Disclosed are methods and isolated cells useful for the improved production of function fXa derivative protein that acts as a fXa inhibitor antidote. One aspect relates to an isolated cell comprising the r-Antidote polynucleotide and Furin polynucleotide. Another aspect relates to a method for preparing the cleaved two-chain r-Antidote by expressing, in a cell, the pre-processed r-Antidote polypeptide and a Furin polypeptide.

Disclosed are compounds of Formula I, or a salt thereof: ##STR00001##
where A, B, D, X, R.sup.1, R.sup.2 and R.sup.8 are as defined herein, which compounds have properties for antagonizing PCSK9. Also described are pharmaceutical formulations comprising the compounds of Formula I or their salts, and methods of treating cardiovascular disease and conditions related to PCSK9 activity, e.g. atherosclerosis, hypercholesterolemia, coronary heart disease, metabolic syndrome, acute coronary syndrome, or related cardiovascular disease and cardiometabolic conditions.

The present invention provides a humanized monoclonal antibody against extracellular domain of human death receptor 5, comprising a light chain variable region, whose amino acid sequence has at least 90% identity with the amino acid sequence shown as SEQ ID NO: 1, a heavy chain variable region, whose amino acid sequence has at least 90% identity with the amino acid sequence shown as SEQ ID NO: 2, and constant region derived from human antibody. The present invention also provides nucleotide sequence encoding said humanized monoclonal antibody, a recombinant eukaryotic expression vector, a process for preparing the humanized monoclonal antibody, and the composition and use therefore. Said humanized monoclonal antibody of the present invention shows specific apoptosis-inducing activity against various cancer cells both in vivo and in vitro, and thus it can be used alone or in combination with natural ligand of DR5, apoptosis-inducing ligand associated with tumor nerosis factor or other medicaments for the treatment of a variety of cancers as well as other diseases associated with high DR5 expression.

The present disclosure provides multispecific antigen-binding molecules and uses thereof. The multispecific antigen-binding molecules comprise a first antigen-binding domain that specifically binds a target molecule, and a second antigen-binding domain that specifically binds an internalizing effector protein. The multispecific antigen-binding molecules of the present disclosure can, in some embodiments, be bispecific antibodies that are capable of binding both a target molecule and an internalizing effector protein. In certain embodiments of the disclosure, the simultaneous binding of the target molecule and the internalizing effector protein by the multispecific antigen-binding molecule of the present disclosure results in the attenuation of the activity of the target molecule to a greater extent than the binding of the target molecule alone. In other embodiments of the disclosure, the target molecule is a tumor associated antigen, and the simultaneous binding of the tumor associated antigen and the internalizing effector protein by the multispecific antigen-binding molecule of the present disclosure causes or facilitates the targeted killing of tumor cells.

The present invention relates to novel short chain peptides of formula (I) which can be useful as a vaccine when in conjugation with suitable immunogenic carrier and suitable adjuvant. These are useful for the treatment for the PCSK9 mediated diseases.
A-Z.sub.1-Z.sub.2-Z.sub.3-Z.sub.4-Z.sub.5-Z.sub.6-Z.sub.7-Z.sub.8-Z.sub.9-Z.sub.10-Z.sub.11-Z.sub.12-B   Formula (I)

The invention provides a plasmid comprising two or more anti-obesity genes. Also provided by the invention are compositions and host cells comprising the plasmid and methods of increasing the metabolic activity in a mammal. The invention provides a plasmid comprising two or more of (a) a nucleic acid sequence encoding islet amyloid polypeptide (IAPP), (b) a nucleic acid sequence encoding leptin (LEP), and (c) a nucleic acid sequence encoding fibronectin type III domain containing 5 (FNDC5).

The present invention provides multispecific antigen-binding molecules and uses thereof. The multispecific antigen-binding molecules comprise a first antigen-binding domain that specifically binds a target molecule, and a second antigen-binding domain that specifically binds an internalizing effector protein. The multispecific antigen-binding molecules of the present invention can, in some embodiments, be bispecific antibodies that are capable of binding both a target molecule and an internalizing effector protein. In certain embodiments of the invention, the simultaneous binding of the target molecule and the internalizing effector protein by the multispecific antigen-binding molecule of the present invention results in the attenuation of the activity of the target molecule to a greater extent than the binding of the target molecule alone. In other embodiments of the invention, the target molecule is a tumor associated antigen, and the simultaneous binding of the tumor associated antigen and the internalizing effector protein by the multispecific antigen-binding molecule of the present invention causes or facilitates the targeted killing of tumor cells.

The present invention relates to novel covalently linked bi-functional fusion proteins comprising insulin and EGF(A) analogues or derivatives thereof, and their pharmaceutical use. Furthermore, the invention relates to pharmaceutical compositions comprising such bi-functional compounds, and to the use of such compounds for the treatment or prevention of medical conditions relating to diabetes and dyslipidaemia associated with diabetes.

The invention relates to a chimeric protein comprising at least one clotting factor and at least a portion of an immunoglobulin constant region. The invention relates to a method of treating a hemostatic disorder comprising administering a therapeutically effective amount of a chimeric protein wherein the chimeric protein comprises at least one clotting factor and at least a portion of an immunoglobulin constant region.

The invention belongs to the biopharmaceutical. It involves the role and mechanism of PCSK9 in inflammatory immune diseases, and the application of PCSK9 inhibitors to the preparation of drugs for the treatment of inflammatory immune diseases mediated by T cells. In particular, it involves the use of PCSK9 monoclonal antibody, PCSK9 interference RNA and PCSK9 small molecule inhibitors for treating psoriasis, atopic dermatitis, or urticaria. The invention uses psoriasis as an embodiment for the study of inflammatory and immune diseases. It is found that PCSK9 plays an important role in the treatment of inflammatory immune diseases. The PCSK9 monoclonal antibody, PCSK9 interference RNA, and PCSK9 small molecule inhibitor can be further developed for treating inflammatory immune-diseases, such as psoriasis with fewer adverse reactions, at low cost, and with good efficacy.