A TFF2 protein and an IFN-κ protein are combined to treat a novel coronavirus infection. A product comprises: (a) an IFN-κ protein; (b) a TFF2 protein; and (c) an optional pharmaceutically acceptable carrier. Provided are an application of a combination of IFN-κ protein and TFF2 protein in the preparation of a product for the treatment of a novel coronavirus infection and related diseases, and a method for using the product to treat a novel coronavirus infection and related diseases. The foregoing combination, application, and method have excellent therapeutic effects on novel coronavirus infections, and have application prospects and social benefits.

Use of an agent capable of inhibiting CLEVER-1 expression or binding to CLEVER-1 in combination with an inhibitor of interleukin and/or the respective receptor, and optionally further with an agent capable of binding to interferon-alpha/beta receptor (IFNAR) in a treatment of diseases.

Use of an agent capable of inhibiting CLEVER-1 expression or binding to CLEVER-1 in combination with an inhibitor of interleukin and/or the respective receptor, and optionally further with an agent capable of binding to interferon-alpha/beta receptor (IFNAR) in a treatment of diseases.

In various embodiments chimeric moieties (constructs) are provided that show significant efficacy against cancers. In certain embodiments the constructs comprise a targeting moiety that specifically binds CD138 attached to an interferon or to a mutant interferon. In certain embodiments, the constructs comprise anti-CD138 antibody attached to an interferon alpha (IFN-α) or to a mutant interferon alpha.

Methods, systems and computer program products for shared content management systems that provide performance analytics pertaining to a project. Embodiments include establishing one or more network communication links between a content management system that manages a plurality of shared content objects and a plurality of applications that cause modifications to the shared content objects in accordance with workflows of the project. Iteraction events that correspond to modifications over the shared content objects are recorded such that interaction events associated with the plurality of applications are selected based at least in part on attributes associated with the interaction events. Relationships between the recorded interaction events such as time durations between certain of the interaction events are calculated. Project performance measurements are generated based on the calculations and/or based on other relationships between the interaction events. The calculations may span across many different applications and/or many different departments and/or many different enterprises.

The field of the present invention relates to genetically engineered fusion molecules, methods of making said fusion molecules, and uses thereof for treatment of autoimmune diseases. More specifically, the present invention provides novel genetically engineered fusion molecules comprising an interferon (IFN) molecule attached to an antibody (Ab) which targets an antigen which is differentially expressed or up-regulated on activated T cells as compared to resting T cells, wherein the fusion molecule when contacted to an activated T cell results in induced apoptosis and programmed cell death or impairment of functions of said activated T cell.

The field of the present invention relates to genetically engineered fusion molecules, methods of making said fusion molecules, and uses thereof for treatment of autoimmune diseases. More specifically, the present invention provides novel genetically engineered fusion molecules comprising an interferon (IFN) molecule attached to an antibody (Ab) which targets an antigen which is differentially expressed or up-regulated on activated T cells as compared to resting T cells, wherein the fusion molecule when contacted to an activated T cell results in induced apoptosis and programmed cell death or impairment of functions of said activated T cell.

A pegylated type I interferon for use in treating an infectious disease, cancer, or myeloproliferative disease in a subject in need thereof, wherein a 50 to 540 μg dose of the pegylated type I interferon is administered to the subject at a regular interval for a treatment period, the interval being 3 to 8 weeks.

Disclosed are fusion polypeptides comprising fragments from a first and a second isoform of an interferon lambda family, nucleic acids encoding the fusion polypeptides, and vectors and host cells containing the same, and methods of making and using such compositions in treatment of interferon lambda-related diseases, disorders, and conditions.

Disclosed are fusion polypeptides comprising fragments from a first and a second isoform of an interferon lambda family, nucleic acids encoding the fusion polypeptides, and vectors and host cells containing the same, and methods of making and using such compositions in treatment of interferon lambda-related diseases, disorders, and conditions.