MiRagen Therapeutics, Inc. Patent applications |
Patent application number | Title | Published |
20140303236 | CONTROL OF WHOLE BODY ENERGY HOMEOSTASIS BY MICRORNA REGULATION - The disclosure provides a method of regulating fatty acid or glucose metabolism in a cell by contacting the cell with a modulator of miR-208a and/or miR-208b activity or expression. The disclosure also provides a method of treating or preventing a metabolic disorder, such as obesity, diabetes, or metabolic syndrome, in a subject by administering to the subject an inhibitor of miR-208a and/or miR-208b activity or expression. Also provided is a method of enhancing or improving mitochondrial function and/or redox-homeostasis in a subject by administering to the subject an inhibitor of miR-208a and/or miR-208b activity or expression. | 10-09-2014 |
20140024700 | BLOOD-BORNE MIRNAS AS SURROGATE MARKERS OF DRUG EFFICACY FOR CARDIAC CONDITIONS - The present invention provides methods for evaluating or monitoring the efficacy of a therapeutic intervention for treating a cardiac disorder. Such methods comprise measuring or detecting the level of at least one miRNA in a biological sample from a patient receiving the therapeutic intervention and comparing the level to the level of said at least one miRNA in a control sample, wherein the measured level of said at least one miRNA is indicative of the therapeutic efficacy of the therapeutic intervention. Methods of predicting or assessing the severity or progression of heart failure in a patient by measuring one or more miRNAs in a biological sample from the patient are also disclosed. | 01-23-2014 |
20120128761 | Lipophilic Polynucleotide Conjugates - Disclosed are lipophilic polynucleotide conjugates including polynucleotide-cholesterol conjugates and methods of delivering therapeutic polynucleotides to a mammalian cell or patient in need of treatment using said conjugates. The disclosure further provides methods of synthesizing the lipophilic polynucleotide conjugates. The conjugates are designed to mimic or target cellular miRNAs. The lipophilic moiety, such as cholesterol or cholesterol derivative, is spaced from the polynucleotide by a substantially linear hydrocarbon group. Due to an absence of significantly polar groups and/or exchangeable protons in the vicinity of the lipophilic moiety, the interaction between the lipophilic moiety and cell membranes is enhanced to provide for efficient entry into cells. | 05-24-2012 |