Provided is a separated antigen binding protein, containing at least one CDR in VH with the amino acid sequence as shown in SEQ ID NO: 1 or SEQ ID NO: 46; and at least one CDR in VL with the amino acid sequence as shown in SEQ ID NO: 2. Also provided are an immunoconjugate containing the separated antigen binding protein, nucleic acid coding the separated antigen binding protein, a carrier containing the separated antigen binding protein, a cell containing the nucleic acid or the carrier, a method for preparing the separated antigen binding protein, and use of the separated antigen binding protein.

Provided is a separated antigen binding protein, containing at least one CDR in VH with the amino acid sequence as shown in SEQ ID NO: 1 or SEQ ID NO: 46; and at least one CDR in VL with the amino acid sequence as shown in SEQ ID NO: 2. Also provided are an immunoconjugate containing the separated antigen binding protein, nucleic acid coding the separated antigen binding protein, a carrier containing the separated antigen binding protein, a cell containing the nucleic acid or the carrier, a method for preparing the separated antigen binding protein, and use of the separated antigen binding protein.

Disclosed are compositions comprising: a) an extract of Curcuma longa, curcumin or phospholipid-complexed curcumin; b) a lipophilic extract of Zingiber officinale; and c) a lipophilic extract obtained from plants containing isobutylamides of polyunsaturated fatty acids selected from the group consisting of Echinacea spp. extract, Zanthoxylum spp. extract and Acmella oleracea (Spilanthes oleracea) extract.

Provided herein are compounds of formula I: ##STR00001##
wherein the variables are defined herein, processes of making them, and methods of treating cancer comprising administering such compounds.

Described are compositions and methods for inhibition of Hepatitis B virus gene expression. RNA interference (RNAi) triggers and RNAi trigger conjugates for inhibiting the expression of Hepatitis B virus gene are described. Pharmaceutical compositions comprising one or more HBV RNAi triggers optionally with one or more additional therapeutics are also described. Delivery of the described HBV RNAi triggers to infected liver in vivo provides for inhibition of HBV gene expression and treatment.

A tissue factor (TF)-targeted antibody-drug conjugate (ADC) and a method for preparing the ADC. The ADC is capable of binding to TF antigen with high specificity, and has high affinity, low immunogenicity, high cytotoxicity, and significant anti-tumor activity.

The disclosure relates generally to polyglutamated antifolates, formulations containing liposomes filled with the polyglutamated antifolates, methods of making the polyglutamated antifolates and liposome containing formulations, and methods of using the polyglutamated antifolates and liposome containing formulations to treat hyperproliferative disorders (e.g., cancer) and disorders of the immune system (e.g., an autoimmune disease such as rheumatoid arthritis).

This disclosure features chemical entities (e.g., a compound or a pharmaceutically acceptable salt and/or hydrate and/or prodrug of the compound) that modulate (e.g., agonize or partially agonize or antagonize) glucagon?like peptide?1 receptor (“GLP?1R”) and/or the gastric inhibitory polypeptide receptor (“GIPR”). The chemical entities are useful, e.g., for treating a subject (e.g., a human) having a disease, disorder, or condition in which modulation (e.g., agonism, partial agonism or antagonism) of GLP?1R and/or GIPR activities is beneficial for the treatment or prevention of the underlying pathology and/or symptoms and/or progression of the disease, disorder, or condition. In some embodiments, the modulation results in an enhancement of (e.g., an increase in) existing levels (e.g., normal or below normal levels) of GLP?1R and/or GIPR activity (e.g., signaling). In some embodiments, the chemical entities described herein further modulate (e.g., attenuate, uncouple)-arrestin signaling relative to what is observed with the native ligand. This disclosure also features compositions as well as other methods of using and making the said chemical entities.

Described are improved linking agents that are useful for facilitating the attachment of targeting groups, pharmacokinetic (PK) enhancers or modifiers, or other delivery agents to oligonucleotides. The described linking agents may exhibit improved reaction yields, stability, and biological activity, particularly when used in connection with oligonucleotide-based compounds, such as RNA interference (RNAi) agents.

A drug-polymer conjugate, which is a copolymer of at least one monomer of formula (I) where: X may be the same or different at each occurrence and represents a terminal functional group comprising an alkyne or an azide; Q is independently selected at each occurrence and may be present or absent and when present, represents a linking group; R is selected from the group consisting of linear or branched hydrocarbon, optionally substituted aryl and optionally substituted heteroaryl; D is a releasable bicyclic prostaglandin; L is a linker group; and at least one co-monomer of Formula III J-(Y.sup.1-A).sub.n, J represents a linking functional group, n is 2 to 8 preferably 3 to 8; Y.sup.1 comprises a polyether of formula (OR.sup.a).sub.m wherein R.sup.a is independently ethylene, propylene and butylene and m is from 1 to 300 (preferably 2 to 300) and the polyether is in chain with one or more groups which are preferably selected from one or more of optionally substituted straight or branched C.sub.1 to C.sub.10 alkylene, amino, ether, ester, amide, carbonate and carbamate; A may be the same or different at each occurrence and represents a group comprising a terminal functional group comprising an alkyne or an azide functionality, wherein said terminal functional group is complementary to the terminal functional group X of formula (I) providing triazole moieties from reaction of X and A.