This invention relates to the treatment of Pulmonary Hypertension with heart failure with preserved ejection fraction (PH-HFpEF). More specifically, embodiments of the invention provide compositions and methods useful for the treatment of PH-HFpEF employing the use of levosimendan.

This invention relates to the treatment of Pulmonary Hypertension with heart failure with preserved ejection fraction (PH-HFpEF). More specifically, embodiments of the invention provide compositions and methods useful for the treatment of PH-HFpEF employing the use of levosimendan.

The present invention relates to methods for treating and/or preventing tumors and/or promoting apoptosis in a neoplastic cell comprising contacting the neoplastic cell with an cell-penetrating dominant-negative ATF5 (“CP-d/n-ATF5”), wherein the CP-d/n-ATF5 is capable of inhibiting ATF5 function and/or activity.

The present invention relates to methods for treating and/or preventing tumors and/or promoting apoptosis in a neoplastic cell comprising contacting the neoplastic cell with an cell-penetrating dominant-negative ATF5 (“CP-d/n-ATF5”), wherein the CP-d/n-ATF5 is capable of inhibiting ATF5 function and/or activity.

The present disclosure relates to a chimeric antigen receptor, a nucleic acid, a chimeric antigen receptor expression plasmid, a chimeric antigen receptor expressing cell, a pharmaceutical composition for treating cancer, and use of the chimeric antigen receptor expressing cell. The chimeric antigen receptor is specific to human leukocyte antigen G. The nucleic acid encodes the chimeric antigen receptor. The chimeric antigen receptor expression plasmid expresses the chimeric antigen receptor. The chimeric antigen receptor expressing cell is obtained by transducing the chimeric antigen receptor into an immune cell. The pharmaceutical composition for treating cancer includes the chimeric antigen receptor expressing cell and a pharmaceutically acceptable carrier.

The present disclosure relates to a chimeric antigen receptor, a nucleic acid, a chimeric antigen receptor expression plasmid, a chimeric antigen receptor expressing cell, a pharmaceutical composition for treating cancer, and use of the chimeric antigen receptor expressing cell. The chimeric antigen receptor is specific to human leukocyte antigen G. The nucleic acid encodes the chimeric antigen receptor. The chimeric antigen receptor expression plasmid expresses the chimeric antigen receptor. The chimeric antigen receptor expressing cell is obtained by transducing the chimeric antigen receptor into an immune cell. The pharmaceutical composition for treating cancer includes the chimeric antigen receptor expressing cell and a pharmaceutically acceptable carrier.

Sodium, piperazine, and hydrochloride salts or co-crystals of {2-[3-cyclohexyl-3-(trans-4-propoxy-cyclohexyl)-ureido]thiazol-5-ylsulfanyl}-acetic acid (“Compound 1”) are provided herein.

Sodium, piperazine, and hydrochloride salts or co-crystals of {2-[3-cyclohexyl-3-(trans-4-propoxy-cyclohexyl)-ureido]thiazol-5-ylsulfanyl}-acetic acid (“Compound 1”) are provided herein.

Provided herein are methods of treating or ameliorating hypercholemia or a cholestatic liver disease by administering to an individual in need thereof a therapeutically effective amount of an Apical Sodium-dependent Bile Acid Transporter Inhibitor (ASBTI) or a pharmaceutically acceptable salt thereof. Also provided are methods for treating or ameliorating a liver disease, decreasing the levels of serum bile acids or hepatic bile acids, treating or ameliorating pruritis, reducing liver enzymes, or reducing bilirubin comprising administering to an individual in need thereof a therapeutically effective amount of ASBTI or a pharmaceutically acceptable salt thereof.

The present invention relates to substituted alkynylene compounds represented by the compounds of formula (I), pharmaceutically acceptable salts and stereoisomers thereof. The present invention further provides the therapeutic uses of the compounds of formula (I) as anti-cancer agents.