Embodiments described herein generally relate to technologies for analyzing peptide structures for diagnosing and/or treating a disease state advancing through a disease progression. A non-limiting example of a method relating to the technologies described in the subject application may include receiving peptide structure data corresponding to the biological sample obtained from the subject, identifying a peptide structure profile, and diagnosing a disease state within a disease progression. The example may further include generating a diagnosis output relating to the disease state. In at least some cases, the peptide structure profile may include glycosylated peptides, aglycosylated peptides, or both.

The present invention is a novel blood or plasma panel with utility in assessing chronic liver disease severity in a point-of-care setting. The scoring system exhibits 97.2% correlation to previously assigned Child Pugh scores and does not require clinical assessment beyond laboratory testing.

The present invention relates to a non-invasive method for classifying a subject as a potential receiver or non-receiver of a treatment for non-alcoholic steatohepatitis.

RNAi agents for inhibiting the expression of the alpha-1 antitrypsin (AAT) gene, compositions including AAT RNAi agents, and methods of use are described. Also disclosed are pharmaceutical compositions including one or more AAT RNAi agents together with one or more excipients capable of delivering the RNAi agent(s) to a liver cell in vivo. Delivery of the AAT RNAi agent(s) to liver cells in vivo inhibits AAT gene expression and treats diseases associated with AAT deficiency such as chronic hepatitis, cirrhosis, hepatocellular carcinoma, transaminitis, cholestasis, fibrosis, and fulminant hepatic failure.

CPNE7 protein or a nucleotide encoding for CPNE7 protein, or compositions containing the CPNE7 or the nucleotide and their uses are disclosed. The protein, nucleotide, or composition is useful for preventing or treating fatty liver disease. The CPEN7 protein regulates the expression of the SREBF1 (SREBP1) gene or a gene encoding the same. The composition can be a pharmaceutical composition or a quasi-drug composition, a health functional food, or a dietary supplement, which is suitable for preventing or alleviating fatty liver disease.

A nanoparticle activity sensor containing a reporter and at least one tuning domain that modifies a distribution or residence time of the activity sensor when administered to a patient. When administered to the patient, the activity sensor enters cells or tissue where it is cleaved by enzymes specific to a physiological state such as a disease to release a detectable analyte. The tuning domains include molecular structures that modulate distribution or decay by protecting the particle from premature cleavage and indiscriminate hydrolysis, shielding the particle from immune detection and clearance, or by targeting the particle to specific tissue, bodily fluids, or cell types.

The present application provides compositions and methods for determining a disease or condition in a subject. The method comprises contacting a body fluid with a molecule comprising a reporter thereof and the reported is cleaved by an agent in the body fluid. Diseases and conditions that can be determined by the method are also described.

The present disclosure provides methods and compositions that find use in identifying presence of an advanced stage autoimmune liver disease (ALD) is a subject diagnosed as having ALD. Also provided here are methods and compositions that find use in monitoring effectiveness of treatment of an ALD patient receiving a treatment for the ALD. Also provided here are methods and compositions that find use in identifying subjects suffering from a relapse of ALD. The methods and compositions of the present disclosure also find use in facilitating treatment decisions for a subject having ALD.

A problem to be solved is to further improve the specificity for free AIM of an antibody specifically reacting with free AIM and to diagnose NASH without imposing a burden on patients and medical staffs.

The problem can be solved by an immunoassay method for free AIM in a biological sample containing complex AIM and free AIM, and the method comprises bringing the biological sample into contact with an antibody specifically reacting with free AIM in a presence of an anti-IgM antibody.

The present invention derives from the unexpected finding that necroptosis is a novel biomarker and target for therapy in patients with liver failure such as acute liver failure (ALF) and acute-on-chronic liver failure (ACLF). RIPK1, MLKL or RIPK3 can be detected and quantified in serum or plasma, and used as a biomarker for outcome in ACLF and other diseases involving aberrant necroptosis. By antagonising RIPK1, MLKL or RIPK3 many of the unwanted consequences or symptoms of acute-on-chronic liver failure (ACLF) may be reduced. The present invention utilises these findings to identify and provide antagonists of RIPK1, MLKL and RIPK3 that may be used in the treatment or prevention of ACLF. The present invention utilises these findings to identify and provide antagonists of RIPK1, MLKL or RIPK3 that may be used in the treatment or prevention of aberrant necroptosis in the kidney, brain, liver or other organ of the body.