Abstract: The application provides iminosugars with a high activity and specificity for inhibiting ceramide glucosyltransferase.

Abstract: Lipidomic markers for Hepatitis C and related conditions, treat hepatic fibrosis and hepatocellular carcinoma. An agent administered to such subject may be an cellular total fatty-acid content under iminosugar, which may be effective against hepatitis C. Such iminosugar may be, for example, one of N-substituted deoxynojrimycins and pharmaceutically acceptable salts thereof, N-substituted deoxygalactonojirimycins and pharmaceutically acceptable salts thereof and N-substituted Me-deoxygalactonojirimycins and pharmaceutically acceptable salts thereof. A method of assessing a Hepatitis C infection or a condition caused by or associated with said infection.

Abstract: Iminosugar compounds are described that have inbuilt delivery features by virtue of covalent incorporation of a tocopherol moiety, or alternative moieties that are analogs of tocopherol or select analogs of cholesterol, or its antagonist “Ezitimibe”; and are likely to have broad spectrum antiviral activity. The compounds differ from previous iminosugar compounds, even lipophillic ones, being more hydrophobic and resembling fats and oils in their partition behavior in vivo into lipid phases of lipoproteins, cellular lipid droplet organelles and biological membranes. These features confer a number of unique delivery attributes in vivo, favorable to the therapy of virus infections involving cells of the lymphoid system and the liver, in particular, but these features are also favorable in general for the treatment of virus infections of man and animals.

Abstract: Provided are methods of reducing cellular cholesterol levels using lipid particles that are capable of cellular entry. Such lipid particles may be used for treating or preventing a disease or condition that is caused by or associated with an increased cellular cholesterol level and for treating or preventing a disease or condition, that is caused by or associated with a virus, that relies on cellular cholesterol for its replication.

Abstract: Iminosugar compounds are described that have inbuilt delivery features by virtue of covalent incorporation of a tocopherol moiety, or alternative moieties that are analogues of tocopherol or select analogues of cholesterol, or its antagonist “Ezitimibe”; and are likely to have broad spectrum antiviral activity. The compounds differ from previous iminosugar compounds, even lipophillic ones, being more hydrophobic and resembling fats and oils in their partition behavior in vivo into lipid phases of lipoproteins, cellular lipid droplet organelles and biological membranes. These features confer a number of unique delivery attributes in vivo, favorable to the therapy of virus infections involving cells of the lymphoid system and the liver, in particular, but these features are also favorable in general for the treatment of virus infections of man and animals.

Abstract: Provided are compositions that include lipid particles, such as liposomes, that can fuse with the ER membrane of a cell. The lipid particles can also deliver a cargo, such as a therapeutic or an imaging agent, encapsulated inside the particles inside the ER lumen of the cell. The compositions can be useful for treating and/or preventing diseases or conditions caused by or associated with a virus, such as viral infections, including HIV and HCV infections.

Abstract: One can treat a viral infection such as hepatitis B (HBV), hepatitis C(HCV), and bovine viral diarrhea virus (BVDV) infections via the delivery of pH sensitive liposomes directly into the endoplasmic reticulum (ER) membrane. Two exemplary liposome formulations are DOPE/CHEMS (DC liposomes) and DOPE/CHEMS/PEG-PE (DCPP liposomes). DC and DCPP liposomes can optimize the intracellular delivery of N-butyl deoxynojirimycin (NB-DNJ), and consequently increase the in vivo activity of this iminosugar several orders of magnitude, and could be used in combination with other therapeutic agents such as interferon and/or ribavirin. The optimized release of NB-DNJ directly into the ER can be also applied for the treatment of other viruses, for which NB-DNJ is known to be an effective antiviral, such as human immunodeficiency virus (HIV).

Abstract: Provided are methods of reducing cellular cholesterol levels using lipid particles that are capable of cellular entry. Such lipid particles may be used for treating or preventing a disease or condition that is caused by or associated with an increased cellular cholesterol level and for treating or preventing a disease or condition, that is caused by or associated with a virus, that relies on cellular cholesterol for its replication.

Abstract: Provided are compositions that include lipid particles, such as liposomes, that can fuse with the ER membrane of a cell. The lipid particles can also deliver a cargo, such as a therapeutic or an imaging agent, encapsulated inside the particles inside the ER lumen of the cell. The compositions can be useful for treating and/or preventing diseases or conditions caused by or associated with a virus, such as viral infections, including HIV and HCV infections.

Abstract: One can treat a viral infection such as hepatitis B (HBV), hepatitis C (HCV), and bovine viral diarrhea virus (BVDV) infections via the delivery of pH sensitive liposomes directly into the endoplasmic reticulum (ER) membrane. Two exemplary liposome formulations are DOPE/CHEMS (DC liposomes) and DOPE/CHEMS/PEG-PE (DCPP liposomes). DC and DCPP liposomes can optimize the intracellular delivery of N-butyl deoxynojirimycin (NB-DNJ), and consequently increase the in vivo activity of this iminosugar several orders of magnitude, and could be used in combination with other therapeutic agents such as interferon and/or ribavirin. The optimized release of NB-DNJ directly into the ER can be also applied for the treatment of other viruses, for which NB-DNJ is known to be an effective antiviral, such as human immunodeficiency virus (HIV).