The present invention relates to a methods for high throughput screening of epitopes that are involved in T cell activation.

Described herein are methods of treating COVID19 from a coronavirus infection, methods of treating a subject having a coronavirus infection, methods of improving a survival rate of a subject having a coronavirus infection, methods of determining prognosis of a subject having a coronavirus infection, methods of preventing or treating organ-dysfunction or multi-organ dysfunction or failure associated with a coronavirus infection, methods of combinational therapy for a subject having a coronavirus infection, methods of reducing microthrombi formation or low flow organ-ischemia associated with a coronavirus infection by administering a DEspR inhibitor.

Polypeptides that fold into biologies are stabilized by diselenide bonds between selenocysteine amino acids. Methods to produce such polypeptides in genomically recoded organisms (GRO) can be scaled up for industrial production. Since diselenides have the same geometric bond angles and torsions as disulfides, as well as very similar bond lengths, they can be substituted into polypeptides without disrupting the three dimensional structure of the polypeptides. Diselenides render the polypeptides resistant to reduction when they are exposed to blood serum or to reducing components of blood serum or to reducing components components within cells.

The present invention relates to a method for diagnosis of delayed bone fracture healing, comprising determining the frequency of a subpopulation of CD8+ cells selected from a first group comprised of CD8+CD57+, CD8+CD28− and CD8+CD28−/CD57+, in a sample obtained from a subject. The present invention further relates to a system and a kit of parts for prediction and resulting options for preventing of delayed bone fracture healing.

The present disclosure relates to a composition capable of diagnosing cancer, specifically pancreatic cancer or the like, a diagnostic kit comprising the same, and a method of providing information for diagnosis using the composition. Also, the present disclosure relates to a pharmaceutical composition capable of preventing or treating pancreatic cancer.

A method of inhibiting neutrophil activation in retinal pigment epithelial (RPE) cells comprising administering an inhibitor of interferon (IFN) λ to a subject in need thereof, as well as a method of restoring lysosomal function of RPE cells comprising administering a polypeptide comprising βA1-crystallin or a nucleic acid encoding the polypeptide to a subject in need thereof, are provided. A method of rejuvenating Vacuolar-type H.sup.+-ATPase (V-ATPase) activity in RPE cells by modulating assembly and disassembly of the V-ATPase in a subject in need thereof also is provided. Additionally, a method of treating diabetic retinopathy in a subject comprising administering a polypeptide comprising βA1-crystallin or a nucleic acid encoding the polypeptide to the subject is provided.

The present disclosure provides multispecific antibodies having increased in vivo sustainability, the multispecific antibodies comprising one or more bioactive effector moieties linked to either or both of an N-terminal and a C-terminal of an antigen binding fragment Fab that binds to human serum albumin.

Provided herein are protein complexes comprising a sensor domain and a therapeutic domain linked by a linker, and methods of use thereof. In aspects of the present disclosure, activity of the therapeutic domain comprises a dependence on sensor domain binding to target markers.

The invention provides novel bispecific monoclonal antibodies carrying a different specificity for each binding site of the immunoglobulin molecule and methods for producing novel bispecific monoclonal antibodies carrying a different specificity for each binding site of the immunoglobulin molecule. The antibodies are composed of a single heavy chain and two different light chains, one containing a Kappa constant domain and the other of a Lambda constant domain. The invention provides methods for the isolation of antibodies of different specificities but sharing a common heavy chain. The invention also provides methods for the controlled co-expression of two light chains and a single heavy chain leading to the assembly of monospecific and bispecific antibodies. The invention provides a mean of producing a fully human bispecific and bivalent antibody that is unaltered in sequence and does not involve the use of linkers or other non-human sequences, as well as antibody mixtures of two monospecific antibodies and one bispecific antibody. The invention also provides the means of efficiently purifying the bispecific antibody.

Methods for in vivo immunoimaging including: (a) administering a labeled-antibody conjugate to a subject, wherein the labeled-antibody conjugate includes: an antibody that specifically recognizes and binds to IFN-γ, and a detection label conjugated to the antibody, wherein the detection label is a radionuclide tracer or tluorophore; and (b) detecting the presence of the radiolabeled-antibody conjugate in the subject in vivo by imaging. Embodiments of the present disclosure are directed to labeled-antibody conjugates and therapeutic radionuclide-antibody conjugates.