Abstract: Provided herein are GI specific rifaximin release compositions which can be formulated for targeted delivery of rifaximin to one or more portions of the GI tract. Methods of treating diseases and disorders with the disclosed compositions are also provided.

Abstract: Provided herein are solid dispersions comprising rifaximin and methods of using the same for the treatment of sickle cell disease (SCD).

Abstract: Provided herein are solid dispersions comprising rifaximin and methods of using the same for the treatment of Overt Hepatic Encephalopathy and complications associated with cirrhosis.

Abstract: The present disclosure is directed to a method of treating nonalcoholic fatty liver disease (NAFLD), and subsets thereof such as nonalcoholic steatohepatitis (NASH), using an IL-17 antagonist, such as a monoclonal antibody that specifically binds to IL-17 receptor A (IL-17RA).

Abstract: The present disclosure is directed to the use of methylnaltrexone, or a salt thereof, and rifaximin for the treatment of increased gut permeability, or an associated disorder, e.g., NASH or NAFLD.

Abstract: This invention provides a method of reducing viral load in an HIV-1-infected human subject which comprises administering to the subject an effective HIV-1 viral load reducing dose of a CCR5 receptor antagonist, such as a humanized antibody designated PRO 140 or an anti-CCR5 receptor monoclonal antibody, wherein the viral load reducing dose achieves an average maximum decrease of viral load in the subject of at least 1.83 log10 to 2.5 log10 at about ten days following administration of the CCR5 receptor antagonist and wherein the viral load reducing dose further achieves a mean viral load reduction of 1.7 log10 at about nine days following administration of the CCR5 receptor antagonist. The viral load reducing dose results in a suppression of mean viral load by 1.0 log10 within about four days following administration of the CCR5 receptor antagonist, and suppression of viral load in the subject persists at or below a level of reduction of 1.0 log10 for about two to three weeks.

Abstract: This invention provides a method of reducing viral load in an HIV-1-infected human subject which comprises administering to the subject an effective HIV-1 viral load reducing dose of a CCR5 receptor antagonist, such as a humanized antibody designated PRO 140 or an anti-CCR5 receptor monoclonal antibody, wherein the viral load reducing dose achieves an average maximum decrease of viral load in the subject of at least 1.83 log10 to 2.5 log10 at about ten days following administration of the CCR5 receptor antagonist and wherein the viral load reducing dose further achieves a mean viral load reduction of 1.7 log10 at about nine days following administration of the CCR5 receptor antagonist.

Abstract: Methods of killing prostate-specific membrane antigen (PSMA)-expressing, taxane-resistant cancer cells are provided. In particular, PSMA-expressing, taxane-resistant cancer cells are contacted with an antibody-drug conjugate (ADC) that comprises an antibody or antigen-binding fragment thereof that specifically binds to PSMA conjugated to monomethylauristatin norephedrine or monomethylauristatin phenylalanine.

Abstract: This method provides a method for reducing HIV-1 viral load in an HIV-1-infected human subject which comprises administering to the subject at a predefined interval effective HIV-1 viral load-reducing doses of (a) a humanized antibody designated PRO 140, or of (b) an anti-CCR5 receptor monoclonal antibody. This invention also provides a method for inhibiting in a human subject the onset or progression of an HIV-1-associated disorder, the inhibition of which is effected by inhibiting fusion of HIV-1 to CCR5+CD4+ target cells in the subject. This invention also provides a method for treating a subject infected with HIV-1 comprising administering to the subject (a) a monoclonal antibody which (i) binds to a CCR5 receptor on the surface of the subject's CD4+ cells and (ii) inhibits fusion of HIV-1 to the subject's CCR5+CD4+ cells, and (b) a non-antibody CCR5 receptor antagonist, in amounts effective to treat the subject.

Abstract: This method provides a method for reducing HIV-1 viral load in an HIV-1-infected human subject which comprises administering to the subject at a predefined interval effective HIV-1 viral load-reducing doses of (a) a humanized antibody designated PRO 140, or of (b) an anti-CCR5 receptor monoclonal antibody. This invention also provides a method for inhibiting in a human subject the onset or progression of an HIV-1-associated disorder, the inhibition of which is effected by inhibiting fusion of HIV-1 to CCR5+CD4+ target cells in the subject. This invention also provides a method for treating a subject infected with HIV-1 comprising administering to the subject (a) a monoclonal antibody which (i) binds to a CCR5 receptor on the surface of the subject's CD4+ cells and (ii) inhibits fusion of HIV-1 to the subject's CCR5+CD4+ cells, and (b) a non-antibody CCR5 receptor antagonist, in amounts effective to treat the subject.

Abstract: Methods of killing prostate-specific membrane antigen (PSMA)-expressing, taxane-resistant cancer cells are provided. In particular, PSMA-expressing, taxane-resistant cancer cells are contacted with an antibody-drug conjugate (ADC) that comprises an antibody or antigen-binding fragment thereof that specifically binds to PSMA conjugated to monomethylauristatin norephedrine or monomethylauristatin phenylalanine.

Abstract: This method provides a method for reducing HIV-1 viral load in an HIV-1-infected human subject which comprises administering to the subject at a predefined interval effective HIV-1 viral load-reducing doses of (a) a humanized antibody designated PRO 140, or of (b) an anti-CCR5 receptor monoclonal antibody. This invention also provides a method for inhibiting in a human subject the onset or progression of an HIV-1-associated disorder, the inhibition of which is effected by inhibiting fusion of HIV-1 to CCR5+CD4+ target cells in the subject. This invention also provides a method for treating a subject infected with HIV-1 comprising administering to the subject (a) a monoclonal antibody which (i) binds to a CCR5 receptor on the surface of the subject's CD4+ cells and (ii) inhibits fusion of HIV-1 to the subject's CCR5+CD4+ cells, and (b) a non-antibody CCR5 receptor antagonist, in amounts effective to treat the subject.

Abstract: This invention provides a method of reducing viral load in an HIV-1-infected human subject which comprises administering to the subject an effective HIV-1 viral load reducing dose of a CCR5 receptor antagonist, such as a humanized antibody designated PRO 140 or an anti-CCR5 receptor monoclonal antibody, wherein the viral load reducing dose achieves an average maximum decrease of viral load in the subject of at least 1.83 log10 to 2.5 log10 at about ten days following administration of the CCR5 receptor antagonist and wherein the viral load reducing dose further achieves a mean viral load reduction of 1.7 log10 at about nine days following administration of the CCR5 receptor antagonist.

Abstract: This method provides a method for reducing HIV-1 viral load in an HIV-1-infected human subject which comprises administering to the subject at a predefined interval effective HIV-1 viral load-reducing doses of (a) a humanized antibody designated PRO 140, or of (b) an anti-CCR5 receptor monoclonal antibody. This invention also provides a method for inhibiting in a human subject the onset or progression of an HIV-1-associated disorder, the inhibition of which is effected by inhibiting fusion of HIV-1 to CCR5+CD4+ target cells in the subject. This invention also provides a method for treating a subject infected with HIV-1 comprising administering to the subject (a) a monoclonal antibody which (i) binds to a CCR5 receptor on the surface of the subject's CD4+ cells and (ii) inhibits fusion of HIV-1 to the subject's CCR5+CD4+ cells, and (b) a non-antibody CCR5 receptor antagonist, in amounts effective to treat the subject.

Abstract: This invention provides the CD4-IgG2 chimeric heterotetramer, wherein the heavy chains of the chimeric heterotetramer is encoded by the expression vector designated CD4-IgG2HC-pRcCMV (ATCC No. 75193). This invention also provides the CD4-IgG2 chimeric heterotetramer, wherein the light chains of the chimeric heterotetramer is encoded by the expression vector designated CD4-kLC-pRcCMV (ATCC No. 75194). This invention also provides the CD4-IgG2 chimeric heterotetramer, wherein the heavy chains of the chimeric heterotetramer is encoded by the expression vector designated CD4-IgG2HC-pRcCMV (ATCC No. 75193) and the light chains of the chimeric heterotetramer is encoded by the expression vector designated CD4-kLC-pRcCMV (ATCC No. 75194).