Bi-specific fusion proteins with therapeutic uses are provided, as well as pharmaceutical compositions comprising such fusion proteins, and methods for using such fusion proteins to repair damaged tissue. The bi-specific fusion proteins generally comprise: (a) a targeting polypeptide domain that binds to an ischemia-associated molecule; and (b) an activator domain that that detectably modulates the activity of a cellular network.

Aspects of the invention provide methods for harnessing the potential of proteins that occur naturally (e.g., in humans) and that have serious but finite toxicity. Aspects of the invention relate to a quantitative systems-biological and structural approach to design a class of chimeric proteins that avoid the toxicity of protein drugs while retaining their desired activities. In particular, chimeric proteins containing a variant form of a natural protein fused to a targeting moiety may be administered to a subject to target a signal (e.g., induction of apoptosis) to particular cells without having a generalized toxic effect in the subject.

Aspects of the invention provide methods for harnessing the potential of proteins that occur naturally (e.g., in humans) and that have serious but finite toxicity. Aspects of the invention relate to a quantitative systems-biological and structural approach to design a class of chimeric proteins that avoid the toxicity of protein drugs while retaining their desired activities. In particular, chimeric proteins containing a variant form of a natural protein fused to a targeting moiety may be administered to a subject to target a signal (e.g., induction of apoptosis) to particular cells without having a generalized toxic effect in the subject.

Polypeptides that target and/or bind to EGFL7 or its receptor and thereby reduce EGFL7 pro-angiogenic activity are provided. In this way, the polypeptides are, in an aspect, useful in the treatment of diseases, disorders, or conditions that involve pathological angiogenesis, such as, for example, cancer.

Polypeptides that target and/or bind to EGFL7 or its receptor and thereby reduce EGFL7 pro-angiogenic activity are provided. In this way, the polypeptides are, in an aspect, useful in the treatment of diseases, disorders, or conditions that involve pathological angiogenesis, such as, for example, cancer.

The present disclosure provides compositions and methods for treating an infection by EV-D68. In particular, the present disclosure provides methods that entail administering agents having an anchoring domain that anchors the compound to the surface of a target cell, and a sialidase domain that can act extracellularly to inhibit infection of a target cell by EV-D68.

The present disclosure provides compositions and methods for treating an infection by EV-D68. In particular, the present disclosure provides methods that entail administering agents having an anchoring domain that anchors the compound to the surface of a target cell, and a sialidase domain that can act extracellularly to inhibit infection of a target cell by EV-D68.

Provided is a method of preparing induced pluripotent stem cells using a synthetic peptide, and more particularly, to a method of preparing induced pluripotent stem cells using a peptide capable of inhibiting the activity of NF-κB and promoting mesenchymal-epithelial transition (MET). Since undifferentiated multipotent stem cells may be efficiently prepared under xenopathogen-free or feeder cell-free conditions without requiring co-culture with animal serum or xenogeneic cells, the method for preparing the induced pluripotent stem cells using the synthetic peptide according to the present disclosure is very useful for developing stem cell therapeutic agents that are clinically applicable.

The present invention is directed to EGFR-specific peptide reagents, methods for detecting pre-cancer, early cancer and/or cancer using the peptide reagents, and methods for targeting pre-cancer cells, early cancer cells and/or cancer cells using the peptide reagents. In one aspect, the disclosure provides reagents consisting essentially of a peptide QRHKPRE (SEQ ID NO: 1), HAHRSWS (SEQ ID NO: 2), YLTMPTP (SEQ ID NO: 3), TYPISFM (SEQ ID NO: 4), KLPGWSG (SEQ ID NO: 5), IQSPHFF (SEQ ID NO: 6), YSIPKSS (SEQ ID NO: 7), SHRNRPRNTQPS (SEQ ID NO: 8), NRHKPREKTFTD (SEQ ID NO: 9).

Methods and compositions for treating Middle East respiratory syndrome coronavirus (MERS-CoV) infection using polypeptides having sialidase activity are provided herein.