The invention provides anti-oncostatin M receptor-β (OSMR) antigen binding proteins, e.g., antibodies and functional fragments, derivatives, muteins, and variants thereof. OSMR antigen binding proteins interfere with binding of OSM and/or IL-31 to OSMR. In some embodiments, anti-OSMR antigen binding proteins are useful tools in studying diseases and disorders associated with OSMR and are particularly useful in methods of treating diseases and disorders associated with OSMR and binding of OSM and/or IL-31 to OSMR.

The invention relates to the administration of inhibitors of phosphodiesterase 1 (PDE1) for the treatment of diseases or disorders characterized by disruption of or damage to various cGMP/PKG mediated pathways. In one embodiment the invention relates to inhibitors of phosphodiesterase 1 (PDE1) for treatment of cardiovascular disease and related disorders, e.g., congestive heart disease, atherosclerosis, myocardial infarction, and stroke.

The present invention provides antibodies and related molecules that bind to chemokine receptor 4 (CXCR4). The invention further provides antibody-drug conjugates comprising such antibodies, antibody encoding nucleic acids, and methods of obtaining such antibodies. The invention further relates to therapeutic methods for use of these antibodies and anti-CXCR4 antibody-drug conjugates for the treatment of a disorder associated with CXCR4 function or expression (e.g., cancer), such as colon, RCC, esophageal, gastric, head and neck, lung, ovarian, pancreatic cancer or hematological cancers.

The present invention relates to substituted imidazopyridazine derivatives of Formula (I)

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wherein the variables have the meaning defined in the claims. The compounds according to the present invention are useful as pI3Kβ inhibitors. The invention further relates to processes for preparing such novel compounds, pharmaceutical compositions comprising said compounds as an active ingredient as well as the use of said compounds as a medicament.

The present invention relates to compounds of formula (I) or the tautomers or pharmacologically acceptable acid addition salts thereof, characterized by a topological polar surface area value (TPSA) of at least 145, wherein R.sup.1, R.sup.2, R.sup.3, R.sup.4, X, and Z.sup.− have one of the meanings as defined in the specification, to the use of compounds of formula (I) as medicaments, to pharmaceutical compositions comprising at least one compound of formula (I), as well as to medicament combinations containing one or more compounds of formula (I). The compounds are ENaC inhibitors useful for the treatment of respiratory diseases and allergic diseases of the airways.

##STR00001##

The present invention relates to compounds of formula (I), or the tautomers or pharmacologically acceptable acid addition salts thereof, wherein R.sup.1, R.sup.2, R.sup.3, R.sup.4, X, and Z have one of the meanings as defined in the specification, to the use of compounds of formula (I) as a medicament, to pharmaceutical composition comprising at least one compound of formula (I), as well as to medicament combinations containing one or more compounds of formula (I).

##STR00001##

This invention relates to antisense oligonucleotides comprising at least one N3′.fwdarw.P5′ phosphorodiamidate linkage (NPN) in the backbone as well as methods for using the same. The antisense oligonucleotides can effectively prevent or decrease protein expression.

This invention relates generally to bifunctional molecules including (a) a TGFβRII or fragment thereof capable of binding TGFβ and (b) an antibody, or antigen binding fragment thereof, that binds to an immune checkpoint protein, such as Programmed Death Ligand 1 (PD-L1), uses of such molecules (e.g., for treating cancer), and methods of making such molecules.

A multi-particle dosage form that can deliver phenylephrine in controlled pulsed doses. The dosage form can contain an immediate release form that can contain phenylephrine or a salt thereof and a plurality of delayed release particles with a coating that can contain phenylephrine or salt thereof and a pH sensitive coating.

The present invention provides for systems and methods for inhaled CO therapy to prevent, attenuate, or delay processes that accelerate the loss of organ or tissue function, thereby increasing the lifespan of transplanted organs or tissues, or slowing the decline of native organs or tissues, or delaying the need for replacement of diseased native organs with organ transplants. Such biological processes that are prevented, attenuated, or delayed include chronic persistent inflammation, fibrosis, scarring, as well as immunologic or autoimmune attack.