The present disclosure methods for identifying binding partners using cell surface display libraries, where the cells of the library display engineered peptides on their cell surfaces for identification of peptides that bind to targets of interest. The engineered peptides are preferably expressed in the cells under conditions that provide both secretion and display of the engineered peptides on the cell surfaces, thus providing access of the engineered peptides to identify potential binding pairs. The cell libraries cab be engineered using an automated editing system that provides for one or more targeted edits per cell.

Methods of treating individuals with a glucose metabolism disorder and/or a body weight disorder, and compositions associated therewith, are provided.

The present invention provides phagemid vectors and associated phagemid particles for cancer treatment, and in particular, to the use of novel phagemid particles and associated expression systems for the treatment, prevention, amelioration, or management of cancer. In particular, the invention relates to the use of phagemid particles and expression systems for the delivery of transgenes encoding cytokines, for the treatment, prevention, amelioration, or management of cancer. The invention also extends to the use of phagemid particles and expression systems for the delivery of transgenes, and for the combination of such treatment with the use of adoptively transferred T cells, for the treatment, prevention, amelioration, or management of cancer.

Genetically engineered hematopoietic cells such as hematopoietic stem cells having one or more genetically edited genes of lineage-specific cell-surface proteins and therapeutic uses thereof, either alone or in combination with immune therapy that targets the lineage-specific cell-surface proteins.

Methods for constructing efficient inhibitors of target TNF superfamily receptors, single chain target TNF superfamily ligands that inhibit of target TNF superfamily receptors while failing to engage or inhibit non-target TNF superfamily receptors, and methods of their use to treat diseases are provided. Single chain RANKL, TNF, and TRAIL ligands that effectively inhibit their target receptors while failing to inhibit non-target TNF superfamily receptors are also provided.

A synergistic adjuvant is provided comprising synergistically effective amounts of at least one type 1 interferon and at least one CD40 agonist, wherein these moieties may be in the same or separate compositions. In addition, fusion proteins and DNA conjugates which contain a type 1 interferon/CD40 agonist/antigen combination are provided. The use of these compositions, protein and DNA conjugates as immune adjuvants for treatment of various chronic diseases such as HIV infection and for enhancing the efficacy of vaccines (prophylactic and therapeutic) is also provided.

Methods of producing a protein in cell culture comprising an anti-senescence compound, such as the antioxidant carnosine, are provided. According to teachings of the present invention, cells grown in a cell culture medium comprising an anti-senescence compound exhibit increased viability and productivity. Furthermore, cell cultures grown in the presence of an anti-senescence compound exhibit decreased levels of high molecular weight aggregates in the cell culture medium.

A codon optimized nucleic acid sequence for Interferon Alpha-2a is provided which can be used for expression of Interferon Alpha-2a in E. Coli.

Expression vector systems are provided for increased production of a recombinant GDF-5 (rhGDF-5) protein. Also provided are transformed host cells that were engineered to produce and express high levels of rhGDF-5 protein. Methods for isolating recombinant GDF-5 protein from an inclusion body of a cell are disclosed herein. The methods as disclosed are cost-effective, time-saving and are of manufacturing quality.

Disclosed are an rTRAIL mutant and monomethyl auristatin E (MMAE) conjugate thereof. The amino acid sequence thereof is as represented by SEQ ID No.1. Also disclosed are a coding gene of the rTRAIL mutant and expression system, recombinant vector and expression unit containing the coding gene. Also disclosed are an rTRAIL mutant-vcMMAE conjugate and preparation and uses thereof. The conjugate of the present invention has the biological functions of both the rTRAIL mutant and the MMAE; the MMAE is directionally transferred to a tumor cell through the specific binding between the rTRAIL mutant and a death receptor on the surface of the tumor cell, and is released and takes effect in the tumor cell, thus killing the tumor cells less sensitive or even resistant to TRAIL, and reducing the toxicity generated by the separate administration of the MMAE.