductive film. The combined layer is then bent in another direction so that the electrically-conductive film is proximate to the radius of curvature to further enhance the dielectric performance of the initial dielectric lines. The dielectric lines electrically isolate a portion of the electrically-conductive film that is disposed therebetween, to form an electrically conductive electrode.

Abstract: Compositions, methods, and uses of recombinant B7-H4 protein or binding motifs to B7-H4 protein that can reduce the immune suppression effect of B7-H4 in relation to T cell activation, proliferation, and conversion. Preferably, the recombinant B7-H4 protein has a plurality of mutations in N-glycosylation residue to reduce its inhibitory effect to T cell activation and proliferation. The recombinant protein having binding motifs to B7-H4 protein preferably includes a binding motif to IgC domain and another binding motif to IgV domain such that the immune-suppressive effects by two Ig-like domains are concurrently reduced.

Abstract: Compositions, methods, and uses of recombinant recombinant IL-8 antibody, fragment thereof or single chain variable fragment (scFv) having high affinity to IL-8 to target tumor-expressed or endogenous IL-8 are presented. Preferably, the recombinant IL-8 antibody or scFv fragment includes a VH segment comprising a first amino acid sequence selected from SEQ ID NO. 1-15, 31-32, and/or a VL segment comprising a second amino acid sequence selected from SEQ ID NO. 16-30, 33-34. The recombinant IL-8 antibody or scFv fragment can be formulated as pharmaceutical compositions to administer to a patient having a tumor to reduce metastasis of the tumor, reduce immune suppression in the tumor microenvironment or reduce Th2 mediated immune response.