Abstract: This invention relates to compounds of Formula I: (Formula I), and pharmaceutically acceptable salt thereof, which are allosteric effectors that increase the oxygen-being affinity of hemoglobin, which are useful in the treatment of sickle cell disease, high altitude tissue hypoxia, and other conditions.

Abstract: Provided herein are methods, kits and compositions to increase ANP levels in a subject for the treatment of hypertension and/or cardiovascular diseases, comprising at least one anti-miR agent that inhibits at least one of, or a combination of miR-103, miR-105, miR-107 and/or miR-155, alone, or in combination with an inhibitor of miR-425. Anti-miR agents can be small molecules or an oligonucleotide complementary to at least part of the sequence of hsa-miR-103, hsa-miR-105, hsa-miR-107 and/or hsa-miR-155, or their respective seed sequences or.their binding site in the 3?UTR of NPPA gene. Also provided herein are methods, kits and compositions to decrease ANP levels in a subject for the treatment of low blood pressure, comprising at least one or a combination of agonists of miR-103, miR-105, miR-107 and/or miR-155, alone or in combination with a miR-425 agonist.

Abstract: This invention relates to compounds of Formula I: (Formula I), and pharmaceutically acceptable salt thereof, which are allosteric effectors that increase the oxygen-being affinity of hemoglobin, which are useful in the treatment of sickle cell disease, high altitude tissue hypoxia, and other conditions.

Abstract: This invention relates to compounds of Formula (I) and pharmaceutically acceptable salts thereof, which are allosteric effectors that reduce the oxygen-binding affinity of hemoglobin, which can enhance the efficacy of radiation therapy for cancer and which are useful for the treatment of ischemia and other conditions.

Abstract: The present invention provides small molecule inhibitors of BMP signaling. These compounds may be used to reduce circulating levels of ApoB-100 or LDL. These compounds may also be used to treat or prevent acquired or congenital hypercholesterolemia or hyperlipoproteinemia; diseases, disorders, or syndromes associated with defects in lipid absorption or metabolism; or diseases, disorders, or syndromes caused by hyperlipidemia.

Abstract: The present invention relates to methods, kits and compositions to treat hypertension and other cardiovascular diseases in a subject, in particular, a method of treating or preventing a cardiovascular disease in a subject comprising administering to a subject at least one anti-miR agent to miRNA-425. In some embodiments, an anti-miR agent is a small molecule or an oligonucleotide complementary to at least part of the miR-425 of SEQ ID NO: 1, or an anti-miR complementary to at least part of the miRNA seed sequence AUGACA (SEQ ID NO: 2). Another aspect of the present invention relates to methods, kits and compositions to treat low blood pressure in a subject comprising administering a composition comprising a miR-425 agent to decrease ANP levels in the subject.

Abstract: The present invention provides small molecule inhibitors of BMP signaling. These compounds may be used to modulate cell growth, differentiation, proliferation, and apoptosis, and thus may be useful for treating diseases or conditions associated with BMP signaling, including inflammation, cardiovascular disease, hematological disease, cancer, and bone disorders, as well as for modulating cellular differentiation and/or proliferation. These compounds may also be used to reduce circulating levels of ApoB-100 or LDL and treat or prevent acquired or congenital hypercholesterolemia or hyperlipoproteinemia; diseases, disorders, or syndromes associated with defects in lipid absorption or metabolism; or diseases, disorders, or syndromes caused by hyperlipidemia.

Abstract: The present invention provides pyridinyl-substituted pyrazolyl pyrimidine small molecule inhibitors of bone morphogenetic protein (BMP) signaling having the structure of formula (I), wherein variables A, B, E, F, X, Y, Z, Ar, L1, R4 and R15 are as defined in the specification. The compounds of the invention are useful in modulating cell growth, differentiation, proliferation, and apoptosis, and thus are useful for treating diseases or conditions associated with BMP signaling, including inflammation, cardiovascular disease, hematological disease, cancer, and bone disorders, as well as for modulating cellular differentiation and/or proliferation.

Abstract: The present invention relates to methods, kits and compositions to treat hypertension and other cardiovascular diseases in a subject, in particular, a method of treating or preventing a cardiovascular disease in a subject comprising administering to a subject at least one anti-miR agent to miRNA-425. In some embodiments, an anti-miR agent is a small molecule or an oligonucleotide complementary to at least part of the miR-425 of SEQ ID NO: 1, or an anti-miR complementary to at least part of the miRNA seed sequence AUGACA (SEQ ID NO: 2). Another aspect of the present invention relates to methods, kits and compositions to treat low blood pressure in a subject comprising administering a composition comprising a miR-425 agent to decrease ANP levels in the subject.

Abstract: The present invention provides small molecule inhibitors of BMP signaling. These compounds may be used to reduce circulating levels of ApoB-100 or LDL. These compounds may also be used to treat or prevent acquired or congenital hypercholesterolemia or hyperlipoproteinemia; diseases, disorders, or syndromes associated with defects in lipid absorption or metabolism; or diseases, disorders, or syndromes caused by hyperlipidemia.

Abstract: The present invention provides small molecule inhibitors of BMP signaling. These compounds may be used to modulate cell growth, differentiation, proliferation, and apoptosis, and thus may be useful for treating diseases or conditions associated with BMP signaling, including inflammation, cardiovascular disease, hematological disease, cancer, and bone disorders, as well as for modulating cellular differentiation and/or proliferation.

Abstract: The present invention provides small molecule inhibitors of BMP signaling. These compounds may be used to modulate cell growth, differentiation, proliferation, and apoptosis, and thus may be useful for treating diseases or conditions associated with BMP signaling, including inflammation, cardiovascular disease, hematological disease, cancer, and bone disorders, as well as for modulating cellular differentiation and/or proliferation.

Abstract: The present invention provides small molecule inhibitors of BMP signaling. These compounds may be used to modulate cell growth, differentiation, proliferation, and apoptosis, and thus may be useful for treating diseases or conditions associated with BMP signaling, including inflammation, cardiovascular disease, hematological disease, cancer, and bone disorders, as well as for modulating cellular differentiation and/or proliferation.

Abstract: The invention provides methods for identifying compounds that modulate cell signaling, as well as therapeutic methods that employ such compounds.

Abstract: Cloning and characterization of a full length cDNA encoding Sp110 (speckled 110), a novel 110 kDa polypeptide, is disclosed. It is disclosed that Sp110 is a component of the nuclear body, is expressed in leukocytes, and is also expressed in other types of cells, including endothelial cells, smooth muscle cells, liver cells and heart cells, after contact with certain cytokines. The disclosure also includes the following: Sp140 recruits Sp110 to the nuclear body, Sp110 functions as an activator of gene transcription, and Sp110 serves as a nuclear hormone receptor co-activator. Sp110 DNAs, polypeptides, antibodies are disclosed. Also disclosed are Sp110-related screening methods and clinical diagnostic methods.

Abstract: Methods for reducing, partially preventing or completely preventing nitric oxide (NO) inhalation-related impairment of HPV in a mammal are disclosed. The methods include administering a therapeutically effective amount of NO by inhalation, and co-administering an effective amount of an anti-reactive oxygen species (anti-ROS) agent, e.g., N-acetyl-cysteine, or a leukotriene blocker. Methods for reducing, partially preventing or completely preventing loss of pulmonary vasodilatory responsiveness to NO inhalation in a mammal are also disclosed. The methods include administering a therapeutically effective amount of NO by inhalation, and co-administering an effective amount of an anti-ROS agent a therapeutically effective amount of a leukotriene blocker.

Abstract: A method for lessening or preventing non-pulmonary ischemia-reperfusion injury or inflammation in a mammal by identifying a mammal which has ischemia-reperfusion or is at risk for developing ischemia-reperfusion in a non-pulmonary tissue; and causing the mammal to inhale a therapeutically effective amount of gaseous nitric oxide sufficient to diminish the ability of leukocytes or platelets to become activated in a manner that contributes to an inflammatory process at the site of the ischemia-reperfusion or inflammation in the non-pulmonary tissue, thereby lessening or preventing non-pulmonary ischemia-reperfusion injury in the mammal.

Abstract: This invention relates to a gene therapy method for inducing pulmonary vasodilation. More specifically, this invention involves introducing the nitric oxide synthase gene into lungs resulting in pulmonary vasodilation. This results in a hypotensive effect in the pulmonary circulation which does not significantly affect systemic blood pressure or cardiac index. This method is useful to treat primary pulmonary hypertension or pulmonary hypertension secondary to various disease states.

Abstract: A method for lessening or preventing non-pulmonary ischemia-reperfusion injury or inflammation in a mammal by identifying a mammal which has ischemia-reperfusion or is at risk for developing ischemia-reperfusion in a non-pulmonary tissue; and causing the mammal to inhale a therapeutically effective amount of gaseous nitric oxide sufficient to diminish the ability of leukocytes or platelets to become activated in a manner that contributes to an inflammatory process at the site of the ischemia-reperfusion or inflammation in the non-pulmonary tissue, thereby lessening or preventing non-pulmonary ischemia-reperfusion injury in the mammal.

Abstract: This invention relates to a gene therapy method for inducing pulmonary vasodilation. More specifically, this invention involves introducing the nitric oxide synthase gene into lungs resulting in pulmonary vasodilation. This results in a hypotensive effect in the pulmonary circulation which does not significantly affect systemic blood pressure or cardiac index. This method is useful to treat primary pulmonary hypertension or pulmonary hypertension secondary to various disease states.