This disclosure relates to a chimeric antigen receptor for binding with a target antigen. The chimeric antigen receptor comprises at least one antigen specific targeting region including a multispecific antibody evolved from a wild-type antibody or a fragment thereof and having at least one of: (a) a decrease in activity in the assay at the normal physiological condition compared to the wild-type antibody or the fragment thereof, and (b) an increase in activity in the assay under the aberrant condition compared to the wild-type antibody or the fragment thereof. A method for using the chimeric antigen receptor and cytotoxic cells for cancer treatment is also provided. A method for producing the chimeric antigen receptor is also provided.

The present invention is directed to heterodimeric anti-LAG-3×anti-CTLA-4. Also provided are nucleic acid compositions that encode the antibodies, expression vector compositions that include the nucleic acids, and host cells that include the expression vector compositions.

The present disclosure provides BCMA binding molecules that specifically bind to human BCMA, conjugates comprising the BCMA binding molecules, and pharmaceutical compositions comprising the BCMA binding molecules and the conjugates. The disclosure further provides methods of using the BCMA binding molecules to treat cancers that express cell surface BCMA. The disclosure yet further provides recombinant host cells engineered to express the BCMA binding molecules and methods of producing the BCMA binding molecules by culturing the host cells under conditions in which the BCMA binding molecules are expressed.

Provided herein are genetically modified (GM) natural killer (NK) cells and methods of producing populations of GM NK cells. Further provided herein are methods of using the GM NK cells described herein, to, e.g., suppress the proliferation of tumor cells, or to inhibit pathogen infection, e.g., viral infection. In certain alternatives, GM NK cells provided herein lack expression of CBLB, NKG2A and/or TGFBR2 and/or function or show reduced expression and/or function of CBLB, NKG2A and/or TGFBR2. In certain alternatives, GM NK cells provided herein comprise modified CD16.

An Fc-binding protein exhibiting improved alkaline resistance, a method for producing the protein, an antibody adsorbent obtained by immobilizing the protein on a carrier, and a method for separating an antibody using the adsorbent.

In a first aspect, provided herein are chimeric antigen receptors (CAR) composed of at least an extracellular domain, a transmembrane domain and an intracellular domain, the extracellular domain comprises a spacer domain located C-terminally to a ligand-binding-domain also present in the extracellular domain, whereby the spacer domain comprises at least part of the CD34 molecule. Also provided are nucleic acid molecules encoding the same as well as vectors and cells containing the same. The cells include engineered T-cells and NK-cells and derivatives thereof. A pharmaceutical composition comprising the CAR e.g. in form of a vector, a polynucleotide encoding the CAR or the CAR itself and, in addition, cells, cell lines or host cells accordingly are provided. The CAR is useful in adoptive cell therapy. Finally, a method for enrichment or purification of CAR, in particular, of genetically engineered cells, cell lines or host cells expressing the CAR is provided.

The present disclosure relates to a recombinant nucleic acid molecule of the transcriptional circular RNA and its application in protein expression. Specifically, the present disclosure relates to a recombinant nucleic acid molecule of the transcriptional circular RNA, recombinant expression vector, pre-circularized RNA, circular RNA, recombinant host cell, pharmaceutical composition and protein preparing method. The transcription product of the recombinant nucleic acid molecule in this present disclosure is a circular RNA which containing specific IRES element. IRES element can increase the protein expression level of circular RNA in eukaryotic cells, achieve efficient and persistent expression of protein. It has important application value in many fields like: Preparation of mRNA infectious disease vaccines, therapeutic mRNA tumor vaccines, mRNA-based dendritic cell tumor vaccines, mRNA-based gene therapy, mRNA-based chimeric antigen receptor T cell therapy, and protein supplement therapy.

Provided herein are immunomodulatory proteins comprising variant CD155 and nucleic acids encoding such proteins. The immunomodulatory proteins provide therapeutic utility for a variety of immunological and oncological conditions. Compositions and methods for making and using such proteins are provided.

The present invention describes proteins that are capable to binding to mtDNA and/or gDNA and depleting circulating mtDNA and/or gDNA from a subject in need thereof. These proteins can be used to treat diseases and conditions such as cancer, cardiac infarction, and traumatic brain injury. These proteins can also be used to detect and measure circulating mtDNA and gDNA.

The present disclosure relates to antigen-binding agents that specifically bind to epidermal growth factor receptor variant III (EGFRvIII). Antigen-binding agents of the present disclosure include antibodies and antigen-binding fragments thereof, chimeric antigen receptors (CARs) and bi-specific T-cell engagers (BITE!), bispecific killer cell engagers (BiKEs) and bispecific killer cell engagers (TriKEs). Nucleic acid molecules and vectors expressing antibodies, antigen-binding fragments, CARs, BiTEs, BiKEs or TriKEs are also encompassed by the present disclosure. Immune cells engineered to express CARs, BiTEs, BiKEs or TriKEs may be used to specifically recognize and kill cells expressing EGFRvIII.