The disclosure provides methods of synthesis of polymeric scaffolds, e.g., those useful for conjugating with a protein based recognition-molecule (PBRM) to form PBRM-polymer-drug conjugates, and PBRM-polymer-drug conjugates thereof. The methods according to the disclosure allow for large-scale preparation of polymeric scaffolds having a high purity. In some embodiments, the methods according to the disclosure also allow for the preparation of scaffolds and conjugates thereof in better yield than previously used methods for preparing same. Also disclosed are methods of purifying polymeric scaffolds.

The present disclosure provides methods and composition including vaccines, monoclonal antibodies, polyclonal antibodies, chimeric molecule of an extracellular fibrinogen binding protein (Efb) and targeted agent delivery pharmaceutical composition comprising at least a portion of a modified N-terminus region, at least a portion of a modified C-terminus region, or both, wherein the modified extracellular fibrinogen binding protein results in inhibiting the fibrinogen binding, C3 binding, or both or administering to a subject a pharmacologically effective amount of a vaccine in a pharmaceutically acceptable excipient, comprising a modified extracellular fibrinogen binding protein comprising at least a portion of a modified N-terminus region, at least a portion of a modified C-terminus region, or both, wherein the modified extracellular fibrinogen binding protein results in not shielding the staphylococcus bacterium from recognition by a phagocytic receptor.

Disclosed in the present disclosure is a biodegradable amphiphilic polymer containing disulfide in the side chain, a self-crosslinked polymeric vesicle thereof and an application in the targeted therapy of lung cancer. The polymer is obtained by an activity-controllable ring-opening polymerization based on a cyclic carbonate monomer containing a functional group of dithiolane ring, which has a controllable molecular weight and a narrow molecular weight distribution, and does not require processes of protection and deprotection; the polymer obtained by the ring-opening polymerization of the cyclic carbonate monomer of the present disclosure has biodegradability and can be used to control the drug release system, the prepared lung cancer-targeted reduction-sensitive reversibly-crosslinked polymeric vesicle as a nanomedicine carrier supports stable long circulation in vivo. However, it is highly enriched in lung cancer tissues, enter cells efficiently, and rapidly decrosslinks in the cells to release drugs, so as to kill cancer cells with high potency and specificity and inhibit the growth of tumor effectively without causing toxic and side effects.

The present invention relates to novel stabilized IgG4 antibodies, to methods of producing such antibodies and to uses of such antibodies as a medicament. In a main aspect, the invention relates to a stabilized IgG4 antibody, comprising a heavy chain and a light chain, wherein said heavy chain comprises a human IgG4 constant region having a substitution of the Arg residue at position (409), the Phe residue at position (405) or the Lys residue at position (370).

Antigen binding fragments, chimeric antigen receptors, and bi-specific T-cell engagers having specificity for MICA and methods for using the same in the diagnosis and treatment of disorders associated with MICA and/or MICB expression are provided.

In certain embodiments, this present invention provides antibodies and Fc fusion proteins with enhanced pharmacokinetics, such as biotinylated antibodies or biotinylated Fc fusion polypeptides.

Disclosed herein are chemotherapeutic methods for the treatment of cancer in humans. In at least one specific embodiment, the method can include administering a therapeutic effective amount of one or more p38 inhibitor compound or salt thereof to a human. The method can also include administering a therapeutic effective of one or more IL-6 inhibitor or one or more IL-6 receptor inhibitor or salt thereof to the human. The method can also include administering a therapeutic effective amount of one or more cytotoxic compound or salt thereof to the human.

A composition and methods of use and preparation are provided. The composition may comprise a magnetic nanoparticle comprising: a passivation layer; and at least one unique entity that is attached to the magnetic nanoparticle. For example, the composition may include a magnetic nanoparticle and an antibody attached to the magnetic nanoparticle. Such magnetic nanoparticle architecture can provide treatment by, and screening of, nanoparticles functionalized with various functional species.

The present invention pertains to a fusion polypeptide for use in treating and/or preventing organ failure in a subject suffering from sepsis, said fusion polypeptide comprises at least (i) a first portion being a Fc portion of an immunoglobulin and (ii) a second portion comprising the extracellular portion of the human B7-H1 polypeptide or a variant thereof. Moreover, also encompassed by the invention is a polynucleotide encoding said fusion polypeptide for use in treating and/or preventing organ failure in a subject suffering from sepsis.

Symmetrically and asymmetrically branched homopolymers are modified at the surface level with functional groups that enable forming aggregates with water insoluble or poorly water soluble pharmaceutically active agents (PAA). The aggregates formed are specifically induced by interaction of PAA and homopolymer and are different from aggregates that are formed by the polymer alone in the absence of the PAA or by the PAA alone in the absence of the polymer. Such aggregates can be used to improve drug solubility, stability, delivery and efficacy.