The present invention provides a polypeptide complex on the basis of Titin-Telethonin beta-pleated sheet structure as a polypeptide or protein drug carrier, a method of using the polypeptide complex, and a fusion protein complex thereof. The polypeptide complex is capable of maintaining the activity of polypeptide or protein drugs and prolonging the half-life period simultaneously.

Methods for treating patients having a cardiomyopathy are provided. Additionally, methods for prophylactically treating patients at risk of developing a cardiomyopathy are provided. Methods for treating patients having, or at risk of developing, a cardiomyopathy may comprise administering a fusion protein including a tafazzin peptide and a cellular permeability peptide to the patient. Further, the tafazzin peptide may be coupled to the cellular permeability peptide by a polypeptide linker.

A transcriptomic analysis of genes consistently upregulated in high producer clones were each evaluated for their ability to increase the production of a protein of interest. The products of these genes (metabolism influencing products (MIP)), such as actin, Erp27, Erp57, Foxa1, PPAR, Ca3, and Tagap, could be sub-categorized into different functional categories such as signaling, protein folding, cytoskeleton organization and cell survival.

Nucleic acids encoding modified myosin heavy-chain-associated RNA transcripts are provided. The modified myosin heavy-chain-associated RNA transcripts belongs to a cluster of long noncoding RNAs (lncRNA) and bind to chromatin remodeler Brg1 to inhibit Brg1's genomic targeting and gene regulation function. The modified myosin heavy-chain-associated RNA transcripts expressed in an individual inhibit Brg1's gene regulation function and protect the heart of the individual from myopathy and failure. One of the modified heavy-chain-associated RNAs is a 400 base pair fragment segmented from a natural 779 base pair sequence of Mhrt (Mhrt779) and has the same cardioprotective effects as the Mhrt779.

The present invention relates to novel peptides, composition comprising such peptides including nutritional supplements and methods for inducing satiation and satiety, for weight management and preventing or reducing the incidence of obesity, or for preventing or reducing cardiovascular diseases, atherosclerosis, hypertension, hepatosteatosis, cancer and/or diabetes.

The present invention relates, in part, to methods of treating a cancer in a subject comprising administering to the subject a therapeutically effective amount of an agent that modulates one or more biomarkers, such as inhibits one or more biomarkers listed in Table 1 and/or increases one or more biomarkers listed in Table 4, in combination with an immunotherapy.

A cardiac troponin I ultra-sensitive detection reagent kit, a preparation method, and a detection method. The reagent kit comprises at least one first anti-cardiac troponin I antibody marked with a trace marker and at least one second anti-cardiac troponin I antibody coated on magnetic microspheres, the first anti-cardiac troponin I antibody and cardiac troponin I binding site being different from the second anti-cardiac troponin I antibody and cardiac troponin I binding site. The reagent kit may further comprise a diluent capable of significantly reducing non-specific binding in a detection process, so as to further increase the detection accuracy and sensitivity. The method using the reagent kit to detect cardiac troponin I sensitively and accurately detects the amount of cardiac troponin I in a sample, and provides more timely and reliable information for the early diagnosis and treatment of AMI.

The present invention relates generally to assays, methods and kits for the prognosis and/or diagnosis of cardiac disorders. The present invention also provides, for example, binding agents to a novel class of circulating cardiac troponin T upstream open reading frame (TnTuORF) peptide biomarkers for use in predicting or diagnosing a cardiac disorder other than myocardial infarction or unstable angina. In addition, the binding agents of the present invention may be used to enhance the sensitivity and false positive performance of cardiac troponins in the prognosis and diagnosis of myocardial infarction.

The invention, in part, includes methods and compounds useful to prepare and functional class XIV myosin. Functional class XIV myosin prepared using methods of the invention may be useful to screen for and identify compounds that inhibit and treat parasitic infections and contamination.

The present disclosure provides methods and compositions useful for the treatment or prevention of heart disease. In particular, the present disclosure provides a vector comprising a modified troponin promoter operatively linked to a therapeutic gene product for the treatment or prevention of heart disease, e.g., cardiomyopathy. The gene product may be MYBPC3. The disclosure also provides recombinant adeno-associated virus (rAAV) virions, rAAV viral genomes, and expression cassettes and pharmaceutical compositions thereof. The disclosure further provides methods for treating a disease or disorder, such as heart disease.